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ARKWKIGU I'b WIIE DESTROYING THE MODELS* 
 
INVENTION k DISCOVER! 
 
 RALPH AND CHAXDOS TEMPLE. 
 
 " Keep unshak'd 
 That temple, thy fair mind." 
 
 SIIAKSPERE. 
 
 IHustrateD. 
 
 LONDON : 
 GEOOMBEIDGE & SONS, 
 
 PATERNOSTER ROW. 
 
 D. H. HILL LIBRARY 
 N. C. STATE UNIVERSITY 
 
ftfMSON, PRINTER. HERTFORD. 
 
CONTENTS. 
 
 The Ti lie Mother of Invention 
 
 Arkwrifjht's Wife Destroving the Models 
 
 How Arkwritiht ConstruUed his First Machine 
 
 Curier aud the Fossil-foot 
 
 Stephenson and the Lawyer 
 
 Samuel Crompton and the Spies 
 
 The Wur of the Knobs and Points . 
 
 The Story of Wedgwood-Ware 
 
 The Railway in its Cradle . . 
 
 The First Uot-presser of Paper 
 
 Bruuel's Prophecy . . . 
 
 The Boy and the Steam Engine . . 
 
 Dr. Buckland watching the Builders 
 
 An Impromptu Invention . 
 
 The First Fliotographers . . . 
 
 William Flakefleld's Linen Handkerchief 
 
 The Chill h..od of James Watt 
 
 The Youth (if James AVatt 
 
 Benjamin Huntsman and the Process of Making Cast 
 
 The Fieti' in of Salomon De Cans 
 
 The Inventor of Printing for the Blind 
 
 The Eomanceof the Stocking Frame 
 
 W)liiam Uyie WoUaston, the Eccentric Discoverer 
 
 Old Prejudices aaaicst Cotton Spinning 
 
 The I'liiiosopher Tautrht by the Child 
 
 Herschel's First and Last Telescopes 
 
 Five Guineas for a Kew Planet 
 
 The Fates of John Kay and Lewis Paul 
 
 A Troublisome Person in Chemistry . 
 
 Parsley Peel 
 
 The Earliest Umbrella 
 
 The Old Telegraphs 
 
 The History of Matches 
 
 Davy and the " Laughing Gas" 
 
 Popular Notions of Inventions 
 
 The First Margate Steam-boat 
 
 "Watt's Early Struggles 
 
 Mr. Boulton of Birmingham 
 
 Impracticable Inventors . 
 
 The Cornish Miners and the Engine 
 
 The Duke and the Inventor 
 
 The Ear Trumpet 
 
 Steel 
 
 PAQB 
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IV 
 
 CONTENTS. 
 
 
 lis in Nail-Makin, 
 
 The Origin of our Cast-iron 
 
 Arnold the Watchmaker and his Friend Breguet 
 
 The Inventor and the Pirates 
 
 A Quick Decision 
 
 Blunders of the Telegraphers 
 
 The Last D.ijs of James Watt 
 
 The Secrft of Making Dolls' Eyes . 
 
 The " Spinning Jenny" and the " Mole" 
 
 The Original Sewing-AIachine 
 
 Tlie Safety-Lamp and its Inventor 
 
 ""nvention ol " Kevclving" Kire-Arms 
 
 Introduction of Gutta Percha 
 
 Jenner and the Discovery of Vaccination 
 
 Early Aeronauts and Testu's Balloon Voyage 
 
 The Value of H -.sted Iron— Mr. Weiss, the Cutler 
 
 The Aurora Bo.ealis and the Telegraph 
 
 Schemes for Extinguishing Fire 
 
 The Modern Thief Catcher 
 
 A Ready-Witted Inventor 
 
 The Geologist and his Horse 
 
 A Story of Three Workmen 
 
 The Struiigles of Optical Glass — Guinand of Brenets 
 
 Galvani and the Frog 
 
 The Pioneers of Steam Navigation . 
 
 ■J he Humorous Side of Telegraphy 
 
 The History of Paper-Hangings 
 
 A Great Inventor's Recreations 
 
 Foley the tiddler and the Introduction of Splitting-M 
 
 The Beginning and End of Parachutes 
 
 Dr. Cartwri>;ht, the Inventor of the Power-Loom 
 
 The Laj-ing of the Great Atlantic Cable 
 
 The End of Lavoisier 
 
 Sir Ciiarles liell, the Physiologist . 
 
 A Philosopher's Chacge of Name 
 
 A Terrible Inventor 
 
 Fulton and the Emperor' Napoleon . 
 
 Panoramas .... 
 
 Telegraphy under Difficulties . . 
 
 The Koof has Fallen 
 
 'J'he Natural Philosopher and the Cat 
 
 Stopped in Time .... 
 
 Faraday's First Patrons . 
 
 A Submarine Survey 
 
 A Storm in a Telegraph Office 
 
 The Discoverer of Californian Gold . 
 
 The Vicissitudes of Gas-Lighting 
 
 Tunnelling under the IhaBaes 
 
 The Jdea of the Thaumatrope 
 
 The Pianoforte .... 
 
 The Eccentricities of the Hon. Henry Cavendish 
 
 William Murdoch and his Inventions 
 
 Prince Albert and the Inventor of Gun-Cotton 
 
 The Labours of Sir Joseph Banks . 
 
 Modern Lamps and their Inventors 
 
 Wr. Mallet's Discoveries about Earthquakes 
 
 Time and Space Abolished 
 
 The Restorer of Wood Engraving 
 
 Crime and the Telegraph 
 
 An Uninti^nded In-<ect Trap 
 
 The Wond> ra of Well Boring 
 
 The Introduction of Mahogany 
 
CONTENTS. 
 
 Priestly and the Brewery 
 
 A Strange Substance 
 
 The Inventor of Litho(traphy 
 
 The First Victim of the Locomotive 
 
 The Labours of Niepce and Daguerre 
 
 Ingenuity in a New Channel 
 
 Discovery of Petroleum . , 
 
 The Lecend of the Teleecopn 
 
 The Labours of Sir Samuel Bentham 
 
 Anecdutes o( the Eddv^'tone Lit:hthouiie 
 
 Two Inventors of Explosive Compounds 
 
 Macadam's Improvements of Hitihways 
 
 Chloroform and its Forerunners 
 
 Eepeatinc Cross-bows 
 
 Wonderiul Cuiculators 
 
 Mechanical Spies 
 
 Mr. Nasmyth and the Steam Hammer 
 
 The Wonders of Spectrum Analysis 
 
 The Reapint; Machine 
 
 The Discoverers of Electro-Metalliirjjy 
 
 Mr. Goldsviorthy Uurney and the Burning Waste of Clackmannan 
 
 The Electro-Macnet 
 
 A Balloon Romance 
 
 Colour-Blindness and .John Dalton . 
 John Palmer and the First Mail Coaches 
 
 The Earl of Ros«e's Great Telescope 
 
 Sir Rowland Hill a-id the Host Office 
 
 John Metenlf, the Blind Koad Maker 
 
 Dr. Arnott and the Water-Bed 
 
 The Discovery of the Planet Neptune 
 
 The Invention of the Screw Propeller 
 
 The Childhood of Dr. Thomas Youn;? 
 
 The Art of Photo-Sculpture 
 
 History of Postage Stamps 
 
 Col. Pasley and the Wreck of the Royal Georee 
 
 Mr. Dirck's Optical Illuciong 
 
 Water Glass 
 
 Mr. Goldechmidt, the Planet-Finder 
 
 Microscopic Wniing and Engraving 
 
 PAOR 
 
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 4;u 
 
 43« 
 
 -=S-4 
 
XXX£A 
 
 TSMPLS AHEGDOTES. 
 
 o-o j^;oc 
 
 INVENTION AND DISOOVEEY. 
 
 THE TKUE MOTHER OF INTE^'TION. 
 
 More than twelve hundred patents have been granted 
 since the beginning of the present centurv for new 
 machines and improvements in machinery used in the 
 cotton manufactures alone. "When we glance at the 
 list and find it teeming with well-known Lancashire 
 names, we perceive at once that here, as in all other 
 brauches of industry, necessity was the mother of all 
 this world of invention — the necessity of the manu- 
 facturei-, who daily and hourly felt the want of the 
 improvements there enumerated. It has been, in fact, 
 in the fruitful soil of our great cotton manufactures 
 that all these devices for saving human labour and 
 conferring abundance upon mankind, have sprung up, 
 But for the extensive cotton manufacture, very early 
 established, in Lancashire, it may safely be assumed 
 that the idea of the spinning jenny could not have 
 occurred to Hargrcavcs ; nor that of the spinning frame 
 to Paul or Arkwright ; nor that of the mule to Cromp- 
 ton ; nor would the numerous inventions that have arisen 
 
 B 
 
 D. H. HILL LIBRARY 
 North Carolina Stat© College 
 
INVENTION AND DISCOVERT. 
 
 from these in all probability have existed, or, if at all, 
 not in their present form. The causes which led to the 
 establishnnmt of this kind of industry in Lancashire 
 were the true parent of these inventions. It is inte- 
 resting, therefore, to find that all this prosperity seems 
 to have sprung from the remarkable liberality of the 
 Lancashire people at a period when jealousy, distrust, 
 and seclusion were the ruling motives of nearly every 
 branch ot trade, international and domestic. More than 
 two centuries ago the Warden and Fellows of Man- 
 chester College, in order to encourage ingenious stran- 
 gers to settle in their town, granted them the benefit 
 of the adjacent woods to cut timber for constructing 
 their looms, at the annual charge of only fourpence 
 each ; and in this they were no doubt carrying out only 
 a traditional policy ; for the Manchester spinners and 
 weavers were already famous. Dr. Ure remarks that 
 these "Marts of Industry" were completely the offspring 
 of Nature ; but it is certain that they are due to these 
 moral causes in a far greater degree than to any peculiar 
 natural advantages ; for not even the coal and iron of 
 these districts can explain their prosperity, which had 
 reached a considerable degree of development be%re 
 steam power, or even machines, were in use. 
 
INVENTION AND DISCOVERY. 
 
 AEKWEIGHT'S WIFE DESTROYINa THE MODELS. 
 
 It is well known that Sir Richard Arkwright — to whose 
 ingenuity and perseverance, more than tc any other 
 cause, we are indebted for the marvellous growth of 
 our cotton manufactures — began life as a poor barber. 
 It is now more than a hundred years since he occupied 
 a kind of underground kitchen in the town of Bolton, 
 in Lancashire, to which he endeavoured to attract 
 customers by exhibiting a board with the facetious 
 inscription, " Come to the Subterranean Barber : he 
 shaves for a Penny." Whether the barbers of the 
 town really dreaded this announcement, or merely felt 
 the customary jealousy towards an interloper — for 
 Arkwright was a native, not of Bolton, but of Preston 
 — does not appear ; but a fierce opposition is said to 
 have been at once commenced between them. The 
 Bolton barbers reduced their prices ; but the man 
 whose inventive genius was destined to create a revolu- 
 tion in British industry was not likely to be beaten 
 when fairly roused. Arkwright took down his board, 
 and painted out the offensive inscription ; but it was 
 only to substitute the still more alarming words — 
 "Richard Arkwright, Subterranenn Barber; a Clean 
 Shave for a Halfpenny !" We may assume that the 
 Bolton barbers after this left their underground rival 
 to shave the town in peace. 
 
 Where Arkwright's cellar was, is not exactly known 
 — indeed, the facts relative to his early life are some, 
 what obscure ; but Mr. French, in his Biography of 
 
INVEXTIOX AND DISCOVERY. 
 
 Crompton, informs us that a gentleman in Bolton 
 still preserves, as a relic of Arkwriglit, the leaden 
 vessel in whicli liis customers were accustomed to -wash 
 after being shaved. Like most handicraftsmen, whose 
 business leaves thena much spare time, barbers are 
 frequently ingenious men — a truth which appears to 
 be as old as the Arabian Nights' Tales ; most readers 
 of which will remember the barber who left his half- 
 shaven customers to take astronomical observations in 
 an adjoining garden. Arkwright appears to have 
 corresponded in many ways with that ancient proto- 
 type of Oriental humour. His mind was always filled 
 with schemes of ingenious mechanism for shortening 
 labour, and appears, like many other uneducated men, 
 to have long dreamed of discovering that philosopher's 
 stone of mechanics — perpetual motion. Like the wife 
 of tlic potter, Bernard Palissy, Mrs. Arkwright was not 
 unnaturally impatient of his neglect of the customers, 
 who now began, we may suppose, to be more numerous 
 in the barber's kitchen. Convinced that he would 
 starve his family by scheming when he ought to be 
 shaving, Mrs. Arkwright one day, in a fit of anger, 
 destroyed some of his cherished models of machinery ; 
 and in a moment the unfortunate barber saw the fruit 
 of his labour and ingenuity, and all the prospective 
 wealth that they were to bring him, gone, as he thought, 
 lor ever. Arkwright never forgave this act. He sepa- 
 rated from her immediately, nor would anything induce 
 liim ever to live with her a train. 
 
INVENTION AND DISCOVEKV. 
 
 HOW AKKWRIGHT CONSTRUCTED 11 [S 
 FIRST MACHINE. 
 
 When Ai'kwriglit gave up his subterranean kitchen, 
 and -withdrew from competition with the barbers of 
 Bolton, it was only to practise a more profitable branch 
 of their trade. Being in possession of a secret of a 
 chemical process for dyeing human hair, Avhcthcr of his 
 own discovery is not known, he became an itinerant 
 dealer in that article, which, owing to the universal use 
 of wigs in 1760, was in great demand. The dyeing of hair 
 is still accounted one of the most delicate and difficult 
 of chemical operations, and Arkwright's secret was there- 
 fore one from which he no doubt expected great profits. 
 According to Mr. Richardson, a hairdresser in the town 
 of Leigh, and one of Arkwright's customers, his hair 
 was in great esteem, and was considered the best in the 
 country. The wandering barber guarded his secret 
 with a jealousy which afterwards became in him a con- 
 firmed habit, and in later years was a prominent feature 
 in his character. Yet Ai'kwright remained a poor man. 
 In his solitary wanderings from village to village, col- 
 lecting hair from those who were- willing to be shorn, 
 for the benefit of richer wearers of wigs, his mind was 
 still intent upon his favourite idea of constructing new 
 machines. The country through which he travelled was 
 the seat of the cotton manufacture, and the inhabitants 
 of every farmhouse, and the people of every village, were 
 weavers or spinners with the old handwheel. Up to 
 this time the machines used in the manunicture were of 
 
INVENTION AND DISCOVERY. 
 
 the rudest kind, differing little indeed from tliose whicb 
 had been employed in India from the earliest periods. 
 The calico was generally woven by cottagers, who 
 received from the masters a supply of linen yam for the 
 warp or long threads, and of raw cotton to be carded 
 and spun for the " weft," these operations being gene- 
 rally allotted to the females of the weaver's family. 
 But while the spinning had to be performed by no better 
 machine than the old single thread-wheel, the incessant 
 industry of the weaver's wife and children could not 
 supply weft fast enough to keep pace with his loom, so 
 that he was compelled to employ additional hands. Thus 
 the complete dependence of the weaver on the spinners 
 compelled him to pay them constantly increasing prices, 
 and to submit without complaint to their caprices. It 
 was a common thing for a weaver to walk three or four 
 miles in a morning, and to call ou Hve or six spinners 
 before he could collect material enough for the 
 remainder of his day's work ; and when he wanted to 
 complete an order in a shorter time than usual, the 
 promise of a new ribbon or a new gown is said to have 
 been necessary to quicken the exertions of the cottagers. 
 Arkwright, travelling through these districts, then a 
 country of pure streams and skies unsullied by the 
 smoke of a single factory chimney, saw and meditated 
 upon this state of things. Like the collectors of " weft " 
 \c too was an itinerant purchaser of material for a 
 branch of industry, and the houses he visited were tliose 
 in which the spinning went on incessantly, and where 
 the weaver continually called. His old broken models 
 were, of course, not forgotten ; his dreams of a machine 
 to embody perpetual motion, Avere doubtless fading out; 
 
lAVt.NJlOX A.ND 1>1SC0\E1>Y. 
 
 but what if he could devise machines for supplying 
 weft, or even the stronger threads, called warp, so fast 
 that all the fingers in England could not keep pace 
 with their powers ? Some attempts had been made 
 by Lewis Paul and other ingenious men, but they had met 
 with violent opposition from the spinners. Arkwright, 
 however, was not daunted; he had a notion that spinning 
 might be done by means of two rollers, one of which re- 
 voiviusr much faster than the other, would draw the 
 twisted threads exactly as had been done by hand 
 ii'bour; a notion similar to that of Lewis Paul, but 
 which he is said to have derived from watching the 
 rolleis employed to press out bars of redhot iron. The 
 conception grew iu his mind. One day he went secretly 
 to Warrington, many miles from the town in which he 
 resided, and employed a watchmaker, named Kay, to 
 bend some wires and turn some pieces of brass for his 
 purj)ose. Kay was then so far trusted as to be employed 
 to make a small model under Ai-kwright's dii'ections, 
 and the latter then applied to a machinist in the town 
 to make a working machine on the plan, a task for 
 which the watchmaker was incompetent. The machinist, 
 however, deterred by the poverty of Arkwrights apj^ear- 
 ance, and the doubtful character of the enterprise, 
 hesitated to undertake it ; but in the evening of the 
 day on which he was applied to, he agreed to lend the 
 watchmaker the assistance of a smith and toolmaker 
 to make the heavier parts ot the machine, while the 
 watchmaker made the lighter portions under this man'a 
 direction. Thus, without funds, and without encourage- 
 ment, the poor barber contrived to have constructed his 
 first machine, the gigantic results of which even his 
 
8 INVLXTION AND DISCOVERY. 
 
 sanguine temperament could hardly have foreseen. This 
 interesting relic has fortunately been preserved, and has 
 been recently added to the collection in the Patent Mu- 
 seum at South Kensington. 
 
 CUVIER A^'D THE FOSSIL-FOOT. 
 
 While the great naturalist Cuvier was astonishing the 
 world by his great discoveries in geology and com- 
 parative anatomy, neither the grandeur of his subjects, 
 nor the novelty of the truths which he brought to light, 
 led his severel}^ ])hilosophic mind into rash hypotheses. 
 The chalk quarries of Montmartre, in the neighbour- 
 hood of Paris, afforded him a continual supply of speci- 
 mens of fossils, and every load of fragments brought 
 from thence to his house by the Garden of Plants was 
 studied with intense delight. At these quarries he 
 employed, at his own expense, an intelligent workman 
 to collect the bones continually found there; and all who 
 could bring genuine specimens to his door were rewarded 
 with as much liberality as liis scanty fortune would 
 allow. Before he had published his great discoveries, 
 and when the expense of employing professional arfists 
 was beyond his means, he not only drew but engraved 
 the plates himself, and many of these valuable proofs of 
 his industry arc scattered through his great work on 
 fossil remains. Subsequently a M. Laurillard became 
 his secretary, and was associated with him in these 
 researches. Of the origin of Cuvicr's friendship for 
 
I.WEXTIOX AND DISCOVERY. 
 
 this gentleman ■\ve are told a characteristic story. 
 Laurillard was a native of the same town as Cuviev, 
 and had left his birthplace to pursue the profession of 
 an arti.st, in Avhich capacity he had executed some 
 trifling- -work for the great naturalist, but without par- 
 ticularly attracting his notice. One day, however, 
 Cuvier went to his brother's apartment to ask for some 
 help in digging out a fossil from the mass of rock in 
 which it was embedded. The young artist hap])ened to 
 be the only person to be found on the spot, and he cheer- 
 fulh' lent assistance. Little aware of the value of the 
 specimen entrusted to his care, he succeeded in getting 
 the bone out entu'c, thus succeeding almost beyond ex- 
 pectation in carrying out the wishes of Cuvier. In a 
 short time the latter returned for his treasure, and when 
 he saw how perfect it was, his ecstasies became uncon- 
 trollable ; he danced, shook his hands, and uttered 
 expressions of delight, till Laurillard, ignorant both of 
 the importance of the discovery, and of the ardent 
 character of Cuvier, thought he was mad. Taking the 
 fossU-foot in one hand, and dragging Lanrillard's arm 
 with the other, Cuvier led him up-stairs to present him 
 to his sister-in-law, saying, " I have got my foot, aiul 
 M. Launllard found it for me !" He had, indeed, long 
 been meditating on the existence and form of a foot 
 ■which he had vainly sought ; so that when he appeared 
 particularly absent, his family were wont to accuse him 
 of seeking his fore foot. The next morning Laurillard 
 was engaged as Cuvier's secretary, and proved an able 
 coadjutor and faithful friend, destined to be remembered 
 with his illustrious master as long as mankind .shall be 
 grateful towards the great discoverers in science. 
 
10 INA^PJNTION AND DISCOVEEY. 
 
 STEPHENSON ANT) THE LAWYER. 
 
 Among the most interesting episodes in the career ot 
 George Stephenson are the contests which he was com- 
 pelled to maintain with cleverlawyers, who were employed 
 to cross-examine him before committees of the House of 
 Commons on the merits of the particular railways which 
 he was engaged to construct. The late Baron Alderson, 
 then a rising practitioner at the bar, was one of these 
 tormentors of the untaught man of science. Mr. 
 Alderson had a morbid dislike of change, and he is said 
 to have conducted the cross-examination in the tone of 
 a man hurt in his feelings by the idea of a steam train 
 going through space at the rate of twelve miles an 
 hour. The following is a good specimen of one of these 
 scenes : — " ' Of course,' (the question was put with refer- 
 ence to the proposed speed) ' when a body is moving upon 
 a road, the greater the velocity the greater the momen- 
 tum that is generated ?' — ' Certainly.' — ' What Avould be 
 the momentum of forty tons moving at the rate of twelve 
 miles an hour?' — 'It would be very great.' — ' Have you 
 seen a raih'oad that would stand that ?' — ' Yes." — 
 ' Where ?' — ' Any railroad that would bear going four 
 miles an hour ; I mean to say that it it would bear the 
 weight at lour miles an hour, it would bear it at twelve.' 
 — ' Taking it at four miles an hour, do you mean to say 
 that it would not require a stronger railway to carry 
 the same weight twelve miles an hour?' — 'I will give 
 an answer to that. Every one, I dare say, has been 
 over ice, when skating, or seen persons go over ; and 
 
INVENTION AND DISCOVERT. 11 
 
 they know that it would bear them at a greater velocitj 
 than it would if they went slower ; Avheu it goes quick, 
 the weight in a maimer ceases.'* — ' Is not that,' asked 
 the lawyer, with a triumphant glance at his audience, 
 
 * upon the hypothesis that the railroad is perfect ?' But 
 the w^Imess was not to be taken aback. With an 
 equally triumphant glance he replied immediately, ' Yes, 
 and I moan to make it perfect.' " 
 
 The lawyer now started upon another tack : — " ' Do 
 not wrought- iron rails bend r' he asked ; ' take Hetton 
 Colliery, for instance?' — 'They are Avrought iron, but 
 they are weak rails.' — ' Do you not know that they 
 bend?' — 'Perhaps they may, not being made suf- 
 ficiently strong.' — 'And if made sufficiently strong, that 
 will involve an additional expense?' — 'It will.' — 'You 
 say the machine can go at the rate of twelve miles an 
 hour. Suppose there is a turn upon the road, what will 
 become of the machine ?' — ' It would go round the turn.' 
 — ' Would it not go straight forward ?' — ' JTo.' — What is 
 to be the height of the flanch of the wheel ?' — ' One 
 inch and a quarter.' — ' Then if the rail bends to the 
 extent of an inch and a quarter, it will go off the rail.' — 
 
 * It cannot bend. I know it is so in practice.' — ' Did 
 you ever see forty tons going at the rate of twelve 
 miles an hour?' — 'No; but I have seen the engine 
 running from eight to ten miles round a curve.' — 
 
 * There is, probably, some error iu the report. In fact, the 
 very reverse of this proposition is the truth. The principle now 
 acted on throughout our railways, is, we believe, to slacken the speed 
 of trains upon approaching bridges of any considerable length ; 
 and the same rule of going slowly is, we believe, always observed ''n 
 passing over iin unsoimd part of an embankment. 
 
12 INVEXTION A\D DISCOVERY. 
 
 ' What was the weight moved ?' — ' I think little, except 
 the engine.' — ' Do you mean to tell ns that no differ- 
 ence is to be made between those forty tons after the 
 engine, and tlie engine itself?' — 'It is scarcely worth 
 notice.' — ' Then, though the engine might run round 
 and follow the turn, do you mean to say that the 
 weight after it would not pass off?' — *I have stated that 
 I never saw such a Aveight move at that velocity ; but 
 I could see at Killingworth that the weight was follow- 
 ing the engines, and it is a very sharp curve : it is 
 a sharper curve there than I should ever recom- 
 mend to bo put on any railroad.' — ' Have you known 
 a stage-coach overturn when making not a very 
 sharp curve, Avhen going very fast.' — ' Often enough,' 
 replied the engineer, with a shrewd smile ; ' but stage- 
 coaches with a dozen passengers outside are top-heavy, 
 and trains are not. You see that makes all the 
 difference.' " 
 
 SAMUEL CROMriOX AND THE " SPIES." 
 
 Onic of the first inconveniences that Crompton expe- 
 I'ienced from the success of his " spinning mule," arose 
 from the cviriosity of the public concei'ning it. Numbers 
 came eager to obtain a sight of it. When denied the house, 
 they climbed up ladders to the windows, one even con- 
 cealing himself for several days in the cockloft where 
 lie watched Crompton at work through a gimlet -hole 
 ]jierccd in the flooring. Ai'kwright himself was one of 
 these visitors, reeling the impossibility of preserving 
 
INVKXTIOli AXD DISCOVERY. 13 
 
 a secret which every one could carry away with his 
 eyes, Crompton at length resolved to throw it open to 
 the public, though not unconditionally. Some friends 
 and others were permitted to see it, among whom was 
 Robert Peel, the lather of the eminent statesnuin, who 
 brought with him two mechanics to examine its con- 
 struction. Crompton obtained a written promise of a 
 subscription of a guinea each from a number of persons 
 to recompense him for divulging his secret; but when 
 the time came for calling in the subscriptions, many 
 who had put down their names refused to pay, and 
 when everything was gathered in and deductions made, 
 Crompton found himself possessed of less than sixtv 
 pounds, just as much money as built him a new machine 
 with only four spindles more than the one he had given 
 up. Crompton felt the injustice done him so keenly, 
 that one day he seized his axe and broke his cardin" 
 machine to pieces, exclaiming, " They shall not have 
 this too !" 
 
 THE WAR OF THE " KNOBS AND POINTS." 
 
 A SINGtJLAR kind of scientific feud arose in the reign of 
 George III., out of Franklin's discovery of the power of 
 rods and points in conducting and drawing otf electricity. 
 Franklin had modestly inquired whether the knowledge 
 of this power might not be of use to mankind in pre- 
 serving houses, churches, or ships from lightning, by 
 directing us to fix on the highest parts of those edifices 
 
14 INVENTION AND DISCOVERY. 
 
 upright rods of iron made as sharp as a needle, and 
 thus " drawing the electrical fire silently out of a cloud 
 before it came nigh enough to strike, and thereby 
 secure us from that most sudden and terrible mischief." 
 Experiments proved to Franklin's satisfaction the truth 
 and great importance of this suggestion ; but the 
 Abbe Nollet, a great authority in France on Natural 
 Philosophy, solemnly warned the Academy of Sciences in 
 a memoir read before them against " those iron points 
 which people are erecting in the air," and which, he 
 asserted, yvere more calculated to bring destruction 
 upon a building than to ward it off! In England, how- 
 ever, the great philosopher's discovery was received 
 with more favour. The Dean and Chapter of St. Paul's, 
 alarmed by the fact of St. Bride's Church, Fleet Street, 
 having been struck by lightning and seriously injured, 
 applied to the Royal Society for advice against a similar 
 accident to the cathedral ; and they were recommended 
 to " make a complete metallic communication between 
 the cross placed over the lanthorn and the leaden cover- 
 ing of the great dome." This was done about 1769, and 
 the water pipes already existing were made to serve as 
 conductors from the roof to the ground, A year or two 
 later, the Royal Society were called on by the Govern- 
 ment to advise for the protection from lightning of the 
 powder magazines at Purfleet, and a committee of the 
 society strongly recommended the use of pointed con- 
 ductors. 
 
 Then, for the first time, arose a controversy 
 which afterwards assumed historical importance. One 
 member of the committee, named Wilson, protested that 
 he was in favour of knobs instead of points to the con- 
 
INVENTION AND DISCO VKRY. 15 
 
 cluctors, being apparently under the impression that 
 points invite the stroke. Points were ultimately arloptorl 
 bnt unfortunately some countenance was given to the 
 knob theory, by the circumstance that the magazines 
 ■vvei-e struck by lightning in 1777, and slightly injured, 
 though the powder was not ex])loded, while a house at 
 Tctiiorden similarly furnished was also struck. The 
 opponent of points now claimed a triumph; but a com 
 mittce of the Ro3'al Society, composed of the most eminent 
 men of science of the time, made experiments and again 
 reported in favour of points. Wilson was greatly incensed 
 at this new decision against his favourite notion. 
 Parties were formed on either side, and the fact that 
 Franklin was one of the most conspicuous of the 
 " rebels," then waging war with the king's troops in 
 our American colonies, quickly gave to a. purely scien- 
 tific question a political significance. The advocates of 
 blunt points soon became identified with the insurgent 
 colonies, while the opponents of "knobs" Avere considered 
 disafiectcd subjects. The populace, and even the higher 
 classes of society took up the quarrel, without knowing 
 anything of its scientific merits ; and to put up rods 
 without knobs was a sure way to lead to a breach of the 
 peace, ^leanwhile the king, in defiance of the judg- 
 ment of the men of science, ordered all point-conductors 
 to be removed and knobs to be substituted. The good 
 Franklin wrote with a dash of bitterness, which may be 
 pardoned to the feelings of the illustrious *' rebel." " I 
 have never entered into any controversy in defence of 
 .ny philosophical opinions ; I leave them to take their 
 chance in the world. If they are right, truth and ex- 
 lericnce will support them; if wrong, they ouQiht to be 
 
36 INVENTION AND DISCOVEKY. 
 
 refuted and lejected. Disputes are apt to sour one's 
 temper and disturb one's quiet. I have no private interest 
 in the reception of my inventions by tlie world, having 
 never made, nor ])ruposed to make, the least: profit by 
 any of them. The king's changing his pointed conduc- 
 tors ibr blunt ones is, therefore, a matter of small im- 
 portance to me. If I had a wish about it, it would be 
 that he had rejected them altogether as ineffectual. For 
 it is only since he thought himself and family safe from 
 the thunder of heaven that he dared to use his own 
 thunder in destroying his innocent subjects." The 
 king, it is said, actually endeavoured to make the Royal 
 Society rescind their resolutions in favour of the hate- 
 ful points, and had an interview with Sir John Pringle, 
 the then president, during which he earnestly entreated 
 him to use his influence in supporting Mr. Wilson. The 
 reply of the president was dignified and worthy of his 
 position. " My duty, sire," he said, " as well as my 
 inclination, would always induce me to execute your 
 Majesty's wishes to the utmost of my power, but 
 I cannot reverse the laws and operations of nature." 
 The king, less easily satisfied than King Canute with 
 this kind of answer, is said to have replied petulantly, 
 " Perhaps, Sir John, you had better resign." It was in 
 allusion to this aflfair that a friend of Franklin's 
 penned the following highly treasonable epigram : — 
 
 " POINTS OE KNOBS." 
 While you, great George, for knowledge hunt, 
 And sharp conductors change for blunt, 
 
 Tlie nation's out of joint ; 
 Franklin a wiser course pursues, 
 And all jour thunder useless views 
 
 Bj keeping to <he point. 
 
I.WKNTIOX AND Dl.SCUVLIvV. 17 
 
 THE STORY OF " WEDG^YOOD-WARE. 
 
 JosiAH "Wedgwood, whose name must always be asso- 
 ciated with the history of pottery and porcelain, was 
 born at Burslera, in Staffordshire, in 1730, and was the 
 son of a very poor man who laboured at that place as a 
 potter, or maker of the rude kind of earthenware then in 
 use. Even the better classes at that time ate their 
 meals off pewter or brass platters, while foreign china, 
 and indeed all but the rudest pottery, was regarded 
 rather as an ornament for sideboards or mantelpieces 
 than as a thiug of real utility. Simeon Shaw, the his- 
 torian of Staffordshire, says, that scarcely any person in 
 Burslem learned more than mere reading and writing till 
 about 1750, when some individuals endowed the free 
 school for instructing youth to read the Bible, write a 
 fair hand, and know the primary rules of arithmetic. 
 Shaw tells us also that at eleven years of age, his father 
 being then dead, Wedgwood was working as a thrower 
 in his elder brother's pottery. Shortl}' after this, the 
 small-pox — that terrible scourge which, as yet, no 
 Jenner had arisen to subdue — attacked the lad, and 
 ai'ter a long and miserable illness left him with a lame- 
 ness in his left leg which, afterwards rendering amj^u- 
 tation necessary, compelled him to quit the monotonous 
 drudgery of the potter's wheel. 
 
 When a young man he left Burslem for awhile, and 
 entered into a sort of partnership with another working 
 potter, named Harrison, at Stoke, in the neighbourhood. 
 The partnership las' el but a short time ; for the youuj 
 
18 INVENTION AND DISCOVERY. 
 
 potter from Burslem spent more time in designing im- 
 provements in the shapes and patterns of the articles they 
 manufactured, than was likely to be approved of by a. 
 partner of aless speculative turn of mind. It was here that 
 Wedgwood's talent, or rather his passion for producing 
 )rnamental pottery, began to develope itself. He returned 
 to his native place and entered into a new partnership 
 with a potter named Wheildon, devoting himself to the 
 designing and manufacturing of knife-handles, in imita- 
 tion of agate and tortoiseshell, melon table-plates, green 
 pickle leaves, and similar kinds of porcelain ware. His 
 new partner, however, was not more indulgent than the 
 Stoke potter towards new-fangled manufactures, which 
 diverted his attention from the ordinary departments 
 of the pottery business, in which he found a suflBciently 
 profitable field for his industry. It is evident that, 
 although he was a practical potter, Wedgwood's part- 
 ners looked upon him as a dreamer, and were sus- 
 picious of his predilections for devising and inventing. 
 The second partnership ended like the first, and at 
 the age of twenty-nine Wedgwood again repaired to 
 Burslem ; but this time not to be curbed by the will of 
 any partner, but to show those who had refused to sup- 
 port him in his day dreams how much they had lost by 
 their short-sightedness. 
 
 In a small thatched house at Burslem, happy in being 
 his own master at last, the Stoke potter devoted himself 
 alone to the accomplishment of his long-cherished dream 
 of creating a demand for something higher, by improv- 
 ing the productions of his art. Here he began to 
 prosper ; took a second manufactory, in which he fabri- 
 cated a white stoneware, and subsequently established 
 
INYEMTION AMD DISCOVERY. 19 
 
 himself in a third, where he produced that cream- 
 coloured ware by which he gained so much celebrity. 
 Of this new kind of pottery Wedgwood was permitted 
 to present some specimens to Queen Chai-Iotte, who 
 therefore ordered a complete table-service — the first 
 royal table-service of English manufacture which had 
 been used — and was so pleased with its execution as to 
 appoint him her potter, and to desire that his manufac- 
 ture might henceforth be designated " The Queen's 
 wai'e." Wedgwood had observed that a certain earth 
 which contained silica, and which was originally black, 
 became white after burning it in a furnace. Meditation 
 on this fact led him to the notion of mixing silica with 
 the red powder of the potteries, and to the discovery 
 that the mixture became white when calcined. Only 
 one step more remained. By coating this material with 
 a transparent vitrification, commonly known as the 
 glazing, he produced that English earthenware which 
 has become so widely used, and which now figures so 
 largely in the list of our exportations. Suddenly six 
 different kinds of stoneware, hitherto supposed to be 
 unproducible in this country, made their appearance 
 from his manufactory in Staffordshire, delighting and 
 astonishing the connoisseurs, and causing no small con- 
 sternation among the possessors of vahiable old china, 
 who saw a prospect of their treasures being diminished 
 in value by the unexpected discovery that an. English- 
 man could rival the best productions of foreign art. 
 
20 INVENTION AND DISCOVEKT. 
 
 THE RAILWAY IN ITS CRADLE. 
 
 ITearlt ninety years ago an enthusiastic meclianic, 
 named Oliver Evans, was notorious in tbe city of Phila- 
 delphia in the United States, as the advocate of a wild 
 scheme for using steam as a locomotive power. Like 
 most earnest men, Evans was considered by his ac- 
 quaintances as somewhat of a " bore ;" and his notions 
 of " expansive force," and of turning a destructive enemy 
 into a " useful servant," were generally met with deri- 
 sion. But Evans only held on the closer to his favour- 
 ite notion. In 1787 he actually obtained from the 
 state of Maryland an exclusive right to make and use 
 steam waggons, and he offered to make a steam carriage 
 that " would run on a level road with the swiftest 
 horse," and at another time to furnish steam carriages 
 that would " run at the rate of fifteen miles an hour on 
 good level railways." His countrymen, however, took 
 no heed of him. He was undoubtedly somewhat of a 
 visionary ; but however defective in details his contri- 
 vances may have been, time has shown that the objects 
 he undertook to accomplish were attainable. The un- 
 fortunate Oliver Evans, however, cried in vain to be 
 heard. He died neglected, and was forgotten. 
 
 It was seventeen years later that the exhibition on 
 the Merthyr Tydvil Railway took place ; but no less 
 than ten years elapsed before any considerable advance 
 can be said to have been made in the application of 
 steam to locomotion on land. The great obstacle was 
 the supposed want of hold or adhesion of the wheels 
 
INVENTION AND PISCOVEUY. 21 
 
 upon the rails. No want of adhesion had been actually 
 experienced by any one, but people generally assumed 
 that such would be the case, and that was all. Had 
 but a single experiment been made to ascertain whether 
 *' want of hold or adhesion" was really the sort of ob- 
 stacle which it was supposed to be, ten or fifteen years 
 of inventing and contriving to overcome that obstacle 
 would have been saved, and the talent and ingenuity 
 thrown away on the visionary pursuit might, when 
 applied — as it would have been — to a removal of the 
 real difficulties, have gained just so man}- years' march 
 on the road of improvement. 
 
 The world may be said to have slept in the belief 
 that locomotive engines could not drag trains along 
 lines of rail until 1812. In that year the "viewer" of 
 the Wylam Colliery, near Newcastle-upon-Tyne, was ;ui 
 ingenious man, named William Hcdley. It was the 
 year of Napoleon's retreat from Russia, when his 
 gigantic army perished in the snows — a terrible year of 
 cold and distress, when .wheat in England reached the 
 highest point it had attained for these hundred yeai's, 
 and famine stared the people in the face. The trouble 
 which, however, day and night haunted the mind of 
 William Hcdley, was the high price of fodder for cattle. 
 All the coals from the Wylani Colliery were carried by 
 a long tramway in trucks dragged by horses to the 
 place of shipping; and Hedley knew well that unless 
 something could be invented to supersede horses in the 
 conveyance of the coals, it would be impossible to con- 
 tinue to work the tramway. He saw nothing before 
 him but the prospect of the closing of the colliery, and 
 of himself and his Avife and f\imily being cast on tha 
 
22 INVENTION AND DISCOVEKY. 
 
 world. In a state of despondency he retired to bed one 
 night in the autumn of the year 1812 ; but it was not 
 to find repose. Suddenly the idea flashed across his* 
 mind that if all the wheels of a moving carriage were 
 connected, a tendency in any particular set of wheels to 
 surge or revolve on their axes without moving forward, 
 might possibly be overcome by the remaining wheels. 
 He determined to ascertain if this was the fact. On the 
 following morning he ordered a frame and wheels to 
 he made, and with the help of a clockmaker in New- 
 castle, completed his model.* It was successful, and 
 he had the satisfaction of seeing his notions realized 
 within twenty-four hours ; and eventually he had the 
 happiness of inventing and building the first locomotive 
 engine moving by the friction of the wheels upon the 
 road. It was extremely slow in its movements, but it 
 served his purpose, and above all consumed neither hay 
 nor oats, wanted nothing, in shoi't, but that coal in 
 which the neighbourhood abounds. 
 
 The original Wylam locomotive is now in the Patent 
 Museum at South Kensington. A rude, old weather- 
 beaten rusty machine of gigantic size and ponderous 
 appearance, it was nevertheless in constant use at the 
 colliery from 1813, when it was constructed, until Jane, 
 1862, when it was removed to the honourable asylum in 
 which it now finally rests from its labour. At Wylam 
 it was called by the country people "Puffing Billy," 
 from the great noise it made, and it never received any 
 other name. The career of "Puffing Billy" had almost 
 been brought to a premature close, while its owner 
 narrowly escaped a lawsuit in his defence. His per- 
 petual puffing and snorting along the road was voted a 
 
INVENTION AND DlSCOVEIvi. 23 
 
 nuisance ; landlords^complained, and great lawyers were 
 appealed to on legal cases solemnly drawn up. Bui 
 " Puffing Billy" was too good a friend to Newcastle 
 folks to be allowed to be put down. The colliery went 
 on, William Hedley retained his employment, remained 
 at "Wylam for many years, and died in 1842. 
 
 THE FIRST HOT-PRESSER OF PAPER. 
 
 The practice of hot-pressing, by which so beautiful a 
 gloss and flatness is given to printed paper — particularly 
 that used for expensive books — was the invention of Mr. 
 Thomas Turnbull, the founder of the Avell-known firm 
 of cardboard makers of that name. 
 
 Eighty years ago, as all persons know who have 
 looked over old letters of that period, writing papers 
 were made with an extremely rough surface, on which 
 it now seems difficult to understand how pens could 
 have been made to mark. Even the system of "roll- 
 ing" was then unknoA\Ti ; and printing paper was in- 
 variably disfigured by a coai-se surface, while the im- 
 pression of the type, where the paper was not thick, Avas 
 generally to be seen through the reverse side. Our fore- 
 fathers probably thought such matters unworthy of 
 serious attention; although now every stationer and book- 
 seller knows that the public have since learned to regard 
 them as important. No one, at all events, had hithe-to 
 
24 IXVENTIOy A\D DISCOVERT. 
 
 thought of remedying them ; and the improvement finally 
 came from the ingenious idea of a man in no way con- 
 nected with paper-making or publishing. Thomas 
 Turnbull was a young workman in the employment of 
 Mr. Sparrow, a packer and hot-presser of cloths — 
 which were the only articles then hot-pressed. Mr, 
 Sparrow having died, a number of circulars announcing 
 the fact to his customers were ordered by his widow to be 
 printed. The circulars, when they came from the printer's, 
 damp and uneven, with printmarks on the back, were dis- 
 agreeable to the eye of the young Avorkman ; he had a 
 leisure half-hour, and it struck him to put each between 
 glazed boards and subject the printed paper to the same 
 pressure from hot iron plates screwed dovTH by power- 
 ful machinery, which he had been accustomed to give 
 to cloth and silk. The result showed an improvement 
 60 striking that he was at once convinced that the ne%v 
 application of the process, trifling as it seemed, was im- 
 portant. Having an enterprising mind, he Foon after- 
 wards took a small shop in Booth Street, Spitalfields, 
 set up presses, and went himself to stationers and 
 publishers with specimens of his work. The system 
 spread, although, as in the case of other luxuries, it 
 was at first ridiculed as an absurd piece of foppery. 
 Mathias, in his satirical poem, entitled " The Pursuits 
 of Literature,'*" published in 1794, frequently denounced 
 the new absurdity. " All books," he says, " are now 
 advertised to be printed on wire-wove paper, and liot- 
 pressed, down to the ' Philosophical Transactions' and 
 Major Rennell's learned ' Memoir on Hindostan,' as if 
 the intention were that they should be looked at and 
 not read." Thomas Turnbull extended the hot-pressing 
 
INVENTION AND DISCOVEIiV. 
 
 system to cardboard making, in which art lie gained a 
 great reputation, -Nvhich is still enjoyed by his descen- 
 dants. 
 
 BKUNEL'S PROPHECY. 
 
 The elder Brunei, who was a Frenchman, and born in 
 Normandy, had from his earliest years a desire to visit 
 the country which he afterwai'ds adopted as his own, 
 and in which he subsequently made his reputation. 
 When a boy, he frequently went to Rouen, that great 
 mercantile city to which, in spite of the foolish restric- 
 tions which so long encumbered the French mercantile 
 laws, some productions of British skill and industry 
 Lave always found their way. Here his attention was 
 constantly excited by two large cast-iron cylinders which 
 had been landed and were allowed to remain upon tho 
 quay. Compared with his own height they seemed to 
 him gigantic, and he was curious to know their historj^ 
 what was their use, and whence they came. At last a 
 man aboard a ship alongside the quay beckoned to him 
 to come down the ladder, and offered to tell him what 
 he had heard the boy asking for. The kindly sailor 
 man told the boy that the cylinders were part of a 
 " fire" engine — for so steam engines were called in the 
 early days of their history ; that they were just arrived 
 from England, where the people were constantly mak- 
 ing such things, and chiefly to be used in raising water 
 where human strength, or even horse power, would be 
 
26 INVENTION AND DISCOVERT. 
 
 ridiculously insufficient for the purpose. The boy lis- 
 tened eagerly, and then, according to Mr. Beamish, 
 exclaimed, " Oh, when I am older, how I shall like to 
 go and see that country !" The quay at Rouen, after 
 this, became a favourite loitering-place for him ; and on 
 another occasion seeing here the different parts of a 
 carriage recently landed, he said, " How clever the folks 
 are in that country ! I shall go to see it when I am 
 older," Brunei remembered these words long after- 
 wards as something almost prophetic of the future 
 career of the engineer of the Thames Tunnel, which 
 so many foreigners now visit as one of the most re- 
 markable sights in this engineering country. 
 
 The Reign of Terror in 1793 drove Brunei from 
 France. He was then twenty- four years of age. In his 
 sixty-ninth year, during a suspension of the works of 
 the Thames Tunnel, he paid a visit to his native town 
 of Hacque^411e. He records this visit pathetically in 
 his diary, in his original language, "I met no one whom 
 I knew," he says, " but Penchon the joiner, Penchon 
 must be seventy-two years of age now. I spoke to him 
 as he was looking from his window. He did not know 
 me. I entered by the window, to his great astonish- 
 ment, and told him who I was. He showed me a part 
 of the first frame of an instrument which I had attempted, 
 and afterwards succeeded in making ; then some wheel- 
 work, and other things. He called his wife, a beautiful 
 woman fifty years ago, now aged like himself She 
 regarded me with a bewildered look for some time with- 
 out speaking, and then exclaimed, "Ah! it is Monsieur 
 Isambard; but, oh, how he is changed !" 
 
INVENTION AND DISCOVERY. 27 
 
 THE BOY A^•D THE STEAM ENGINE. 
 
 The story of Htimphrej Potter, the Cornish boy, who 
 invented the self-acting valve for Newcomen's rude steam 
 •engine, is strikingly told by M. Arago the great astrono- 
 mer. Newcomen's first engine required the most uninter- 
 rupted attention from the person who had to open and 
 shut the taps, either to introduce the steam into the 
 cylinder or to throw in the cold shower intended to 
 condense it. It happened on a certain day that this 
 person was young Potter. The companions of this child 
 were then at play, and their exclamations of joy tan- 
 talized him severely. He longed to go and join them; 
 but the task entrusted to him would not allow of half a 
 minute's absence. His mind became excited ; strong 
 passion awoke his genius, and he discovered relative 
 connections of which he had never dreamt before. Of 
 the two taps, the one was to be opened at the moment 
 when the beam that Newcomen had been the first to 
 introduce to such good purpose in his engines had com- 
 pleted the descending oscillation, and it must be shut 
 exactly at the opposite oscillation. The management of 
 the second tap required to be the exact contrary. The 
 positions of the balance and of the taps were nfcessarily 
 dependent on each other. The boy's quick invention 
 seized on tbis fact. He perceived that the beam might 
 impress on the other pieces all the motion that the play 
 of the engine required, and instantly realized his con- 
 ception. Several cords were quickly fastened to the 
 handles of the taps ; the opposite ends Humphrey Potter 
 
28 INVENTION AND DISCOVERY. 
 
 tied to portions of the beam suitably selectecl. Thus the 
 purchase which this exercised on certain cords wliile 
 rising, and those that it exercised on others in descend- 
 ing', supplanted the manual efforts. For the first lime 
 the engine worked by itself; for the first time no other 
 workman was seen near it but the stoker, Avho fiom 
 time to time went to keep up the fire under the boiler. 
 For the cords which the boy used the constructors soon 
 substituted rods fixed to the beam, and furnished with 
 several pegs, which pressed the heads of the taps or 
 valves either downwards or upwards. The rods them- 
 selves have long ago been exchanged for other combina- 
 tions ; but in the words of M. Arago, however humili- 
 ating such an acknowledgment may be, all these inven- 
 tions are mere modifications of the mechanism suggested 
 to a child by the wish to join his little companions at 
 play. 
 
 DR. BUCKLAND ^YATCHIXa THE BUILDERS. 
 
 Among other anecdotes told of the late Dr. Buckland, to 
 whom we are indebted for many geological discoveries, 
 we are told that he looked very sharply after the masons 
 when repairing "Westminster Abbey, or any other of the 
 collegiate buildings in which he had any interest, ex- 
 amining the various kinds of cements, the blocks of 
 building-stone, the means adopted to repair and keep 
 in order the regal and other monuments ; and taking 
 special care that no faulty bits of stone, etc., vrere used. 
 
LWE.NTION AND DISCOVERT. 29 
 
 Many 3-ears ago, wlien the turrets of a certain tower, of 
 Christ Church, Oxford, were undergoing repairs during 
 the long vacation, he had reason to suspect that all was 
 not right. It was almost impossible for him to ascend 
 by the slender scaffolding to these turrets ; so, from the 
 window of his house (he was then Canon of Christ 
 Church) he bethought him of watching the masons 
 through the telescope (a very good one) with which 
 he used to examine distant geological sections. At 
 last the uususjDccting mason, working, as he thought, 
 far above the keu of man, put in a faulty bit of stone ; 
 the learned doctor, on the look-out below, detected him 
 through the telescope, and almost frightened the man 
 out of his wits, when, coming out into the quadrangle, 
 he admonished him to bring down directly " that bad 
 bit of stone he had just built into the turret." 
 
 AX DirEOMPTU IXYE^'TIOX 
 
 A REMARKABLE illustration of the truth that ingenious 
 men, probably from the habit of grappling with diflfi- 
 culties, frequently overlook simple and obvious means 
 of attaining their objects, is afforded by an anecdote 
 related of the origin of Arkwright's partnership with 
 itr. Strutt, the well-known patentee of the stocking 
 frame, who was the first to appreciate the machine for 
 spinning by rollers. A serious defect in that machine, 
 and one which had cost its inventor much annoyance. 
 
30 IXVEXTIOX AND DISCOVERT, 
 
 was the tendency of the rollers to catch, and hold the 
 fibres of cotton. The defect having been noted by Mr. 
 Strutt, Arkwright confessed that he had found it irre- 
 mediable. "I think I can cure it," remarked the 
 former, " but it must be on condition of sharing the 
 profits." So beneficial an offer -was immediately acceded 
 to ; the terms were agreed on, and Arkwright and his 
 new partner entered the mill. Here Mr. Strutt simply 
 took a piece of chalk from his pocket and rubbed the 
 roller tliorc ughly, bidding his companion try the effect. 
 The success was complete — the clinging of the cotton 
 fibres was instantly at an end. Simple as was the 
 remedy, it had attained its object, and faii'ly earned 
 for its shrewd inventor the reward for which he had 
 stipulated. 
 
 THE FIRST PHOTOGEAPHERS. 
 
 It has long been known that at the beginning of the 
 present century Josiah Wedgwood, the famous potter, 
 Sir Humphrey Davy, and James Watt, made experi- 
 ments npon the action of light upon nitrate of silver ; 
 but it is only lately that evidence has been found 
 of the fact of their having succeeded in any degree 
 in permanently fixing the image thus obtained. 
 Some person searching for other purposes in an 
 old lumber room which belonged to Watt's partner 
 Matthew Boulton, discovered a silvered copper plate, 
 having on it a representation of the old premises at 
 Soho, which appeared to have been evidently taken by 
 a photographic process. This plate is now included in 
 
INVENTION AND DISCOVERY. 31 
 
 the collection at the Museum of Patents, at South 
 KiMisingfon. In the account published of it, it is stated 
 tlmt an old man of ninety, recently dead, or still alive, 
 roni(>mbers that Watt and others used to take portraits 
 of" ]icople in " a dark room " — the latter fact meaning, 
 probably, nothing but that they were taken secretly ; 
 for there is a letter extant of Sir William Beechey, 
 begging the philosophical body at Birmingham, calling 
 themselves the " Lunar Society," to desist from these 
 experiments, as Avere the process to succeed it would 
 ruin portrait painting. 
 
 WILLIAM FLAKEFIELD'S LINEN HANDKEECHIEF. 
 
 The writer of a recent work recommends to the people 
 of Glasgow the erection of a statue to a now almost for- 
 gotten hero, William Flakefield ; and that great manu- 
 facturing" city can certainly have- had few benefactors 
 more worthy of that honour. The story of William 
 Flakefield, whose true name was Wilson, is somewhat 
 romantic. 
 
 Wilson and his father and brothei", poor Scottish 
 weavers, settled in Glasgow in the time of William III. 
 The townspeople, to distinguish William from his 
 brother, commonly called him Flakefield, which was the 
 name of the place in the parish of East Kilbride in 
 which he had lived, and finally he adopted the name. 
 Being a fine young fellow he joined the Scottish Guards, 
 and accompanied the army to the Low Countries where 
 the war was tlu ii raging. Here ho was struck one day 
 
32 I.NVENTIOX AND DISCOVERY. 
 
 with a liandkercliief whicli Le liad bought, of a simple 
 pattern woven in blue and wliite. Simple as it was, the 
 eye of the weaver detected beauty in it, and it was at 
 least far superior to the coarse productions of the looms 
 of his native country — at least of those which produced 
 cheap goods for the humbler classes. Flakefield never 
 parted with his handkerchief, but kept it carefully, 
 determining, if he was able, to weave one like it when 
 the opportunity should offer. He came back to Scot- 
 land in 1697, vv'hen the peace was concluded with 
 France ; and settling down again, hung up his sword 
 and belt in his Aveaver's garret, and once more pursued 
 his labours with the peaceful shuttle. He had still 
 in his possession the white and blue pocket-handker- 
 chief, the companion of his wanderings : and after 
 many obstacles, scarcely to be imagined in these days 
 of improved machinery and appliances, succeeded 
 in making one exactly like it. In a short time he 
 had a dozen ready for sale ; the first, it is said, of the 
 kind woven in Great Britain. The pattern was 
 liked by the Scottish people, and was soon seen both 
 among the poor townsfolk and the humble peasants to 
 whose home the indefatigable pedlar of those times took 
 them in their wanderings. Looms rapidly increased ; and 
 in a few years Glasgow became famous for this new 
 branch of the linen trade. Many indeed profited by the 
 Tuanufacture and sale of Flakefield's handkerchiefs, ex- 
 cept the poor weaver himself. He had but little capital; 
 and his idea once seized upon, he could not of course 
 compete with the rich employers of labour who adopted 
 it. Flakefield, it is said, died in the humble position of 
 the town drummer. 
 
INVEXTIOX AXD DISCOYEIIY. b3 
 
 THE CHILDHOOD OF JAMES WATT. 
 
 Watt was, from his birtli, of an extreme!}- delicate con- 
 stitution, unfitted for takings part in the common sports 
 of boys, and little prepared for those struggles with 
 ditli'."itics which afterwards marked his cai'eer. His 
 motlier, who was a wom.an no less remarkable for her 
 intelligence than for her personal graces, taught him to 
 read when scarcely out of his infancy ; and his father, 
 who was a ship's carpenter and dealer in naval stoi'es 
 at Greenock, added a little writing and arithmetic. In 
 the latter the child rapidly improved, and he was fond 
 vt working out his sums with a pencil npon scraps of 
 paper, or more commonly with a piece of chalk npon the 
 floor, sometimes his only amusement when the severe 
 headaches to which he was subject compelled his parents 
 to keep him at home. On one occasion when he was 
 bending over a stone hearth with the usual piece of 
 chalk, a visitor who was present remarked to the falher, 
 " The boy ought to be sent to a public school, and not 
 permitted to idle away his time at home." " Look at 
 what my child is doing before you blame him," re- 
 turned the father. The child of six years of age was 
 endeavouring to solve a problem in gcometr}-. Anotlier 
 time he was scolded by his aunt Muirhead, while taking 
 tea with the AVatts, for his assumed indolence. " Jemmy," 
 said the vvcrthy lady, solemnly, " I never saw such an 
 idle boy as you arc. Pray take a book and employ 
 yourself usefully ; for the last hour you have not spoken 
 one word, but taken off the lid of that kettle and put it ou 
 
 D 
 
INVENTION AND DISCOVERT. 
 
 again ; holding novsr a cup and now a spoon OTer the 
 steam, watching how it rises from the spout, catching 
 and counting the drops it falls into. Are you not 
 ashamed of spending your time in that way ?" The 
 little James playing with the tea-kettlo, observes IVf, 
 Arago, who tells this story, became the mighty engineer 
 preparing the discoveries which were to immortalize 
 him. 
 
 THE YOUTH OF JAMES WATT. 
 
 When he had left the grammar-school of his native 
 town Watt received no more scholastic education ; but 
 then began that system of self-culture which lie pur- 
 sued to the end of his long life. He was, naturjilly, a 
 solitary lad, and liked to ramble among the fine scenery 
 in the neighbourhood of Greenock. The few old 
 nautical instruments which he found among his father's 
 stores inspired him with a cui'iosity on the wonders of 
 astronomy, for he could not, throughout life, see a 
 machine or instrument without a longing to understand 
 its uses. By the time he was fifteen, he had twice 
 read with great attention S'Gravesande's Elements of 
 Natural Philosophy. While under his father's roof he 
 went on with various chemical experiments, repeating 
 them again and again until satisfied of their accuracy. 
 When only seventeen he made himself a small electrical 
 machine, an instrument at that time but little under- 
 stood. He also read eagerly books of medicine, and 
 
INVEKTION AND DISCOVERT. 35 
 
 even practised dissection; for on one occasion he was found 
 carrying away the head of a child who had died of some 
 unusual disease ; a remarkable instance of his suppres- 
 sion of his own feelings in his pursuit of scientific truth, 
 for suggestions of suifering or disease were always 
 peculiarly painful to him. In later life he said that, 
 *' had he been able to bear the sight of the sufferings of 
 patients he would have been a surgeon." Botany and 
 mineralogy were among the subjects which he studied 
 in the open air in the neighbourhood of his native 
 town. He read every book which fell in his way, and 
 wliich promised to enlighten him upon some branch 
 of inquiry. To a friend who blamed him for reading so 
 many different kinds of works, he replied, " I have never 
 yet read a book, or conversed with a companion without 
 gaining information, instruction, or amusement." 
 
 BENJAMIN HUNTSMAN AND THE PEOCESS OF 
 MAKING CAST STEEL. 
 
 The story of how Benjamin Huntsman, the inventor of 
 the art of making cast steel, was deprived of the secret of 
 his art is toid with great force and picturesque power in 
 Dr. Scoffern's valuable little work entitled, " The Useful 
 Metals and their Alloys." 
 
 One cold winter's night, says the writer referred to, 
 while the snow was falling in heavy flakes, and Hunts- 
 man's manufactory, near SheflSeld, threw its red glare of 
 
86 INVENTION AXD DISCOVERT. 
 
 light over the neighbourhood, a person of the most abject 
 appearance presented himself at the entrance, praj'ing 
 for permission to share the warmth and shelter which it 
 afforded. The humane workmen found the appeal irre- 
 sistible, and the apparent beggar was permitted to take 
 up his quarters in a warm corner of tlie building. A 
 careful scrutiny would have discovered little real sleep 
 in the drowsiness which seemed to overtake the stranger; 
 for he eagerly watched every movement of the workmen 
 ■while they went through the operations of the newly- 
 discovered process. He observed, first of all, that bars 
 of blistered steel were broken into small pieces, two or 
 thi'ee inches in length, and placed in crucibles of fire- 
 clav. When nearly full, a little green glass broken into 
 small fragments was spread over the top, and the whole 
 covered over with a closely-fitting cover. The crucibles 
 were then placed in a furnace previously prepared for 
 tliem, and after a lapse of from three to four hours, 
 durincr which the crucibles Avere examined from time to 
 time to see that the metal was thoroughly melted and 
 incorporated, the workmen proceeded to lift the crucible 
 from its place on the furnace by means of tongs, and its 
 molten contents, blazing, sparkling, and spurting, Avere 
 poured into a mould of cast iron previously prepared ; 
 here it was siiffered to cool, Avhile the crucibles were 
 again filled, and the process repeated. When cool, 
 the mould was unscrewed, and a bar presented itself, 
 which only required the aid of the hammer-man to 
 form a finished bar of cast steel. How the unauthor- 
 ized spectator of these operations effected his escape 
 without detection tradition does not say ; but it tells us 
 that, before many months had passed, the Huntsman 
 
INVENTION AND DISCOYERT. 3'/ 
 
 manufactory was not the only one where cast steel was 
 produced. 
 
 This man is believed to have been an ironfounder, 
 named Walker, who carried on his business at Greensido 
 in the neighbourhood, Avhere it appears clear that the 
 making of cast steel, which had cost Huntsman so many 
 years of toil and expense, was shortly afterwards com- 
 menced. Huntsman was of German exti*action, and 
 was born in Lincolnshire in 1704. He was apjirentice 
 to a clockmaker and mender, whci*e he learnt to repair 
 clocks and roasting-jacks, and developed a mechanical 
 turn. He also became an itinerant vendor of remedies 
 for diseases. It was the difficulty which he experienced 
 in obtaining good springs and pendulums for his clocks 
 which first led him to turn his attention to tlie manu- 
 facture of a better kind of steel tlian was then procur- 
 able, and thus conducted him by laborious steps to those 
 important discoveries which are identified with his 
 name. 
 
 THE FICTION OF SALOMON DE CAUS. 
 
 oc.lfitjjo 
 
 A FEW yeo.i's ago, the French public were startled by 
 the announcement that evidence had been discovered 
 that the glory of the invention of the steam-engine had 
 been erroneously assigned to England ; the idea at least 
 having been anticipated by a Frenchman long before 
 Watt, or even Savery or Kewcomcn had been heard of. 
 The form in which this story was brought forv/ard was 
 
38 INVENTION AND DISCOVERY. 
 
 that of a letter purporting to be written by the cele- 
 brated Marion de Lorme in 1641, and addressed to 
 her lover, Cinq-Mars, informing hira that in doing the 
 honours of Paris to bis Englisb friend, the Marquis of 
 Worcester, she had accompanied him to the famous 
 madhouse in the environs of that city, called Bicetre, 
 and that here they had beard a miserable captive exclaim 
 from behind his bars, " I am not mad ! I am not mad ! 
 I have made a discovery which would enricb the 
 country that adopted it." The letter then relates that 
 the writer and her companion ascertained from a keeper 
 that this was one Salomon de Cans, who had written a 
 book of whicb the keeper at once produced a copy, after 
 a perusal of which the Marquis requested an interview 
 with the madman, and on leaving Bicetre declared that 
 in it was confined the greatest genius of the age. The 
 discovery, coupled with the fact that M. Arago, in a 
 celebrated article on the History of the Steam-engine, 
 published in a French scientific journal, had aroused the 
 attention of his countrymen to the respective claims as 
 inventors of De Caus and the Marquis of Worcester, served 
 to confirm the belief that De Caus was the originator of 
 the idea of turning the expansive force of steam to use- 
 ful purposes. The idea of a great discoverer perishing 
 unheeded in a public madhouse struck the imagination 
 of artists. A painting at the exhibition of the Louvre, of 
 the miserable De Caus raving through the bars of his 
 dungeon at the heedless woman of fashion and her shrewd 
 companion, had a great success, was multiplied by 
 lithography and engraving, and appeared in a London 
 illustrated newspaper. A drama, also founded on the 
 main incident of the anecdote, was a few years since per- 
 
INVENTION AND DISCOVERY. 39 
 
 formed in London and Paris ; and grave biographical 
 dictionaries, on the faith of the alleged letter of Marion 
 de Lorine, inform their readers that it is now proved 
 in the most positive manner that De Cans ought to be 
 regarded as the inventor of the steam-engine. 
 
 This singular imposture has new, however, been 
 completely exposed. Mr. Muirhead, in his life of Watt, re- 
 marked that the tone and language of the letter betrayed 
 throughout its modern origin ; and also that in IG41 
 there was no Marquis of Worcester at all, that title 
 having first been conferred on Henry Somerset, in 1642, 
 who moreover was not the marquis who wrote the 
 " Century of Inventions," but his father. To these 
 facts, conclusive r»± themselves, a French writer, M. 
 Figuier, adds amor;g other things the criticism that, as 
 Salomon de Caus died in 1630 he could hardly be found 
 shut up in a madhouse in 1641 ; and that, moreover, 
 Bicetre was at that time not a hospital at all. It ap- 
 pears that this pretended letter was first published in 
 a French periodical entitled, " The Musee des Families," 
 a kind of French penny magazine in 1834. Such is the 
 authority on which this palpable fraud has for some 
 time been invested with the dignity of history. 
 
 THE INVENTOR OF PRINTING ^OR THE BLIND. 
 
 The whole credit of the beautiful invention of printing 
 for the blind, so simple yet so marvellous in its results, 
 belongs to France. It was Valentine Haiiy, who, in 
 
40 TXYEXTION AXn DISCOVERY. 
 
 1784, at Paris, produced the first book printed with 
 letters in relief, and soon afterwards proved that chil- 
 dren might easily be taught to read with their fingers. 
 It is stated by his biographer that he took his idea of 
 embossed typography from seeing that a blind pianist 
 from Vienna, who visited Paris that year, distinguished 
 the keys of her instrument by the sense of touch, and 
 also readily comprehended the maps in relief, which a 
 short time before had been invented by a German. After 
 employing letters of different forms and sizes, and ex- 
 perimenting wnth the blind as to the precise shape of the 
 letter that could be the most readily distinguished by the 
 touch, he at length fixed upon a character differing very 
 slightly from the ordinary Roman letter, or perhaps a 
 little approaching italics. He submitted his first efforts 
 and experiments to the Academy of Sciences of Paris, 
 and their favourable report rendered his success a 
 triumph. Great ec?a^ attended the public announcement 
 ©f this invention. A new institution was established, 
 called the Royal Institution for young Blind Persons, 
 and Haiiy was placed at the head of it. Among the 
 books which he embossed Avere a grammar, a catechism, 
 and small portions of the Church Service, and also seve- 
 ral pieces of music. The printing of the music was in- 
 ferior. His principal work, on the subject of his inven- 
 tion, was published in Paris in 1786. This celebrated 
 essay was translated into English by Dr. Blacklock, the 
 blind poet, and published. 
 
 Twenty-four of Haiiy's pupils exhibited their attain- 
 ments, in reading, writing, ai-ithmetic, music, and geo- 
 graphy, before the unfortunate Louis XVI. and the 
 royal family at Versailles, who were delighted with the 
 
IXTEXTTOX A\D DISCOVERY. 41 
 
 wonderful results. For a while all went on prosperously, 
 but as the novelty wore away, the admiration of Mr. 
 Haiiy's friends cooled, the funds fell off, and the institu- 
 tion langui<;hed until it was put upcn a government 
 foundation. The blind really received but little ad- 
 vantage from an invention that at first promised so 
 much. Tlie fault, however, seems to have been not so 
 much in the --ilau as in the execution of it. The bookr 
 were bulk}- and expensive, and the letters, though beau- 
 tifiil to the eye and clearly embossed, wanted the sharp- 
 ness and permanence essential to perfect tangibility. 
 This noble invention, except, perhaps, within the Avails 
 of the institution, soon sank into oblivion, and very little 
 more was heard of it until 1814, when Haiiy was pen- 
 sioned, and Dr. Guillie, an active and enterprising 
 gentleman, was made director-general in his place. Dr. 
 Guillie soon revived the printing, and having consider- 
 ably modified the letters, commenced the publication of 
 a series of elementary and other works — the mechanical 
 execution of which was exceedingly heavy. Most of 
 them were ponderous folios and very expensive, still 
 they formed for many years almo.st the only literature 
 of the blind, not alone in Fi-ance, but in other countries. 
 One of them — an historical notice on the instruction of 
 young blind persons — contains a curious specimen of 
 printing in relief, in colour, so as to render the letters 
 more easily read by the eye. This book was a valuable 
 contribution to the library of the blind, but it could only 
 be read by those possessing a very delicate touch. It is 
 filled with inforination respecting the means then em 
 ployed lor the instruction of the blind in Paris ; it proves, 
 however, that the art of embossed typography had made 
 
42 INVENTION AND DISCOVERT. 
 
 but very little progress. It is a reproach to this book 
 that it makes no mention of the author's predecessor, 
 Haiiy, to v^hom the idea of finger-reading is due. 
 
 It was in Great Britain and in the United States 
 that the first improvements were made in embossed 
 typography, and only within the last thirty years that 
 the blind generally have derived any considerable ad- 
 vantages from books. Before 1826, when Mr. James 
 Gall, of Edinburgh, first began to turn his attention to 
 the intellectual and moral education of the blind, it is 
 believed that not a single blind person in any public 
 institution of this country or America could read by 
 means of embossed characters. To Mr. Gall is due the 
 credit of reviving this art. On the 28th of September, 
 1827, he published " A First Book for Teaching the Art 
 of Reading to the Blind," which is believed to be the 
 first book printed for the blind in the English language. 
 Thus while printing for the blind, which only lately was 
 considered merely a curious or doubtful experiment, it 
 is now established beyond all question that books are 
 true sources of profit and pleasure to them. Embossed 
 books havo rapidly increased, and happily blind readers 
 have multiplied still more rapidly. 
 
 THE EOMANCE OF THE STOCKING FRAME. 
 
 On the wall of a chamber in the old hall of the Frame- 
 •work KJuitters' Society of London, now pulled down, 
 there stood, in the days of George II., an ancient painted 
 
INVENTION AND DISCOVERT. 45 
 
 wood carving which must alwaj'S have attracted the 
 attention of visitors. It represented the arms of the 
 Company, which consisted of a stocking-frame without 
 the woodwork, with the figure of a clergyman on the one 
 hand and that of a woman on the other, forming what 
 are called the "supporters." This singular heraldic de- 
 vice related to the romantic story of the invention of the 
 stocking-frame by the Reverend William Lee, a native of 
 Nottinghamshire, in the reign of Queen Elizabeth. The 
 anecdote has been variously told, but no version appears 
 better authenticated than that collected about forty 
 years ago by Mr. Henson, a journeyman knitter, who, 
 living by his daily labour in the lace frame at Notting- 
 ham, devoted all his leisure time to self-cultivation and 
 to collecting materials for a history of the craft of which 
 he was a member. The story was gathered by him 
 chiefly from the narratives of " ancient stocking-makers," 
 who all gave a similar account, doubtless inherited 
 through many generations of workers at the frame. 
 
 Lee, it is said, paid his addresses to a young woman 
 in his neighbourhood, to whom, from some cause, his 
 attentions were not agreeable ; or as, with more proba- 
 bility, it has been conjectured she afiFected to treat him 
 with negligence, to ascertain her power over his affec- 
 tions. Whenever he paid his visits, she always took 
 care to be busily employed in knitting, and would pay 
 little attention to his conversation. This conduct she 
 pursued to such a harsh extent, and for so long a period, 
 that the lover became disgusted, and he vowed to devote 
 his leisure, instead of following the whims of a capricious 
 woman, in devising an invention that should effectually 
 supersede her favourite employment of knitting. fciu 
 
44 IXVKNTION A\D DISCOVERT. 
 
 sedulous was Leo in Lis new occupation, that lie set 
 aside everything to accomplish this new object of his 
 attentions ; even his sacerdotal duties were neglected. 
 In vain did the lady now endeavour to reclaim him. All 
 interests, all avocations, all affections, wers absorbed in 
 his new pursuit, from which he imagined he should 
 realize an immense fortune. His curacy was despised, 
 and at length abandoned, as beneath the notice of a 
 person who had formed in his imagination such gigantic 
 prospects. For many years afterwards the old stocking- 
 makers, particularly those in London, were fond of 
 dilating in their cups on the difficulties he encountered. 
 He had Avatched his mistress with the greatest attention 
 while knitting, and he observed that she made the web 
 loop by loop, but the round shape which she gave to the 
 st-ocking from the four needles, greatly embarrassed him 
 in his notions of destro^nng her trade by making a whole 
 series or course at once, having as many needles as loops. 
 It seemed impossible to construct a machine to make a 
 round web. Pondering in his mind on the difficulties 
 of his task, during one of his visits he found her knitting 
 the heel of a stocking, and using only two needles ; one 
 was employed in holding the loops while the other was 
 engaged in forming a new series. The thought struck 
 him instantly that he could make a flat web, and then 
 by joining the selvages with the needle, make it round. 
 From that moment his whole soul was devoted to the 
 object which presented difficulties in that age, which 
 nothing but enthusiasm could have overcome. 
 
 At the end of three years' study and patience, Lee 
 was enabled to make a course upon the frame ; but 
 here new obstacles presented themselves. He wrought 
 
INVENTION AND DISCOVERY. 45 
 
 with great facility the top, the narrowlngs, and the small 
 of the leg ; but the formation of the heel and the foot 
 still embarrassed him. It is stated, that misled by the 
 method of fashioning stockings by the knitting-needles, 
 when he arrived at the length where the heels were to 
 be formed, he worked the heels alone, and brought the 
 instep by the hand under the hook of the needle previous 
 to pressing ; and that it was some months before he 
 discovered the method of working them together. Per- 
 severance at length crowned all his efforts, and the 
 clergyman attained the height of his wishes, and became 
 the first frame- work knitter. 
 
 The subsequent history of Lee is a pathetic record of 
 struggles and injustice. "When, after a long course of 
 arduous experiments, he had succeeded in his object of 
 knitting by machinery, he looked for the golden har- 
 vest which had flattered his imagination, as now very 
 surely within his grasp. But on applying to the Crown 
 for a patent he was absurdly refused it, on the ground 
 that it would interfere with the means of subsistence of 
 a great many poor persons to whom knitting by hand 
 gave employment. (^)ueen Elizabeth is said to have ob- 
 served, by way of softening the refusal, " Had Mr. Lee 
 made a machine that Avould have made silk stockings, I 
 should, I think, have been justified in granting him a 
 patent for that monopoly, which would have affected 
 only a small number of my subjects ; but to enjoy the 
 exclusive privilege of making stockings for the whole 
 of my subjects is too important to grant to any indi- 
 vidual." Such were the erroneous notions of political 
 economy prevalent at that period, even among those 
 accouiited as the wisest of their time. Althoucrh much 
 
46 INVENTION AND DISCOVERY. 
 
 cast down at this, Lee did not abandon himself to 
 despair. Confiding in the Queen's words, that if he 
 could only knit silk hose by his machine, he should have 
 the patent, he now applied his mechanical ingenuity to 
 a new object, and he obtained some encouragement 
 from Henry Carey, Lord Hunsdon, a nephew of Anne 
 Boleyn, and therefore a cousin of the Queen, who, in 
 consideration of a share in the expected patent, not only 
 engaged to advance funds, but probably to secure his 
 interest, actually bound his son and heir, Sir William 
 Carey, an apprentice to Lee ; and thus, says the I^otting- 
 ham mechanic, "the first framework stocking-maker's 
 apprentice was a knight, and eldest son to a lord who 
 was of the blood royal." 
 
 Lee's original stocking-frame had but eight needles 
 to the inch, and was equal only to the production of 
 worsted hose of the very coarsest sort. With even twice 
 that number of needles silk hose could not be made by 
 it of less weight than half a pound per pair , and what 
 are called twenty-four gauge silk frames, having twenty- 
 four needles in an inch, are now probably the coarsest 
 silk frames used in England ; but nothiriC, daunted, Lee, 
 with the help of his brother James, set to work to 
 improve his invention with marvellous perseverance. 
 After an experience of more than two centuries the 
 finest frames made in the " insides" as they are termed, 
 having "jacks" and "combs," contain sixty- four jacks 
 in three inches. Lee, with the help of his brother 
 James, attempted at once to make a frame having sixty 
 in three inches, and that without "sleys," which was a 
 later invention. His combs and " counters" were not 
 cast, but wedged in, and his needles were soldered into 
 
INVENTION AND DISCOVERY. 4-7 
 
 lirass combs instead of being cast into pewter, as now 
 practised. At length, having surmounted all obstacles, 
 about the year 1595 he completed the making of plain 
 silk stockings from what is called a " tv^enty gauge silk 
 frame," having only " jacks," vpith out " lead sinkers," an 
 invention which might have excited wonder and admira- 
 tion even in these days. 
 
 With the assistance of his noble patron Lee erected 
 and set to work nine frames of this description ; but the 
 <5ueen was obstinately determined not to grant the 
 patent, and the unfortunate inventor had no hope of 
 securing the due reward of his toil unless he could keep 
 the secret of his machine, which he took extraordinary 
 pains to do. His apprentices and workmen were prin- 
 cipally composed of his own relatives, who thought it 
 •SO high an honour to belong to the new craft that they 
 wore their working-needles with ornamental silver shafts 
 suspended from a silver chain at their breasts — a mark 
 •of distinction which was preserved as late as the reign 
 of Queen Anne ; but for all this Lee reaped nothing but 
 disappointment from his efforts ; for scarcely had his 
 nine frames been erected when, in 1596, his great sup- 
 porter, Lord Hunsdon, died : as also, about the same 
 time, the young lord who had been apprenticed to him. 
 Reduced to despair, and it is said, almost to want, Lee 
 determined to quit the country which had treated him 
 so ungratefully ; and in 1603 eagerly accepted an cffer 
 of the celebrated Sully, then ambassador from France, 
 to remove with his brother and his workmen to Rouen. 
 After several years' delay in setting up his frames in 
 Rouen, Lee went to Paris to make more extensive 
 arrangements with the Government ; but here his evil 
 
48 INVENTION AND DISCOVEUi". 
 
 genius again awaited liim. Sully had brought over the 
 English inventor and his men, contrary to his own in- 
 clinations and entirely in deference to the avowed wish 
 of the wise King Henry lY., to introduce the silk manu- 
 factures into France ; but scarcely had Lee arrived in 
 Paris when the King was assassinated by K-availlac ; and 
 thus the poor inventor's brilliant expectations were 
 again at an end. His fortitude now forsook him, and 
 he gave way to melancholy ; he thought himself the 
 most unfortunate of men. Alone, unprotected, in a 
 foreign country, after twenty-two years' struggles, he 
 sickened at the thought, and sent for his brother James 
 from Rouen ; but before he arrived the inventor of the 
 stocking-frame died of a broken heart in the midst of 
 strangers. This happened in the year IGIO, the very 
 year of the king's assassination. 
 
 After Lee's death his brother James and six more of 
 the little band of artificers who had emigrated from 
 England returned home, leaving two of their companions 
 behind. It has been said that but for this, the valuable 
 art might have been lost to this country ; but there was 
 one individual who knew the secret as well as any of 
 them, who had declined to accompany them into their 
 voluntary exile. This was a miller, named Aston, who 
 lived at Thoroton, in Nottinghamshire — a man to whom 
 the stocking-frame was subsequently indebted for many 
 valuable improvements which ultimately gave rise to 
 an extensive manufacture of stockings in England, not 
 only lor this country but for foreign nations. 
 
 A curious old painting, relating to Lee's story, ori- 
 ginally belonged to the Stocking Weavers' Company, 
 and was hung up in their hall. It repi^eseutcd a man 
 
INVENTION' AND DISCOVEIIV. 49 
 
 in a student's dvess pointing to a stocking-frame, and 
 addressing r. -woman wlio is engaged in knitting by the 
 hand — the only process previously known. The origi. 
 nal pictui'c has long been lost, and is now known only 
 through the medium of an engraviug. According to the 
 compiler of the catalogue of portraits in the Patent 
 Museum, it bore the insci'iption, "In the year 1589 the 
 ingenious William Lee, A.M., of St. John's College, 
 Cambridge, devised this profitable ai-t for stockings, 
 but being despised went to France ; yet of iron to him- 
 self, but to us and to others of gold, iu memory of whom 
 this is here painted."' 
 
 "WILLIAM HYDE "SVOLLASTOX, THE ECCENTEIC 
 DISCOVERER. 
 
 The well-known natural p.hilcsopher. Dr. "Wollaston, was 
 a man of singular habits, lie was accustomed to carry 
 on his experiments with very few instruments, and in 
 the strictest seclusion. Even his most intimate friends 
 were never permitted to enter his place of stud3^ Dr. 
 Paris relates that a foreign philosopher once called on 
 Wollaston with a letter cf introduction, and, unaware (t 
 the philosopher's peculiarity, expressed an anxious de- 
 sire to see his laboratory. " Certainly," was the reply -. 
 and the misanthropic doctor immediately produced a 
 small tray containing some glass tubes, a simple blow- 
 pipe or bent metal tube, worth a few pence only, tv.'o or 
 
 E 
 
50 INVENTION AND DISCOVERT. 
 
 three common watch-glasses, a slip of platinum, and £t 
 few similar things. 
 
 It is also related that shortly after Wollaston had 
 inspected a grand galvanic battery constructed by Mr. 
 Children, he met a brother philosopher in the street. 
 Seizing his button (which was, it appears, his constant 
 habit when speaking of any subject of interest) he led 
 the friend into a secluded corner, where, after looking 
 carefully about him as if engaged in some strange mys- 
 tery, he took from his pocket a tailor's thimble which 
 Contained a galvanic arrangement, and pouring into it 
 the contents of a small phial, he instantly heated a 
 platinum wire to a white heat. 
 
 This eccentric philosopher was born at East Dere- 
 ham, in Norfolk, in 1766, and was the son of Francis 
 Wollaston, a man of some eminence as an astronomer, 
 who published a catalogue of the northern circumpolar 
 stars. Dr. Wollaston was educated as a physician, and 
 shortly after he came to London became a candidate 
 for the office of physician to St. George's Hospital. 
 Being defeated in this contest it is said that he declared 
 in a moment of pique that " he would abandon the pro- 
 fession, and never more write a prescription." It is 
 certain that he subsequently gave up the profession to 
 devote himself entirely to experimental sciences. His 
 name is connected with chemical discoveries of the high- 
 est importance. In 1804 and 1S05 he made known 
 palladium and rhodium, two new metals contained in 
 the ore of platinum, and associated with osmium and 
 iridium, discovered about the same time by Mr. Tennant. 
 In 1809 he showed that the supposed new metal tan- 
 talum was identical with columbium, previously dis- 
 
DIVKNTION AM) D1SC0VER1'. 51 
 
 covered by Mr. Hatcbett ; aud siiortlj before his death 
 he transmitted to the Royal Society a description of hia 
 ingenious znethod cf rendering platinum malleable, by 
 which invention he is stated to have acquired more than 
 thirty thousand pounds, lie contrived a simple appji- 
 ratus for ascertaining the power of bodies to refract 
 light. His camera lucida furnished persons ignorant ot 
 drawing with an easy method of delineating natural 
 objects. His periscopic glasses were found in every 
 optician's shop, as well as his sliding rule for chemical 
 equivalents, which made it easy in a moment to calculate 
 the proportions of one substance necessary to decompose 
 a given weight of another. Dr. Wollastou was also the 
 first to demonstrate the identity of galvanism aud com- 
 mon electricity, and the cause of the difierent phenomena 
 exhibited by those principles. 
 
 Wollaston had a great objection to his portrait being 
 taken, though there is one tine portrait, by Jackson, or 
 the ecceutiic philosopher in the meeting-room of the 
 Royal Society, the history of which is interesting. His 
 family and friends knew his reluctance on this point ; 
 nevertheless Mrs. Somorville, the well-known authoress, 
 who earnestly wished to possess a portrait of her friend. 
 Dr. Wollaston, many times asked when he would sit for 
 his picture, to which he had invai'iably answered, 
 " Never." One day, however, when he was greeted 
 with the same question, he said, " It is evident that I 
 must either forego the pleasure of coming to this house 
 or submit ; so I will submit." He added, " Let us 
 separately write the name of the artist to be employed." 
 This was agi-eed ; and it turned out that botli parties 
 had named the same artist. 
 
52 INVENTION AND DISCOVERY. 
 
 William Hyde Wollaston died on the 22nd of De- 
 tember, 1828, aged sixty-two. Whou lie was nearly in 
 the last agonies, from an extensive cerebral disease, 
 some friend near observed, in a whisper, thai he was 
 not conscioas of what was passing around him. The 
 dying man, however, caught the words and motioned 
 for a pencil and paper to write. When he returned 
 them it was found that he had written down some rows 
 of figures, forming a sum in addition, which he had 
 cast up correctly. 
 
 OLD PKEJUDICES AGAINST COTTON SPINNING. 
 
 While so enormous a number of our working popula- 
 tion look eagerly to the question of sujiplies of cotton, 
 it is difficult to imagine the fact that, one hundred and 
 thirty years since, the newly-introduced cotton fibre was 
 popularly regarded as about to cause the ruin of Great 
 Britain. Even the Legislature shared this belief, and 
 actually passed an Act of Parliament in 1721 imposing 
 a penalty of five pounds upon the weaver, and twenty 
 pounds upon the seller of a piece of calico ; and long 
 after that date it was the fashion to attribute any 
 special distress falling on the working-classes to this 
 cause. Even criminals on the scaffold confidently 
 :ippealed to the prejudice of the spectators, and 
 assumed r. high moral tone on this point, as appears 
 from the following singular letter from " Cork, in 
 Ireland," which appears under the date of May 3 in the 
 *' Gentleman's Monthly Intelligencer" for 1734 : — 
 
IXVEXTION AND DISCOVSRY. S3 
 
 " This day one Michael Carmody was executed here 
 for felony ; upon Avhich the journeyman -weavers of this 
 city (who labour under great difficulties by reason of 
 the deadness of ti-ade, occasioned by the peniicioua 
 practice of weai-ing cottons), assembled in a body, and 
 dressed the criminal, hangman, and gallowr; in cottons, 
 in order to discourage the wearing thereof; and at tht 
 place of" execution the criminal made the followinf^ 
 remarkable speech : — 
 
 '" Give ear, O good people, to the Avords of a dying 
 sinner. I confess I have been guilty of many crimes 
 that necessity compelled me to commit, which starving 
 condition I was in, I am well assured, was occasioned by 
 the scarcity of money, that has proceeded from the 
 great discouragement of our Avoollen manufactures. 
 
 " ' Therefore, good Christians, consider, that if you 
 go on to suppress your own goods bj- Avearing such 
 cottons as I am now clothed in, you will bring your 
 country into misery, which will consequently swarm 
 with such unhappy malefactors as your present object 
 is ; and the blood of every miserable felon that will 
 hang, after this Avarning from the gallows, Avill lie at 
 your doors. 
 
 " ' And if you have any regard for the prayei's of an 
 expiring mortal, I beg you Avill not buy of the hangman 
 the cotton garments that now adorn the gallows, 
 because I can't rest quiet in my graA'e if I should see 
 the very things Avore that brought mc to misery, 
 thievery, and this untimely end ; all Avhich I pray of 
 the gentry to hinder their children and servants for 
 their OAvn characters' sake, though they have no ten- 
 derness for their country, because none will hereafter 
 
h4< INVENTION AND DISCOVERY. 
 
 wear cottons, but oyster-women, criminals, liucksters, 
 and common hangmen.' " 
 
 The pernicious practice of Aveai-ing cottons has, 
 happily for England, continued to extend itself i'a spite 
 of Michael Carmody's bitter dervjQciations. rTearly 
 thirty years afterwards, on the accession ct Georp's III., 
 the value of all the cottons manufacturea annTijily in 
 England was estimated at £200,000. In 15G0, the 
 value of the cotton fabrics issuing from English looms 
 was upwards of fifty- two millions sterling. It was the 
 introduction cf steam as the motive power of the 
 spindles that gave the rapid extension of production 
 and commerce which has distinguished the last half 
 century. In 182-3, Great Britain employed ten thousand 
 steam-looms ; the number at present in operation is 
 nearly four hundred thousand, driven by a power of 
 294,000 horses, and directly employing nearly half a 
 million of workpeople. 
 
 THE PHILOSOPHEE TAUGHT BY THE CHILD. 
 
 >^J<»iOO 
 
 The first ccientific discovery made by Sir Humphrey 
 Davy was due entirely to the observation of a little 
 child. When a j^outh and eagerly curious on all phe- 
 nomena connected with his favourite study, he was 
 appealed to by this child to know why It was that 
 when two pieces of bonnct-cane were rubbed together 
 a little faint lici't came from tlicm ? If the fact had 
 
INTENTION AND DISCOVERT, 5 J) 
 
 evei* been observed before it was at least new to the 
 chemist's apprentice. Patting his little questioner on 
 the head, he replied, " I do not know. Let us see if it 
 is so ; and then we will try and find out Avhy." Experi- 
 ment showed that the child had correctly observed the 
 fact. The young philosopher pondered upon it, and 
 perceived that the principle which it indicated must be 
 of much wider application ; and the train of inquiry 
 which this set in motion gi'adually brought him to the 
 discovery of the siliceous earth in the epidermis, or skin 
 of canes, reeds, and grasses. 
 
 "With respect to this beautiful discovery, Davy 
 observes in his "Agricultural Lectures," that this 
 epidermis serves as a support, protects the bark 
 from the action of insects, and seems to fulfil a part 
 in the economy of these feeble vegetable tubes similar 
 to that performed in the animal kingdom by the shells 
 of the crustaceous insects. 
 
 HERSCHEL'S FIEST AND LAST TELESCOPES. 
 
 It is well known that William Herschel was in early 
 life an organist at a chapel at Bath. He had to play 
 incessantly either at the oratorios, or in the rooms at 
 the baths, at the theatre, and in the public concerts, 
 and he could not refuse the numerous pupils who 
 wi-shed to be instructed in his school. Nevertheless, he 
 
56 IXVENTIOX AND DISCOVERY. 
 
 found time to study matlicmatics, -which, in their turn, 
 led him to optics. JVi length, a simple telescope, only 
 two feet in >.3n(^th, fell into his hands. This instrument 
 (sa3-s M. Arago, in his brilliant sketch of this great 
 astronomer, which we abridge for the benefit of oui* 
 readers) sliowed him, however imperfect, a multitude of 
 stars that the naked eye cannot discern ; showed also 
 some of the familiar constellations, but now under 
 different aspects, and revealed to him forms that even 
 the richest imaginations of antiquity had never sus- 
 pected. He was filled with enthusiasm, and determined 
 to have one of larger dimensions. But when the 
 answer from London arrived, the price which the 
 optician demanded proved to be far beyond the pecu- 
 niary resources of a mere organist. This unexpected 
 difficulty, however, only inspired him with fresh energy. 
 He could not buy a telescope, but ho was determined 
 to construct one with his own hands ; and, after a mul- 
 titude of experiments, perseverance at last received its 
 reward. 
 
 It was in the year 1774 that Herschcl had the hap- 
 piness of being able to examine tlie heavens with a 
 Newtonian telescope of five feet focus, entirely of his 
 own construction. This success tempted him to under- 
 take still more difficult tasks. Other telescopes of 
 seven, of eight, of ten, and even twenty feet focal dis- 
 tance, crowned his efforts. Nature granted to the 
 astronomical musician the unheard-of honour of com- 
 mencing his career of observation with the discovery 
 of a new planet, situated on the confines of our solar 
 system, and now known by the name of Uranus. 
 Dating from that moment, Herschel's reputation, no 
 
IWENTIOX AXD DISCOVERT. 57 
 
 longer in his character of musician, but as a constructor 
 of telescopes, and as au astronomer, spread throuo-hout 
 the world. 
 
 Herschel was a native of Hanover, and George 
 III., much inclined to protect and patronize both 
 men and things of Hanoverian origin, had Herschel 
 presented to him. He was charmed with the simple 
 3-et lucid and modest account that he gave of his re- 
 peated endeavours ; ensured to him a pension of three 
 hundred guineas a year, and, moreover, a residence near 
 "Windsor, first at Clay Hall, and then at the subsequently 
 fiimous observatory at Slough. The hopes of the king 
 were completely realized. The little house and garden 
 of Slough became the spot of all the world where the 
 gi-eatest number of dis'boveries have been made. " The 
 name of that village," says Herschel's enthusiastic 
 biographer, '' will never perish ; science will transmit it 
 religiously to our latest posterity." 
 
 Miss Caroline Lucretia Herschel went to England 
 as soon as her brother became special astronomer to the 
 king. She received the appellation there of assistant 
 astronomer, withamoderatesalary. Fromthatmomentshe 
 unreservedly devoted herself to the service of her brother, 
 happy in contributing night and day to his rapidly in- 
 creasing scientific reputation. Caroline Herschel shared 
 in all the night-watches of her brother, with her eje con- 
 stantly on the clock, and the pencil in her hand. She made 
 all his calculations, made three or four copies of all the ob- 
 servations in separate registers, co-ordinated, classed, and 
 analysed them. If the scientific world saw with astonish- 
 ment how Herschel's works succeeded each other with 
 unexampled rapidity during so many years, thej 
 
58 INVENTION AND DISCOVERY. 
 
 -were specially indebted foi^ it to tlie ardour of this 
 lady. Astronomy, moreover, has been directly enriched 
 by the knowledge of several comets through her labours. 
 After the death of her illustrious brother, Miss Herschel 
 retired to Hanover, to the house of John D. Herschel, 
 a musician of high reputation, and the only surviving 
 brother of the astronomer. For some years Herschel 
 enjoyed with delight the distinguished success of his 
 only son, Sir John Herschel. At his last hour he sunk 
 to rest with the pleasing conviction that this beloved 
 son, heir of a great name, would not allow it to fall into 
 oblivion, but adorn it with fresh lustre, and that great 
 discoveries would honour his career also. No expec- 
 tation of the illustrious astronomer has been more com- 
 pletely verified. 
 
 Oar scientific journals gave some years since an 
 account of the means adopted by the family of Her- 
 schel for preserving the remains of the great tele- 
 scope constructed by the celebrated astronomer. The 
 metal tube of the instrument, carrying at one end 
 the recently-cleaned m.irror of four feet ten inches 
 in diameter, was placed horizontally in the meridian 
 line, on solid piers of masonry, in the midst of the 
 circle, where formerly stood the mechanism requisite for 
 manoeuvring the telescope. On the 1st of January, 
 1840, Sir John Herschel, his wife, their children, seven 
 in number, and some old family servants, assembled at 
 Slough. Exactly at noon the party walked several 
 times in procession round the instrument; they then 
 entered the tube of the telescope, seated themselves on 
 benches that had been prepared for the purpose, and 
 saiig a requiem, with English words, composed b}- Sir 
 
INTENTION AND DISCOVERT. 59 
 
 John Herschel himself. After their exif, the illti.stnon« 
 family ranged themselves round the ■grea.i l'iV)e, the 
 operdng of which -was then hermetically sealed, rhe 
 day Gcncluded with a party of intimate friends. 
 
 FIYE GUINEAS FOR A XEW PLANET. 
 
 The elder Herschel was a man of kindly disposition; 
 bnt like most persons who have risen out of early diffi- 
 culties, he was extremely careful of money, and became 
 wealthy. A traditional anecdote of his domestic life, 
 however, .shows that he could he good-humouredly 
 generous on occasions. An old servant, named Betty, 
 was with him at the time of constructing his telescope, 
 and his first act on discovering the planet Uranus was 
 to give her a guinea, adding, " Tou shall have fiv;" 
 guineas, Betty, when I discover another." The pooJ* 
 woman accepted the promise in all seriousness, and 
 great was her interest in all her master's subsequent 
 labours. Planets, however, even by a Herschel, are not 
 to be discovered every day, and Betty's hopes were long 
 defei-red. One day Herschel received a friend to whom 
 he had previously told this story, with the exclamation, 
 "Ihave paid my five guineas!" "What!" exclai:ii3d 
 the friend ; " have we to rejoice over another great dis- 
 cover}-?" "No," replied the astronomer, with a good- 
 humoured smile ; " I have simply paid poor Betty in 
 
GO IXVEXTION AND DISCOVEKT. 
 
 atlvaTice. Yoii see," he added, as liis visitor appeared 
 ■Du.z.-'.lcd, " I often pursue these researches long after the 
 good woman has retired to rest. How is Betty to know 
 that I do not discover new planets clandestinely, and 
 keep her from the knowledge with a mean determination 
 to save my money ? Better to pay at once ; better to 
 pay at once." 
 
 THE FATES OF JOHN KAY AXD LEWIS PAUL. 
 
 The lives of our early inventors form ahnost one un- 
 hroken tale of persecution and disappointment. This is 
 particularly exemplified in the stories of John Kay and 
 Lewis Paul. From the earliest ages the loom had re- 
 mained without improvement, and the spinners and wea- 
 vers at the heginning of the last century used practically 
 the same machines as were employed by the Egyptians for 
 the manufacture of those linen cloths, of which we have 
 still specimens wrapped round the bodies of the mum- 
 mies in the British Museum ; when in 1735 Kay, the 
 son of a woollen manufacturer at Bury, iu Lancashire, 
 produced the fly shuttle, thereby at once reducing the 
 labour of weaving by more than one half. Kay was a 
 well-educated man, and had been on the Continent, on 
 his return whence he settled at Colchester, and there 
 conducted a woollen manufactory; but the weavers of 
 that place rose against him and drove him from the 
 town. He then, in 1738, established liimsclf as an en- 
 
INVEXTION AXD DISCOVERY. 61 
 
 gineor at Leeds. Here, however, he was still more un- 
 fortunate ; for although the clothiers of Yorkshire were 
 not unwilling to adopt the fly shuttle, they refused to 
 pay for its use, and he was driven to the Court of Chan- 
 cery to protect his rights. The manufacturers formed 
 an association to oppose his claims, which they impu- 
 dently denominated The Shuttle Club, the avowed pur- 
 pose of which was to defraud him of his just remunera- 
 tion. The workmen, too, rose against him, and by their 
 violence compelled him to close the workshops. Once 
 more a wanderei-, he settled at his native place at Bury ; 
 but here, in 1753, a lawless and ignorant mob broke into 
 his house, destroying everything they found, and Avould 
 have killed him if he had not been conveyed to a place 
 of safety by two friends, wrapped in a wool sheet. A 
 few years later, having in vain sought assistance from 
 the Society of Arts, he fled in disgust to France, where, 
 however, he was encouraged by the British Ambassador 
 to return to England in the hope of some rewai'd from 
 our Government, for the immense benefits which his 
 inventions had bestowed on his countrymen. Disap- 
 oointment was again his portion. Baffled on all sides 
 Aad hopelessly crushed in spirit, the unfortunate " reed- 
 maker," as he styled himself, returned to Paris, where 
 he died in poverty and obscurity — no stone telling where 
 he lies. His daughter, the companion of his misfortunes 
 and the solace of his last days, was afterwards compelled 
 to take refuge in a nunnery. 
 
 Bury, says Mr. Bennet Woodcroft, has produced two 
 great men — John Kay, the inventor, and Sir Robert 
 Peel, the statesman. To the latter, the inhabitants 
 have already erected a statue ; to the former they have 
 
62 INVENTION AND DISCOVERY. 
 
 ,st:'ll to do that act of justice. Kay's improvements iu 
 machinerj for weaving continue in use up to the present 
 time in tens of thousands of looms in this kingdor^ for- 
 making cloths of silk, cotton, linen, and woollen. 
 
 Lewis Paul's history, though less tragic, was scarcely 
 less marked by misfortune. His name is almost forgotten,, 
 ^nd the glory of his ideas absorbed in the more successful 
 modifications of the more fortunate Arkwright. At the 
 very time when the mob were driving Kay out of Colches- 
 ter, Lewis Paul patented a machine which superseded the 
 ancient hand- wheel for spinning, and adopted the method 
 of spinning by the aid of rollers. He was the son of a 
 Dr. Paul, a man of some eminence ; but almost all tliat 
 is known of his history is derived from two letters, stilL 
 extant, addressed by him to the Earl of Shaftesbury, 
 under the guardianship of whose father he appears to 
 have been placed in early life. He confesses that he 
 made but an ill use of his fortune ; but says, that before 
 the calamities of which he had laid the foundation had 
 reached him, he had exerted himself to repair his affairs 
 with such ardour and success that " notwithstanding the 
 impediments necessarily in the way of a person who had 
 spent his time, in every circumstance, so remote from 
 the arts of trade, he nevertheless completed a machine 
 of great value in one of the most extensive manufactories 
 of the kingdom ;" and he adds, that " in something 
 more than the course of twenty years it gained him 
 £20,000 as patentee." He complains of cabals and ene- 
 \nies, and of rivalry of manufacturers, to which he attri- 
 butes his subsequent misfortunes. The first patent for 
 spinning granted to Paul was dated 24th Jiine, 1738, 
 and was for fourteen years. It expired in 1752, and^ 
 
INVENTION AND DISCOVERT. t)^ 
 
 singularly enough, it does not appear that any works 
 were afterwards carried on under it. 
 
 Dr. Johnson was intimately acquainted with Paul, 
 and befriended him in various ways. A great number 
 of letters between them have been published, and in 
 one preserved in the Patent- oflB.ce, Johnson suggests 
 to him a mode of obtaining money from Mr. Cave, the 
 printer of the " Gentleman's Magazine," to carry on his 
 spinning experiments. The specification of his first 
 patent explains that when the cotton or wool is pre- 
 pared, " one end of the sliver is put between a pair of 
 rollers, or cylinders, or some such movement, which, 
 being turned round by their motion, draws in the raw 
 mas.3 of cotton to be spun in proportion to the velocity 
 given to the rollers. As the cotton (it adds) passes 
 regularly through or betwixt these rollers, a succession 
 of other rollers, moving proportionally faster than the 
 first, draw the sliver into any degree of fineness that may 
 be desired." The poet Dyer, the author of " Grongar 
 Hill," in his poem of the "Fleece," in 1757, described 
 the same operation with more nicety of detail than 
 poetic fire, as follows : — 
 
 " A cii'cular machine, of new design, 
 In conic shape ; it draws and spins a thread 
 Without the tedious toil of needless hands. 
 L wheel, invisible, beneath 1' o floor, 
 lo ev'ry member of th' harmonious frame 
 Gives necessary motion. One, intent, 
 O'erlooks the work ; the carded wool, he say?, 
 Is smoothly lapp'd around those cylinders, 
 Which, gently turning, yield it to yon cirque 
 Of upright spindles, which, wiili rapid whirl, 
 ^■pin out in long extent, an even twine." 
 
64 INVENTION AND DISCOVERY. 
 
 This might well pass for a description of a spinning- 
 machine of these clays ; but the fact that after being 
 extensively adopted it fell into total disuse, clearly shows 
 that Arkwright's machine m-ust have been so much 
 superior as to entitle it to be considered original, Lewis 
 Paul died in 1759, at Brook Green, Kennington, and 
 was buried at Paddington. 
 
 A TROrBLESOME PERSON IN CHEMISTRY. 
 
 A WRITER in the " ^Nortli British Review," tells an 
 amusing story, illustrative of the unwillingness to re- 
 ceive new truths which, is characteristic of some minds. 
 Long after Sir Humphrey Davy had become famous in 
 London circles as the " young chemist," who attracted 
 larger audiences to his lectures at the Royal Institution 
 than perhaps any purely scientific man had ever done be- 
 fore, there was a certain professor of chemistry in the 
 college at Aberdeen who systematically passed over his 
 discoveries. Some bolder spirits among tbe Doctor's 
 colleagues at length aroused his attention to the sub- 
 ject ; and the Professor was compelled to take notice at 
 last of Davy's great discovery of potassium. Accord- 
 ingly at his next lecture he began by saying, " Gentle- 
 men, — Both potash and soda are now said to be metallic 
 oxides— the oxides, in fact, of two metals, called potas- 
 sium and Godium, by the discoverer of them — one, Davy, 
 in London, a verra troublesome person in chemistry." 
 
INVEXTION AND DISCOVERY. G5 
 
 "PARSLEY" PEEL. 
 
 The founder of the Peel family and the father of the 
 first baronet, kept a skilled mechanic in his cotton-print- 
 ing establishment, for the purpose of carrying out his 
 ideas in tlie improvement of machinery. This man, we 
 are told by Sir Lawrence Peel, was kept concealed in 
 the private house of a Mr. Haworth at Brooksidc, near 
 Blackburn, where he worked in secret, as if he was en- 
 gaged in some mysterious wickedness. In the course of 
 his experiments Mr. Peel also introduced some improve- 
 ments in the printing of the cottons ; in connection with 
 which a story is still current in the Peel family. This 
 ingenious manufacturer was in his kitchen one diu:, 
 making some experiments in printing on handkerchiefs, 
 and other small pieces, when his only daughter, then a 
 girl, afterwards Mrs.Willock,the mother of the postmaster 
 of Manchester, brought him in from their garden of herbs 
 a sprig of parsley. It was some proof of taste in so young 
 a girl (says Sir Lawrence) that she could discern beauty 
 in a common pot herb, which is generally regarded as 
 created only for a garnish or a fry. She pointed out 
 and praised the beauty of the leaf, and looking, by the 
 habit of the remarkable family to which she belonged, 
 naturally to the useful side, she said that she thought it 
 would make a very pretty pattern. Her father took it 
 from her hand, looked at it attentively, praised her for 
 her taste, and said that he would make a trial of it. 
 She, delighted not to be pooh-poohed as discoverers 
 among young folks often are, lent her aid with all tha 
 
 F 
 
66 INVENTION AND DISCOVERY. 
 
 alacrity of a girl of fourteen. A pewter dinner-plate — for 
 such was then the common dinner-plate of families of their 
 degree — was taken down from the shelf, and on it was 
 sketched, or scratched, a figure of the leaf, and from this 
 impressions were taken. This was called in the family, 
 "Nancy's pattern," after the little girl who invented it. 
 It became one of the most popular patterns in cotton 
 cloth ever designed, and was at one period as widely 
 known and as universally used as the " Willow pattern " 
 in crockery ware. It may be said that it had no small 
 share in laying the foundation of the fortunes of the 
 Peel family. In the trade it was everywhere spoken of 
 as the Parsley leaf pattern, and alliteration lending its 
 aid, the fortunate father of the shrewd young lady 
 became generally known by the nickname of " Parsley 
 Peel." 
 
 THE EARLIEST UMBRELLA. 
 
 It is generally stated that Jonas Hanway, the well- 
 known philanthropist, was the first man who carried an 
 umbrella in the streets of London. Hanway died in 
 178'3. Early in the century a large umbrella was kept 
 in the halls of aristocratic mansions for the special pro- 
 tection of the lady of the house in passing from her 
 door to her coach ; and it was not uncommon to keep 
 such articles in the coffee houses or taverns for the 
 benefit of customers as early as Queen Anne's reign. 
 The fact, however, is not the less true, that it is only 
 
INVENTION AXD DISCOVERY. 67 
 
 witliin the lifetime of persons now living that this 
 almost indispensable protection from the moist climate 
 of England has become generally adopted. In the 
 "Female Tatler" of December 12, 1709, appears a 
 satirical notice informing the " young gentleman belong- 
 ing to the custom-house who, for fear of rain, boiTowed 
 the umbrella at WiU's coffee-house, in Cornhill. of the 
 mistress," that " to be dry from head to foot on the like 
 occasion he shall be welcome to the maid's pattens." 
 Gay mentions the umbrella as early as 1712, in his poem 
 of "Trivia," in which he describes the "tucked-up 
 sempstress " walking in a shower while streams " run 
 down her oiled umbrella's sides." Mr. J. Jamieson, a 
 Scottish surgeon, brought ^^^th him from Paris in 1781, 
 or 1782, an umbrella which was the first seen in Glas- 
 gow where he resided, and where it attracted universal 
 attention. 
 
 The earliest specimens of the English umbrella were 
 made, as mentioned in Gay's lines, of oiled silk, which, 
 when wet, was exceedingly difl&cult to open or close. 
 The stick and furniture were heavy and inconvenient, 
 and the article very expensive. Its transition to the 
 present portable form is due, partly to the substitution 
 of silk and gingham for the heavy and troublesome oiled 
 silk, which admits of the ribs and stretchers being made 
 much lighter ; and also to the many ingenious mechani- 
 cal improvements in the framework which have been 
 made from time to time, chiefly by English and French 
 manufacturers, several of which have been patented. 
 No change has proved a greater convenience than that 
 , from the old-fashioned ring and string, for s.ecuring 
 the umbrella when closed, to the simple clip and 
 
68 INVENTION AND DISCOVERY. 
 
 india rubber braid now in use ; and yet, before this 
 was accomplished, many transitions had to be passed 
 through. 
 
 Though the umbreHa is itself of older date, there 
 is nothing to invalidate thn story that it is to the good 
 Jonas Hanway that we are indebted for the valuable 
 example of moral courage in first carrying an umbrella 
 in the streets of London. It is difficult now to conceive 
 the amount of persecution which this strange pro- 
 ceeding entailed upon the unfortunate philanthropist, 
 whose object was, doubtless, less the protection of 
 his own person than that of showing his fellow-country- 
 men how they might avoid those continual drenchings 
 to which they had so long submitted. The hackney 
 coachman and the sedan chairman were the first to call 
 out against the threatened innovation, declaring that 
 they were ruined if it came into fashion. When they 
 began to be carried, even a gentleman accompanied by 
 a lady, under the shelter of the new-fangled rain protec- 
 tor, were hooted as they passed along ; while a gentleman 
 alone, carrying one, was certain to be attacked with cries 
 of " Frenchman ! Frenchman I why don't you call a 
 coach ?" and other more offensive salutations. 
 
INTENTION AND DISCOVERY. 60 
 
 THE OLD TELEGEAPHS. 
 
 Among the still primitive people of Montenegro a plan 
 of transmitting information prevails whicli may be con- 
 sidered the rudest system of telegraphy still existing. 
 "When a shepherd in the mountains finds himself in want 
 of society, he sends out at random a pecviliar kind of 
 yell with a view of attracting the attention of any one 
 similarly situated who may chance to be within hearing 
 upon some other mountain side, and ma}- also feel a 
 desire for conversation. It is Avell known at what a 
 great distance shrill sounds may be distinctly heard in 
 these mountainous regions. The unseen friend, whose 
 ears have caught the sound, responds in the same way, 
 and then begins a dialogue about their flocks and herds, 
 or any other country gossip ; and should there chance 
 to be news of public interest, such as of any important 
 person or foreigner passing that way, the receiver of the 
 intelligence shouts it out in the open air for the benefit 
 of the mountain nearest to him, and so it passes from 
 one to another through a considerable part of the 
 country. "This practice of calling from hill to hill," 
 says a recent traveller, " also answers the purpose of an 
 advertisement in a newspaper, and that with wonderful 
 celerity. At any given time one half of this badly- 
 housed population may mostly be found in the open 
 air, and their ears are astonishingly quick at catching 
 these sounds. Any one who yells out his requirements 
 may generally calculate on some one who has nothing 
 else to do repeating them for hini to the next living 
 
70 INVENTION AND DISCOVERY. 
 
 telegraph. An acquaintance told me he was once in 
 want of a mule that was at the time grazing in the 
 mountains more than ten miles off. He accordingly 
 began the hue and cry. ' Ho ! ho ! you people there in 
 the village of Brelizzu ! High up in the mountains of 
 Glenbotich, by the great beech tree with the withered 
 boughs, my little lad Tonko is keeping my white-footed 
 mule. Let him know that he is to come with it down 
 to the road as fast as he can.' Thus the owner of the 
 mule yelled at random into the air, and immediately 
 some living echo took up his words, repeating them 
 exactly ; and so the message went till it reached the 
 boy, and the owner of the mule found it waiting for 
 him at the appointed place." 
 
 Beacon fires were the ancient mode of telegraphy 
 adopted in Great Britain, and in an act of the Scottish 
 Parliament of 1455, it is dii'ected that " one bale or 
 faggot shall be warning of the approach of the English 
 in any manner, two bales that they are coming indeed, 
 and four bales blazing beside each other, that the enemy 
 are in great force." The famous Bishop Wilkins, who 
 pretended to discover the art of flying, describes certain 
 alphabetic systems of transmitting information which 
 depended merely upon the number and alternate display 
 or concealment of lights. The Marquis of Worcester, 
 in 16G3, described a system by which, as he said, a man 
 at a window, as far as the eye could discover black and 
 white, could hold discourse with his correspondent; 
 and the ingenious Dr. Hook, in 1684, explained to a 
 meeting of the Royal Society a scheme for communicating 
 one's mind at distances of thirty, forty, a hundred, 
 or a hundred and twenty miles " in as short a time 
 
INVENTION AND DISCOVERY. 71 
 
 almost as a man can write what he avouUI have sent." 
 His plan required the use of the telescojje, and was 
 of coui'se dependent on weather and various acci- 
 dents ; but this was the germ of the old semaphore 
 which was actually used by our Government, and was 
 at work in this country as late as 1852 between 
 Liverpool and Holyhead. About twenty years after 
 Hook's scheme was unfolded, an inventor, named 
 Amontous, brought forward a similar plan in France. 
 Persons were placed by him in several stations at a 
 certain distance from one another, and by the help of a 
 telescope a man in one station was enabled to see a 
 signal in the next before him. He was then required 
 immediately to make the same signal, so that it might 
 be seen by persons in the station after him. The signals 
 used were either large letters of the alphabet or figures 
 of various shapes to represent them. Amontous pub- 
 licly demonstrated the practicability of his plan ; but 
 no system of signals was applied to any useful purpo.=;e 
 till the period of the French Revolution. The telegraph 
 then brought into use, in either 1 793 or 1 79-i, was the 
 invention of M. Chappe, and, though similar in prin- 
 ciple to the machine invented by Hook, it was greatly 
 superior. The roof of the Louvre was his telegraphic 
 terminus, and Chappe, having received from the Revo- 
 lutionary Government a message to be forwarded to the 
 army at Lille, he gave an understood signal to the 
 heights of Montmartre, which was the second station, 
 to prepare. At each station there was a watch-tower 
 where telescopes were fixed, and the person on watch 
 gave the signal of preparation throughout the line. 
 The watcher at Montmartre then received, letter by 
 
72 INVENTION AND DISCOVERY, 
 
 letter, the sentence from the Louvre, which he repeated 
 by his own machinery, and this was again repeated 
 from the next height with as much rapidity as possible, 
 until the message arrived at Lille. The upright post 
 which was erected on the Louvre had at the top two 
 transverse arms, moveable in any direction by a single 
 piece of mechanism. Chappe invented a number of 
 positions for these arms, which stood as signs for the 
 letters of the alphabet, and even these were reduced as 
 much as possible. The signs too were arbitrary, so that 
 they could be changed every week, all that was neces- 
 sary being that the persons at each terminus should 
 have the key. Two working models of this instrument 
 were made at Frankfort, and sent by Mr. W. Playfair 
 to the Duke of York, and thus the plan and the 
 alphabet of the instrument came to England. Chappe 
 was not more fortunate than other inventors in escaping 
 opposition and discouragement. The people were pre- 
 judiced against the new machinery. His first instru- 
 ment and station were destro^'ed by the populace ; his 
 second was burned to the ground, the unfortunate in- 
 ventor narrowly escaping from the mob with his life ; 
 but the telegraph was subsequently taken up by the 
 French Government, and became extensively used on 
 the Continent. 
 
 This kind of telegraph, known as the aerial, was 
 first established in England seventy years ago, a line 
 of stations being formed from the Admiralty at White- 
 hall to the sea-coast, and information was thus conveyed 
 from London to Dover in ten minutes. The expense of 
 working and mounting the line from London to Ports- 
 mouth was three thousand three hundred pounds per 
 
INVENTION AND DISCOVERY, 73 
 
 annum. Tliongli of great service to the Government, 
 this old cumbrous system was of course only available 
 in clear weather. Vexatious interruptions continually 
 took ])lace, and droll accidents occasionally resulted 
 from the sudden cessation of communication, from a fog 
 or similar cause, during the transmission of a message. 
 When the British army were fighting under Wellington 
 in Spain, news were anxiously expected from that great 
 commander thi-ough the Admiralty signals. The public 
 were in a state of feverish excitement, when one day 
 the disastrous message was received, " Wellington de- 
 feated." The funds were violently agitated, the people 
 and the Government were bewildered, and terrible 
 rumours of enormous slaughter and great loss of guns, 
 colours, and ammunition were heard on all sides. It 
 turned out, however, that, just as the word "defeated" 
 had been deciphered at some part of the line, a sudden 
 mist had come on and cut off the remainder of the mes- 
 sage. When this inopportune visitor had passed away, the 
 public mind was instantly relieved with the news that 
 the message was not " Wellington defeated," but " Wel- 
 lin2:ton defeated the French." 
 
74 INVENTION AND DlSCoVERT. 
 
 THE HISTOEY OF MATCHES. 
 
 Before the year 1820, scarcely any other method of 
 producing fire was known than that of the old flint, 
 steel, and tinder-box ; that once familiar trio which can 
 scarcely yet be said to be entirely out of use in England. 
 As early as the middle of the seventeenth centurj', how- 
 ever, the discovery of phosphorus had indicated a more 
 certain means of procuring light or fire, and in 1677 
 Daniel Krafft, a famous German chemist, exhibited in 
 England some striking effects produced by this new 
 agency. It is believed that some trial was made as to 
 whether an ordinary match could be ignited by its 
 agency ; but it is remarkable that the philosopher Boyle, 
 described it only as "a factitious, self-shining substance," 
 procui'cd but in very small quantities, and with great 
 labour and time, the principal value of which was to 
 supi^ly a light in the night, or in dark places when ex- 
 hibited in glass vessels. It was about forty years ao-o, 
 that a German, named Doebereiner, made the curious 
 discovery that thinly divided or " spongy" platinum 
 will inflame a mixture of hydrogen gas and atmospheric 
 air, and hence invented his instantaneous light appara- 
 tus, first known by the name of the hydrogen lamp. 
 This was greatly admired at the time, and is even now 
 frequently employed ; it having been applied to light an 
 ordinary gas burner, required to be lighted at intervals 
 during the day time, for the purpose of sealing parcels. 
 
 About the same period, several methods of obtaining 
 light by means of phosphorus were proposed ; but they 
 
INVENTION AND DISCOVERY. 75 
 
 were generally more ingenious than practical. In one 
 case equal quantities of phosphorus and sulphur were 
 fused together in a glass tube, which was subsequently 
 closed with a cork. On opening the tube, if a splinter 
 of wood was dipped into the mass, so that a small 
 quantity of the composition adhered to it, -it became 
 ignited when slightly rubbed on the cork used to close 
 the phial. This apparatus soon became entirely obsolete. 
 The first great practical improvement in the means 
 of obtaining light consisted in covering the end of a 
 match which had previously been dipped in sulphur, 
 with a mixture of sugar and chlorate of potash, which 
 being steeped in sulphuric acid communicated the in- 
 flammation to the underlying coating of sulphur. 
 These matches we believe to have been introduced from 
 France; but before this. Captain Manby, feeling the 
 necessity of being able to obtain an instantaneous light 
 for the firing of his well-known rocket for conveying a 
 rope to a stranded ship, had been accustomed to employ 
 a similar mixture. The same piinciple was involved in 
 the manufactui'e of the so-called " Promethean" matches, 
 invented by Mr. Jones of the Strand. These matches 
 were made of a roll of paper, in one end of which was 
 placed a portion of the mixture above described, with a 
 small tube hermetically sealed, similar to tho?e in Avhich 
 the leads of ever-pointed pencils are preserved, and con- 
 taining a minute quantity of strong sulphui'ic acid. 
 By pinching the end of the match mth a small pair of 
 pliers sold for the purpose, the tube was crushed, and 
 the sulphuric acid came in contact with the mixture and 
 ignited it. These matches, though convenient, were very 
 expensive ; and the popular thin wooden box of matclies, 
 
76 INVENTION AND DISCOVERY. 
 
 now SO familiar, and sold for a halfpenny, was still 
 Undreamed of. The first true friction matches, known 
 as lucifers (a Latin word, signifying "light bringers"), 
 were coated with a mixture of sulphide of antimony 
 and chloride of potash, made into a paste with guni- 
 Avater, and were lighted by drawing them rapidly 
 between the two surfaces of a square piece of folding 
 sand paper. From this somewhat cumbrous and incon- 
 venient device, the public were finally relieved about 
 the year 1834, when the present " Congreve" match 
 was introduced nearly simultaneously in various coun- 
 tries. The secret of these was the substitution of Boyle's 
 " factitious shining" substance — phosphorus — for sul- 
 ]ihide of antimony ; but to whom the credit of this useful 
 idea is due does not appear. On the Continent the pro- 
 gress in adopting the match was very slow, its use 
 having been positively prohibited in various countries, 
 on account of the assumed danger of fire ; but in Eng- 
 land the cheapness to which it was speedily reduced, 
 soon drove out, not only the old tinder bos, but even 
 the really useful lucifer match. 
 
 DAVY AND THE " LAUGUIXG GAS." 
 
 The dangers which enthusiastic men of science will 
 voluntarily undergo for the sake of testing new prin- 
 ciples have never been more strikingly exemplified than 
 in the history of Sir Humphrey Davy's early experi- 
 
INVENTION AND DISCOVEKT. 77 
 
 ments on tlie effect of nitrous oxide, popularly known 
 as "laughing gas." Davy began bis cbemical studies 
 in March 1798, when a youth of eighteen, and only two 
 years later appeared bis " Researches," Avhich imme- 
 diately gave liim high rank, not as a mere chemist, but 
 as an original discoverer. Herein, for the first time, 
 the properties of nitrous oxide and the wonderful effects 
 of that gas in respiration Avere disclosed to the astonish- 
 ment of the public. Hitherto it had been regarded 
 among natural philosophers with a sort of vague horror, 
 and from its deadly effects upon small animals it was 
 suspected that it was the very principle of the plague 
 itself, that terrible visitation which, from time to time, 
 swept over Europe. Nothing daunted by this, the 
 young philosopher boldly resolved to try its effects 
 upon his own system. He could not have been ignorant 
 of the terrors of Spallanzani's experiments upon the 
 gastric juice, and only a short time before the bravo 
 Pelletier, the French chemist, had lost his life in the 
 attempt to breathe another kind of poisonous gas. But 
 the boy philosopher thought it necessary to compare 
 the effects of nitrous oxide with those of common sti- 
 mulants, and he was resolved to pluck knowledge out 
 of this dangerous trial. With this view, he shut him- 
 self up, and first submitted himself to intoxication so 
 extreme as to produce distressing and even alarming 
 symptoms. To ascertain the effects of an atmosphere 
 containing large quantities of the same gas, he enclosed 
 himself in a box, and at three successive intervals, for 
 an hour and a quarter (during which time he remained 
 in the box), had sixty quarts of the gas thrown in, 
 finally constituting a large proportion of the air which 
 
78 INVENTION AND DISCOYEKY. 
 
 he was breathing. When the last twenty quarts were 
 thrown in his emotions became similar to those produced 
 by a moderate dose of the pure gas ; but, not satisfied 
 vdih this, immediately after coming out of his cage, he 
 began to breathe in twenty quarts of nitrous oxide, 
 probably the most effectual trial ever made of this 
 wonderful agent. 
 
 " A thrilling" (he observes, in his own account of this 
 audacious experiment), " extending from the chest to 
 the extremities, was almost immediately produced. I 
 felt a sense of tangible extension highly pleasureable in 
 every limb ; my visible impressions were dazzling and 
 apparently magnified ; I heard distinctly every sound 
 in the room, and was perfectly aware of my situation. 
 By degrees, as the pleasureable sensations increased, I 
 lost all connection with external things; trains of vivid, 
 visible images rapidly passed through my mind, and 
 were connected with words in such a manner as to 
 produce perceptions perfectly novel. I existed in a 
 world of newly-connected and newly-modified ideas. I 
 theorized ; I imagined that I made discoveries. When 
 1 was awakened from this semi-delirious trance by Dr. 
 Kinglake, who took the bag from my mouth, indigna- 
 tion and pride were the first feelings produced by the 
 sight of the persons about me. My emotions were en- 
 thusiastic and sublime, and for a minute I walked round 
 the room perfectly regardless of what was said to me. 
 As I recovered my former state of mind I felt an in- 
 clination to communicate the discoveries I had made 
 during the experiment. I endeavoured to recall the 
 ideas ; they were feeble and indistinct. One collection 
 of terms, however, presented itself, and with the most 
 
INVE.sTUN AND L>1SC0VEKY. 79 
 
 intense belief and prophetic manner I exclaimed to 
 Dr. Kinglake, ' Nothing exists but thoughts ! — the uni- 
 verse is composed of impressions, ideas, pleasures, and 
 pains !' " 
 
 The impunity with which Davy had passed through 
 these wonderful trials emboldened him to attempt the 
 breathing of the deadly fumes from charcoal. His first 
 attempt was made upon four quarts of carburetted hy- 
 drogen gas, of which he made three inspirations. " The 
 first inspiratioTi " (he tells us) " produced a sort of numb- 
 ness and loss of feeling in the chest and about the pec- 
 toral muscles. After the second inspiration I lost all power 
 of perceiving external things, and had no distinct sen- 
 sation except a terrible oppression on the chest. During 
 the third inspiration this feeling disappeared ; I seemed 
 sinking into annihilation, and had just power enough 
 to drop the mouthpiece from my unclosed lips. A short 
 interval must have passed during which I respired 
 common air before the objects about me were distin- 
 guishable." On recollecting himself, he faintly articu- 
 lated, "I do not think I shall die." Puttinji one finger 
 on his wrist, he found his pult^e threadlike, and beating 
 with excessive quickness. Extreme giddiness, loss of 
 memory, and numbness succeeded, with excruciating 
 pains in the forehead and between the eyes, and transient 
 pains in the chest and extremities. 
 
 Davy was, as far as his philosophical learning went, 
 entirely self-instructed. He was born at Penzance, in 
 Cornwall, on the 17th of December, 1778. Though 
 some attempt has been made to conceal the fact, there 
 is no doubt that his father, Robert Davy, followed the 
 humble occupation of a wood-carver. He was known 
 
80 INVENTION AND DISCOVECY. 
 
 in that town as " little Carver Davy," and his son, 
 >vhen young, was always spoken of there as " Carver 
 Davy's boy." His father dying when the lad was only 
 sixteen, his mother commenced the business of a mil- 
 liner, and apprenticed her child to an apothecary at 
 Penzance, where, for the first time, he began to show 
 an interest in his favourite study. 
 
 " His means, of course," says his brother, Dr. Davy, 
 " were very limited ; not more extensive than those with 
 which Priestley and Scheele began their labours in the 
 same fruitful field. His apparatus consisted chiefly of 
 phials, wine-glasses, teacups, tobacco-pipes, and earthen 
 crucibles, and his materials were generally the mineral 
 acids and the alkalies, and some other articles which 
 are in common use in medicine." He began his experi- 
 mental trials in his bedroom, in a friend's house, in 
 which he was a favourite inmate. Here there was no 
 fire, and when he required it he was obliged to come 
 down to the kitchen with his crucible. His biographer. 
 Dr. Paris, states that Davy was indebted to the accident 
 of a wreck on the coast for a case of surgical instru- 
 ments. This included a clumsy clyster apparatus, which 
 he turned into an air-pump. The sacred vessels and 
 professional instruments of the surgery were, AWthout 
 the least hesitation, put into requisition for any chemical 
 experiments. 
 
 It can hardly be doubted that Sir Humphrey Davy's 
 constitution, which was so vigorous in youth, withei'ed 
 and decayed long before he had reached old age from 
 the effects of injuries sustained by these early experi- 
 ments. He died in 1829, at Geneva, of an attack of 
 apoplexy, but his end Tras singularly peaceful. When 
 
IXVEXTIOX AND DISCOVERT. 81 
 
 his brother, Dr. Davy, entered the room, Sir Humphrey 
 said, " I am dying," or words to that effect, " When 
 it is all over, I desire that no disturbance of any kind 
 may bo made in the house. Lock the door, and let 
 every one retire quietly to his apartment." The niort;d 
 remains of Carver Davy's son, the great philosopher and 
 discoverer, were honoured with a public funeral, and 
 deposited in the cemetery without the walls of Geneva. 
 
 POPULAR NOTIONS OF IXYEJfTIONS. 
 
 "When the electric telegraph wires began to be worked 
 along our lines of railway, scientific men were amused 
 by the absurd notions entertained of them, not only by 
 the country people, but even by public writers. One 
 editor inserted a leading article commenting in the fol- 
 lowing strain on the telegraph between London and 
 Yarmouth : — 
 
 " It is a fact, which some of our readers may be 
 ignorant of, that sparrows and other small birds Avhich 
 happen to perch on those mysterious lines of communi- 
 cation, the telegraph wires, are destined ever and anon 
 to suffer severe shocks of electricity, the effect of which 
 is (though we never witnessed the phenomenon) that 
 they drop down, not dead, but half dead with amaze- 
 ment and terror. The shock, if severe enough, will 
 destroy them. Electricity can be administered in doses 
 which would kill a horse. Perhaps, bj- transmitting 
 
 u 
 
82 INVENTION AND DISCOYERT. 
 
 through the telegraph wire a very powerful charge, 
 the unhappy sparrows along the whole line, from 
 London to Yarmouth, might be cut off. This, in case 
 of necessity, or as a matter of cruel curiosity, might be 
 employed as a means of getting rid of these vermin. 
 It is not uncommon or extraordinary to see at least a 
 hundred of these feathered depredators on one mile of 
 ■wire. The length of the whole line of which we speak 
 is 146 miles. A shock strong enough to destroy sparrow- 
 life would, with these data, cut oft" from the land of the 
 living, at one fell and fatal swoop, not less than 14,600 
 of these little creatures. One thousand miles of railway 
 would in like manner, and with the same conditions, be 
 the death of 100,000. Even supposing that death does 
 not ensue, yet how miserable will be the state of these 
 little animals when the Avhole island is covered with a 
 veritable network of telegraphic wires ! Fatal twigs 
 these for tiny feet ! The whole family of sparrows Avill 
 be paralyzed. The fowls of the air will be electrified. 
 People, as they talk with each other, and whisper to 
 each other in unheard communion, at the distance of 
 1000 miles, will be causing serious mconvenience to the 
 feathered race. We tremble to think of the conse- 
 quences, and heartily recommend the case to the Society 
 for the Prevention of Cruelty to Animals. Dog-carts 
 sink into insignificance when compared with this whole- 
 sale palpitation — this universal twittering and conster- 
 nation — among the feathered tribes. How many a sweet 
 song will be interrupted — how many a little throat 
 silenced — very suddenly indeed, when this mischievous 
 machinery shall be brought into universal play !" 
 
 We need hardly inform the present generation of 
 
IirVENTION AND DISCOVERY. 83 
 
 readers that this amusing specimen of ignoi-ance is founded 
 upon an erroneous conception of the laws of electricity ; 
 and that no bird or other creature, unless its body formed 
 part of the chain of communication, could be afi'ected in 
 any way by the passage of the electric tluid. Among 
 other odd popular notions was that of the country people 
 who thought that the humming noise made by the wind 
 in passing through the wires was caused by the messages 
 passing. Some believed they could tell when a train was 
 coming by the noise. In one case, where a man's house 
 was injured by lightning in the immediate vicinity of the 
 line of telegrajoh, he conceived the calamity attributable 
 to its influence ; but, on careful investigation, in con- 
 junction with a resident director, it satisfactorily appeared 
 that the agency of the line was exactly opposite to that 
 supposed by the injured party, and that, to the extent 
 of the capacity of the wires as an electric conductor, it 
 had alleviated and carried off the atmospheric charge 
 from the point of its explosion in the vicinity of the 
 injured house. It was found difficult to persuade the 
 country folks that parcels or missing umbrellas could 
 not be forwarded by the wives. 
 
 At Dover, an individual presented himself at the 
 telegraph office one afternoon with a sum of money, and 
 desired the clerk to send the money itself, in propria 
 forma, up to London by telegraph, to be forwarded to a 
 certain banker's. The money was to take up a bill due 
 that day, and there was no time to send it by tiain. 
 He seemed perfuctly surprised that it could not be sent. 
 At the terminus of the South-Eastern Railway in Tooley 
 Street, a servant in livery came to the oUici", heated and 
 out of breath, with a small parcel to be sent by telegraph 
 
84 INVENTION AND DISCOVERY. 
 
 to a distant part of the country. It appears he had in- 
 structions to send it by train ; but he arrived just too 
 late for the train, and, as it was of consequence, he 
 thought he should get out of his dilemma and expedite 
 matters by adopting this course. 
 
 THE FIKST MAEQATE STEAM-BOAT. 
 
 It is exactly fifty years since Brunei steamed down the 
 river Thames on a voyage to Margate in a vessel pro- 
 pelled by a double acting marine steam-engine. 
 Arrived at Margate, the engineer looked out for 
 accommodation for the night. But this proved to be a 
 difficult matter. The inhabitants Avere in arms against 
 the inventor, who threatened to bring steam communi- 
 cation to their town, a feeling which was not confined 
 to the persons connected with the sailing packets, but 
 was even extended to the shopkeepers and lodging 
 letters. So blind were they to the future advantages of 
 that mode of conveyance, which has since given so 
 great an impulse to sea-coast Avatering places, that the 
 landlords of hotels where Brunei desired to stay for the 
 night absolutely refused to provide him with a bed. 
 Many years afterwards, when Brunei Avas in the Isle of 
 Thanet laying out a plan for a railway to Ramsgate, he 
 wrote from Margate to a friend : — " To-day, by mere 
 chance, I am at the York Hotel. It was at this same 
 hotel that, in 1814, I was refused a bed because I came 
 
INVENTION AND DISCOVERT. 85 
 
 by a steamer, and every one of the comers met -with a 
 very unfriendly reception. If they knew at this moment 
 that I came to caiT}' off the cargoes of the steamers to 
 Ramsgate, I might probably shai-e the same fate." Had 
 he lived longer Brunei might have seen the town of 
 Margate with two lines of railway connecting it with 
 London, and with its immediate rival Ramsgate, and 
 assuredly no hotel-keeper in that neighbourhood would 
 now deny that the engineer knew their interests better 
 than they themselves. It is pleasing to think that this 
 pioneer of steam navigation lived to see the launch of 
 the " Great Britain" at Bristol, in 1843 — a steamer of 
 3oU0 tons burden — in which the screw-propeller, which 
 he had himself suggested in early life, was for the first 
 time applied to a vessel of large burden. 
 
 WATT'S EAELY STRUGaLES. 
 
 Watt's first experiments in steam were undertaken 
 when he was about twenty years of age, and while he 
 was living in a little room within the precincts of the 
 college at Glasgow, where he earned a bare subsistence 
 by obtaining odd jobs as a mathematical instrument 
 maker. Driven out of the city by the severe restric- 
 tions of the Trade corporation, against workmen who 
 had not served an apprenticeship to their craft, some 
 friends in the university had given him a refuge where 
 he could be allowed the poor priWlege of earning bread 
 by the labour of his hands. A few apothecaries' phials. 
 
80 INVENTION AND DISCOVERY. 
 
 and the instrument known as a Papin's digester, were 
 at tirst his only tools. N'ext he obtained from the 
 college to repair a model of one of Newcomen's engines, 
 which he eagei-ly studied ; but this was so clumsy a con- 
 trivance that the instrument maker regarded it merely as 
 " a fine plaything ;" and indeed this crude machine had 
 hitherto been applied to no purpose, as a mechanical 
 power, except that of pumping water from a few mines. 
 Watt, in his own account of his experiments at this 
 time, said : — " One Sunday afternoon I had gone to take 
 a walk in the Green of Glasgow, and when about half 
 way between the Herd's House and Arn's "Well, my 
 thoughts having been naturally turned to the experi- 
 ments I had been engaged in for saving heat in the 
 cylinder, at tliat part of the road the idea occurred to 
 me, that, as steam was an elastic vapour, it would 
 expand, and rush into a previously exhausted space ; 
 and that, if I were to produce a vacuum in a separate 
 vessel, and open a communication between the steam in 
 the cylinder and the exhausted vessel, such would be 
 the consequence." 
 
 By much patience nnd industry Watt improved the 
 boiler of this engine ; but his ignorance of the principle 
 of latent heat, and want of experience in the practice of 
 mechanics, clogged his progress. No mechanics could 
 then be found in Glasgow capable of making his large 
 models ; ignorant blacksmiths and tinmen being the 
 only hands available. Poor as he was. Watt contrived 
 to hire a small workshop in a back street of the city, 
 whore he himself erected a working model with the aid 
 of his assistant John Gardiner. Put while he was 
 busied with his task his best moelianic died, and Watt, 
 
INVENTIOX AND DISCOVERY. 87 
 
 who said at tliis time that he was " quite barren " of 
 every other subject, his whole thoughts being bent on 
 this machine, wrote to a friend, " My old white-iron man 
 is dead — an almost irreparable loss." It was on the 5th 
 of January, 1769 — the same year in which Arkwright 
 obtained the patent for his spinning machine, that Watt 
 took out his patent for his steam, or as he called it, 
 fire-engine ; but his models were ill made ; his resources 
 were small ; his health and spirits continually breaking 
 down under the cares and anxieties of his life. He waa 
 often near abandoning altogether his ingenious schemes. 
 In 1769, his spirit being embittered by hearing of an 
 attempt to appropriate his inventions, he wrote to a 
 friend: — "I have resolved, unless these things that I 
 have now brought to some perfection reward me for the 
 time and money I have lost on them, if I can resist it, 
 to invent no more. Indeed, I am not near so capable as 
 I once was ; I find that I am not the same person that I 
 was four years ago, when I invented the fire-engine, and 
 foresaw, even before I made a model, almost every cir- 
 cumstance that has since occurred. I was at that time 
 spurred on by the alluring hope of placing myself above 
 want, without being obliged to have much dealing with 
 mankind, to whom I have always been a dupe. The 
 necessary experience was wanting ; in acquiring which 
 I have met with many disappointments. I must 
 have sunk under the burthen of them if I had not been 
 supported by the friendship of Dr. Roebuck. I have 
 now brought the engine near a conclusion, yet I am not 
 in idea nearer that rest I wish for than I was four years 
 ago. However, I am resolved to do all I can to carry 
 on this business, and if it does not thrive with mo I 
 
INVENTION AND DISCOVEKY. 
 
 will lay aside the burthen I cannot carry. Of all things 
 in life there is nothing more foolish than inventing^ And 
 on the 31st of January, 1770, he said : — " To-day, I enter 
 into the thirty-fifth year of my life, and I think I have 
 hardly done thirty-five pence Avortli of good in the 
 world ; but I cannot heljD it." Such was the desponding 
 view taken by this great benefactor of mankind of those 
 labours by which his name has since been rendered so 
 famous. His subsequent removal to Birmingham, and 
 his partnership with Mr. Boulton, opened a new and 
 happier era for the dreaming maker of instruments, 
 who now became a practical maker of engines on a large 
 scale. The Soho works speedily became famous 
 all over England. Yet, in 1780, Watt and Boulton 
 were still out of pocket by his inventions, and as late 
 as 1783, when the former was forty-seven years old, 
 they had reaped no profit. But for an act passed in 
 1775 to continue the rights of the patentees to the year 
 1800, in consideration of the great utility of the inven- 
 tion, the inventor must have been entirely deprived of 
 the reward of his labour. 
 
 MR. BOULTON, OF BIEMINGHAM. 
 
 Mr. Boulton, the practical business-like partner of James 
 Watt, though entitled himself to high rank as an in- 
 ventor, never forgot to acknowledge the transcendent 
 merits of his partner. The steam-engine was in his 
 
INVENTION AND DISCOVERY. 89 
 
 mind the pride of tlie establishment over -whicli he 
 "mled. With a cui'ious forgetfulness of his illustrious 
 partner's origin, Boulton once said to Sir Walter Scott, 
 in reply to some remark, " That is like the old saying — 
 in every comer of the world you will find a Scot, a rat, 
 and a Newcastle grindstone." " You ought," retorted 
 Sir Walter, whose national feeling could not tolerate 
 even a joke at the expense of his country, " to have added 
 — and a Brummagem liitton.'" " Ah," replied Boulton, 
 roused in his turn to a spirit of pride in his birth-place, 
 " we make something better than buttons in Birming- 
 ham, Sir Walter ;" and then added in a tone of dignity, 
 "We make steam-engines." Boswell, the biographer 
 of Dr. Johnson, has left us an interesting anecdote of 
 Boulton. Boswell, who despised trade, and who re- 
 garded the writing of a preface to a commercial dic- 
 tionary as a degradation of the talents of his master, 
 nevertheless condescended to visit the Soho works in 
 1776, there to inspect the new machines of his fellow- 
 countryman which had then just been completed. " I 
 shall never forget," he says, "Mr. Boulton's expression 
 to me when surveying the works : * I sell here, sir, what 
 all the world desires to have — powek.' He had," adds 
 Boswell, " about 700 people at work. I contemplated 
 him as an iron chieftain, and he seemed to be a father 
 of his tribe." Another interesting anecdote is told by 
 Boswell in connection with this visit, interesting as 
 illustrating the character of Boulton. " One of the 
 men," Boswell tells us, " came to Boulton, complaining 
 grievously of his landlord for having distrained his 
 goods. 'Your landlord is in the right. Smith,' said 
 Boulton; 'but I'll tell you what— find you a friend 
 
90 INVEJXTION AND DISCOVERY, 
 
 who will lay down one-half of your rent, and 111 lay 
 down the other, and you shall have yonr goods again.' " 
 Boulton devised some remarkable improvements in 
 the machinery for coining, and attained to such rapidity 
 and perfection of execution that he was employed by 
 the Government to re-coin the whole copper money of 
 the kingdom. Under his superintendence several foreign 
 governments established his system. It is said that 
 Boulton's senses were so acute that, while sitting in his 
 office at Soho, he could detect, by a change in the sound 
 of the motion, the least derangement in the machinery 
 of his vast establishment. 
 
 IMPEACTICABLE INVENTORS. 
 
 Brunel, was continually tormented with impracticable 
 and ignorant inventors, who solicited his attention for 
 projects frequently of the most absurd kind. An Irish 
 gentleman once submitted to him a design for a kind of 
 hood for a carriage, the merit of which was that in fine 
 weather it was to hang under the vehicle ready for use. 
 " Impossible," exclaimed Brunei, after a moment's ex- 
 amination ; " such a mass could never be stowed away 
 in so small a space." "Do you think so F" said the 
 Irish gentleman, not at all taken aback. " Ah ! then 
 we will soon get over that. The thing must be left at 
 home in fine weather. Shan't want it then, you know." 
 On another occasion his benevolent feeling was 
 appealed to, to give attention to a new Mcans of sweep- 
 
INVENTION AND DISCOVERY, \)[ 
 
 ing chimneys, intended to obviate tbe necessity of the 
 climbing boys, who were at that time used for this cruel 
 employment. The plan was extremely simple : a broom 
 was to be worked from above, as well as from below 
 and thus every nook, whichever way it turned, was to 
 be easily swept out. 
 
 "Excellent," said the great engineer; "but you 
 have not told me how the rope is to be got to the top." 
 
 "Nothing more simple," repbed the sanguine inven- 
 tor. " Of course, a boy will go up with it first." 
 
 Sometimes he was annoyed at finding that a kindly 
 word, or a mere formal expression of politeness which 
 he had used towards some of tliese tormentors, was 
 construed into an approval of their schemes, which Avere 
 forthwith announced as sanctioned by Brnnel's appro- 
 bation. This occurred in the case of a new machine a 
 "criopyrite" or fire-ram, invented by a Mr. Collier. 
 This gentleman not only put forth his invention as 
 sanctioned by Brunei, but referred inquirers to the 
 agent of the latter, to certify to the soundness of his 
 principle. Brunei was naturally indignant at this, and 
 he leplied, "Nothing is more preposterous than the 
 account which has been published respecting this 
 engine, which, it is added, consumes no more than one 
 twentieth part of the fuel required for a steam engine 
 of the like power. . . . Having been called on to 
 witness its action and to give my aid in directing its 
 power, I am enabled to state that tlie new engine sup- 
 posed to possess a power equal to twenty horses, has 
 not yet to my knowledge moved without the external 
 aid of two or three men."* 
 
 * Beamish's Memoir of Sir M. I. Brunei, lSfi2. 
 
92 INVENTION AND DISCOVERY. 
 
 THE COENISH MINERS AND THE ENGINE. 
 
 The first practical trial of Watt's engine took place in 
 Cornwall. The sea had broken into some valuable 
 copper mines in that county, the news of which reached 
 his partner, who at once determined to put the invention 
 to the test, and wrote to the miners informing them of 
 its success, and of the means it afforded them of retriev- 
 ing their disaster. The offer was sufficiently feasible 
 to induce the Cornish miners to undertake a journey to 
 Birmingham, on purpose to inspect the new engine. Its 
 power to extricate them from the position of " drowned 
 out," so terrible to the poor miners in that part of Eng- 
 land, Avas probable, but it was costly — apparently an insu- 
 perable difficulty. Boulton, with the shrewd sense of a 
 business man, then proposed to the miners to supply the 
 capital himself, on an arrangement to be allowed a roy- 
 alty of one-third of the value of the proved saving of 
 coal (which is dear in Cornwall), as compared with the 
 best of Newcomen's engines. The offer was accepted, 
 and Watt himself being the only man capable of checking 
 the operations of the machine of which he was the 
 inventor, repaired to Cornwall to superintend the work. 
 The superstitious Cornish people looked with a sort of 
 vague terror upon this monster workman, who toiled night 
 and day to deliver them from the terrible inundation. 
 The noise had a sort of fascination for them, and, as Watt 
 liumoi'ously said in a letter to his partner, " the people 
 seemed to be no more taken with modest merit in an 
 engine than in a man." Whether believers or not, the 
 
IXVCNTION AND DISCOVERY. 93 
 
 velocity, violence, magnitude, and liorrible noise, as 
 "Watt said of the engine, long continued to give unusual 
 satisfaction. Having on one or t^vo occasions trimmed 
 the engine to end its strokes gently and make less noise, 
 he found that the chief of the miners could not rest unless 
 the machine worked more furiously, and the inventor was 
 at length content to leave the matter to the engine-man. 
 Even here, Watt's inventive faculties did not sleep. He 
 devised a sort of meter to ascertain the saving effected, 
 which marked the number of strokes, and being enclosed 
 in a box could not be tampered with. The saving of 
 coal was soon found to be nearly three-fourths of the 
 quantity used with jSTewcomen's engine, or equal to a 
 saving on the Chacewater engine of £7,200 a year. The 
 success of "Watt's invention was now proved, and orders 
 for the new " fire engine " soon reached Soho. 
 
 THE DUKE AND THE INVENTOR. 
 
 The propensity of military men, even of the highest 
 genius, to cling to the ideas and fashions in which they 
 have been educated, was never better exemjilified than 
 by a correspondence which took place some years since 
 between the late Duke of "Wellington and Mr. Wright, 
 the inventor of certain improvements in percussion caps. 
 In 1S20, percussion fire-arms had already almost super- 
 seded the old flint lock ; but there were still some prac- 
 tical objections to the innovation which were readily 
 taken advantage of by the old-fashioned shots of that 
 
94 INVENTION AND DISCOVEKT. 
 
 day. The disadvantage of the detonating powder then 
 in use was that it qiiickly rusted the lock of the barrel, 
 that it was afiectcd by damp, and that the charcoal in 
 the gunpowder occasioned, the accumulation of dirt. In 
 that year Mr. Wright, who was an ardent sportsman as 
 well as an excellent chemist, was led to turn to prac- 
 tical account some experiments he had made with 
 fulminating mercury as far back as the year 1805, soon 
 after its discovery. He primed some caps with a prepa- 
 ration of this powerful detonator mixed with a solution 
 of benzoni, as a protection against damp, and quickly 
 found by experiment that the idea was valuable. After 
 many trials he wrote to the Duke of Wellington point- 
 ing out the advantages of the new substance, as being 
 free from damp, producing no rust, and being safer than 
 the old pi-eparation. In the same letter Mr. Wright 
 suggested the application of the principle of percussion 
 to ships' guns. The duke's reply was as follows : — " The 
 Duke of Wellington presents his compliments to Mr. 
 Wright, and has the honour to inform him, that the 
 application of fire by percussion to naval ordnance has 
 been considered by various committees of officers of the 
 Navy, and of the Artillery, each of which has decided 
 against it in every form. There are strong objections 
 to the use of the copper cap, mentioned by Mr. Wright, 
 which Mr. Wright has not taken into consideration." 
 
 The value of Mr. Wright's invention is now placed 
 beyond doubt. In 182o, he published a full account of 
 its process, and its superiority was soon afterwards 
 generally admitted ; but although subsequently adopted 
 by Government it never received any other official 
 recognition than is contained in the above letter. " I 
 
INVENTION AND DISCOVERT. 95 
 
 believe," says Dr. Wright, the son of the inventor, " that 
 the only business transaction which ever arose out of 
 the invention was an expenditure of money in stop])irio- 
 some attempts to pirate and patent the discovery." The 
 late Lord Dundonald, better known by the name of 
 Cochrane, under which he gained his dashing naval 
 victories, Avrote, after reading the correspondence above 
 alluded to: — 
 
 " Sir, — I thank you for your very interesting- 
 note, showing how the greatest characters may be led 
 to acquiesce in wrong conclusions (from mental indo- 
 lence) by trusting to ignorant, jealous, or interested 
 officials. I shall preserve your valued communication as 
 a testimonial to the fact, how difficult it is for merit to 
 obtain a fair hearing.— I am. Sir, your obedient servant, 
 
 "Dundonald." 
 
 Dr. Wright remarks that there is a great diffi)rence 
 between the style of these letters ; but it must not be 
 forgotten that the latter was written after the superiority 
 of the percussion principle had been ftdly demonstrated. 
 
 THE EAR TRUMPET. 
 
 The best kind of ear-trumpet, that useful invention to 
 which tlie deaf owe so much, was devised by Dr. Aruott, 
 the well-known scientific writer. Dr. Amott was tra- 
 velling by railway at night, when a window of the 
 carriage being accidentally left open, caused him an 
 inflammation of the throat, which, spreading upwards 
 
1)5 INVENTION AND DISCOVERY. 
 
 resulted in permanently dulling the sense of hearing. 
 Meditating upon a means of relieving himself in some 
 measure from this troublesome affliction, he observed 
 that persons whose hearing is good, will involuntarily 
 hold the concave hand to the ear when straining to catch 
 a distant sound. Finding how useful this assistance 
 was, and reflecting that many animals are endowed by 
 nature with the power of turning the ears in the direc- 
 tion of any sound, he procured two small wooden cups, 
 and joining them by a piece of wire, made an apparatus 
 which could be adjusted to the ears pretty nearly as a 
 pair of spectacles are fitted to the eyes. The result was 
 satisfactory, and he discovered further that, when pres- 
 sing these cups forward by the hands against the backs 
 of the ears, or keeping them so forward by a band cross- 
 ing in front, the useful effect was increased. The 
 well-known form of ear-trumpet, consisting of a long, 
 flexible tube, with a small trumpet opening, which the 
 afflicted person holds near the mouth of the speaker, is 
 a more powerful conductor of sound ; but all these con- 
 trivances are so inconvenient as to be frequently rejected. 
 It is to Dr. Arnott's happy observation of the habits of 
 men and animals that the deaf are indebted for an 
 insf.rument which can be worn at all times without any 
 more trouble or annoyance than is given by a pair of 
 spectacles. 
 
THE ORIGIN OF OUR CAST IRON 
 
INTENTION AND DISCOVERY. 
 
 THE OEIGIX OF OUR CAST-IRON. 
 
 ABRAHAM DAEBY AND THE SHEPHEKD-BOY SECHETLY 
 
 CASTING THE IRON POT. 
 
 The cast-iron whicU comes from the blast-furnace may, 
 from its useful quality of fusibility, be immediately used, 
 as every one knows, for manufacturing purposes by le- 
 raelting it and pouring it into moulds of any required 
 shape, this being the business of the ironfounder. Simple 
 as this appears, the use of cast-iron is only of modern 
 date compared with that of its purer rival. It may be 
 obscurely traced to the fifteenth century, if not earlier, 
 but the process of casting was beset with many mecha- 
 nical difficulties, which were not thoroughly vanquished 
 till about 1 TOO, when Abraham Darby, an intelligent 
 mechanic, who had brought some Dutch workmen to 
 establish a brass-foundry at Bristol, conceived that cast- 
 iron might be substituted for bi'ass, and prevailed upon 
 his workmen to make the experiment, but without 
 success, until a happy incident occurred in connection 
 with which Dr. Percy, in his great work on " Metal- 
 lurgy," relates an interesting anecdote. About this 
 period, a Welsh shepherd-boy, named John Thomas, 
 succeeded in rescuing a flock of his master's sheep from, 
 a snow-drift, and later in the spring of the same year, 
 during heavy rain and the melting of the snow, he 
 swam a river to fetch home a herd of mountain cattle. 
 These he collected and drove to the river ; but the ford 
 had now become a boiling torrent. lie nevertheless 
 crossed it on the back of an ex, and brought home the 
 ■whole herd in safety. As a reward for his courage, his 
 
 H 
 
y& INVENTION AND DISCOVERT. 
 
 master presented him with four of the sheep which he 
 had saved. He sold their wool in order to buy better 
 clothing for himself, and afterwards disposed of the 
 sheep, so that he might obtain money to travel to 
 Bristol and seek his fortune. Afraid of being pressed 
 for a soldier if found in Bristol out of place, as it was 
 then the time of the Duke of Marlborough's wars, he 
 requested his master to recommend him as an apprentice 
 to a relative, who was one of the partners of the cele- 
 brated Abraham Darby of the Baptist Mills. The boy 
 was accordingly sent into the brass -works until he 
 should procure employment. As he was looking on 
 during the trials of the Dutch workmen to cast iron, 
 he said to Abraham Darby that he thought he saw how 
 they had missed it. He begged to be allowed to try, 
 and he and Abraham Darby remained alone in the 
 workshop the same night for the purpose. Before 
 morning they had cast an iron pot. The boy Thomas 
 entered into an agreement to serve Abraham Darby and 
 keep the secret. He was enticed by the offer of double 
 wages to leave his master, but he continued nobly 
 faithful, and afterwards showed his fidelity to his 
 master's widow and children in their evil days. From 
 1709 to 1828 the family of Thomas were confidential 
 and much-valued agents to the descendants of Abraham 
 Darby. For more than one hundred years after the 
 night in which Thomas and his master made their suc- 
 cessful experiment of producing an iron casting in a 
 mould of fine sand, with its two wooden frames and 
 its air-holos, the same process was practised and kept 
 secret at Coalbrookdale with plugged keyholes and 
 uarred doors. 
 
INVENTION AND DISCOVERY. 99 
 
 ARNOLD THE WATCHMAKER, AND HIS FRIEND 
 BRfiGUET. 
 
 The notion that rivals in art are necessarily antagonistic 
 in feeling, was never more completely falsified than in 
 the case of the celebrated English watchmaker Arnold, 
 and his friend !M. Breguet — both famous in the annals 
 of horology for their useful inventions. A watch made 
 by Breguet fell into the hands of Arnold, who examined 
 it with delight and astonishmeut. The perfection of 
 the work, and the simplicity of the mechanism filled 
 him with admiration ; for as yet English watchmakers 
 had not been accustomed to esteem the labours of their 
 foreign brethren. Arnold knew nothing of the maker 
 but the name on the watch, and where he also read the 
 word " Paris ;" but with an enthusiasm for his art he 
 determined to set out for France immediately to make 
 Breguet's acquaintance. Arrived in Paris, he obtained 
 an interview, and a strong friendship immediafely arose 
 between the two watchmakers. As a proof of his love 
 and esteem for Arnold, Breguet desired him to take hi.s 
 son to England, and instruct him in their art. Arnold 
 was the inventor of those improvements known as the 
 compensation pendulum, the compensation escapement 
 and balance, and many other improvements in watches 
 and other timekeepers, especially chronometers, for 
 which he received several premiums from the Board of 
 Longitude. He was also the author of several tracts, 
 illustrative of the principles of his art. His wife was 
 a remarkable person, and is said to have rendered great 
 
100 INVENTION AND DISCOVERY. 
 
 assistance to her husband in his calculations. Their 
 son, John Roger Arnold, was also a man of considerable 
 ingenuity, and was the inventor, among other things, of 
 an expansion balance for chronometers. In the Patent 
 Museum, at South Kensington, is an interesting paint- 
 ing in oil, of a foniily group, representing Mr. Arnold 
 and his wife seated, with their son standing between 
 them, and listening to his father who is explaining the 
 construction of a chronometer which he holds in his 
 hand, 
 
 Breguet was perhaps even more eminent as an in- 
 ventor and practical watchmaker. Though not a 
 frenchman bj birth, Breguet had descended from one 
 of the numerous French Protestant families who were 
 compelled to fly from Prance, by the Edict of ISTantes. 
 He was born at Neufchatel, in Switzerland, and began 
 life as a simple workman : a fact which he never forgot ; 
 for it is said that when he became eminent, he was 
 always a firm friend to young men of his own trade, and 
 was enabled to assist many of them, from the warm 
 interest which he took in their welfare. At school, 
 Breguet had appeared remarkable only for dulness: 
 and there seems no doubt that he gave to his masters 
 the impression that he was deficient in intellect. His 
 iatlier-in-law, who was a watchmaker, undertook to 
 teach him that art, but Breguet showed at first no 
 i at Brest in it. It was not until the father-in-law, in 
 despair, had sent him to a watchmaker at Versailles, 
 t hat he began to apply himself seriously to the study of 
 the mechanism of watches. His apprenticeship ended, 
 the master expressed himself well satisfied with tke 
 industry and ])erseverance of the young Swiss work- 
 
INVENTION AND DISCOVERY. 101 
 
 man ; but Breguefc only replied, " Master, I have a 
 favour to beg of you. You have praised my industry, 
 but I know that, at least in the early part of my career 
 here, I did not employ my time to the best of my 
 ability. It will be a satisfaction to me to be allowed 
 to work three months more under you, without wages." 
 This request established a warm friendship beJ.ween the 
 master and the apprentice. The death of his father and 
 mother about this time compelled Breguet to labour 
 for the support of his sister ; but he nevertheless found 
 time to attend the course of lectures on mathematics, 
 delivered by the Abbe Marie, at the College de Mazarin, 
 and to obtain a knowledge which he considered indis- 
 pensable to the perfection of his art. When the French 
 Revolution began, Breguet had already founded the 
 manufactory which afterwards produced so many ad- 
 mirable specimens of watchmaking. It is a melancholy 
 fact that this first establishment was destroyed by the 
 revolutionary mob, while Breguet himself was com- 
 pelled to fly from the country with his son, and to re- 
 main abroad two years, during which time he was in- 
 debted to the assistance of friends for the means of 
 continuing the exercise of his profession. Happily, 
 Letter days arrived ; the revolution at an end, Breguet 
 returned to his adopted country, and opened a new 
 manufactory, where he grew in reputation, and became 
 more and more prosperous, until his death in 1823. An 
 eloquent French writer, in commenting on Breguet's 
 labours, observes, " Breguet brought all parts of his 
 art to perfection. ^Nothing can be more delicate, nor 
 more ingenious, than his detached escapement. He 
 invented also an escapement, called Natural, in whieli 
 
1U2 INVENTION AND DISCOVERT. 
 
 no oil is necessary, and in the mechanism of which 
 there is no spring. Another still better and finer in- 
 vention of Breguet is that of the duplex escapement, 
 which also dispenses with the necessity for oil. Por- 
 table marine watches or chronometers may without in- 
 jury experience any change of position, except that 
 (paused by the rolling of a vessel. Breguet conceived 
 the idea of enclosing the whole mechanism of the 
 escapement and the spring in a cylinder, which per- 
 forms a complete revolution every two minutes. 
 
 " Breguet also discovered a method of preserving 
 the regularity of his chronometers, even in case of their 
 being struck or experiencing a fall to the ground. 
 Such is the effect of his parachute. An English ob- 
 server, General Brisbane, possessing one of these chro- 
 nometers, subjected it to great trials by constantly wear- 
 ing it on horseback ; and during several long voyages, 
 in sixteen months the greatest variation was only a 
 second and a half, that is to say, the 57-600th part of a 
 diurnal revolution. 
 
 " At the time when Breguet obtained this great 
 result, adds M. Charles Dupin, the writer referred to, 
 the English parliament, with British generosity, had 
 offered a reward of two hundred and fifty thousand 
 francs to the artist who would make a chronometer for 
 ships, the daily variation of which should not exceed 
 two seconds. No one had gained this prize when Bre- 
 guet exceeded this limit, as above stated." 
 
IXVEXTIOX AND DISCOVERT. 103 
 
 THE INVENTOR AXD THE PIEATES. 
 
 The chief annoyance to which Watt was subjected after 
 his steam-engine had begun to attract attention arose 
 from the attempt of dishonest persons to pirate his in- 
 vention, and thus to rob him of the fruit of his lifetime 
 of toil and trouble. Watt had found that the best way 
 of obtaining continuous motion was by the crank. 
 " Not," Watt says, " in its simple form an original in- 
 vention." And he adds modestly, "the true inventor 
 of the crank rotative motion was the man, who unfortu- 
 nately has not been deified, who first contrived the 
 common foot kthe. The applying it to the engine was 
 merely taking a knife to cut cheese which had been 
 made to cut bread." 
 
 It happened that, while Watt and his partner Boulton 
 were constructing models for their. crank at Soho, a 
 number of their workmen were one Saturday evening 
 drinking their ale at a poor public-house culled the 
 "Waggon and Horses," in the village of Haudsworth, 
 near by. The nature of the models preparing at the 
 works was a secret which the men were expected not to 
 divulge ; but as the drink passed round, they became 
 talkative, and one of them named Cartwright — a man who 
 was afterwards hanged — began to talk boastfully of his 
 master's design ; probably urged on by a stranger among 
 the company, who, though in a workman's dress, might 
 easily have been detected as belonging to a superior 
 class. The man sat in a corner, and as soon as the 
 workmen began to talk freely, became silent and atteu- 
 
J 04 INVEKTIOX AND DISCOVERY. 
 
 tive, not only to every word of the conversation, but to 
 a rough sketch which Watt's workman, finding a piece 
 of chalk at liand, proceeded to make on the table. No 
 sooner had they gone than the assumed workman started 
 for Birmingham, and took post horses for London. A 
 few days later, Watt's crank motion was registered in 
 the patent office by a man named Wasborough. Watt 
 was extremely angry at the trick which had been played 
 him, and averred that Wasborough had stolen the in- 
 vention from him by the most infamous means ; but his 
 inventive genius helped him to defeat the fraud. In a 
 few weeks he devised his well-known " sun and planet 
 motion." This was unfortunately not the only occa- 
 sion on which the great inventor had suffered from the 
 roguery of plagiai-ists. When a young man, in his 
 little mathematical instrument shop in Glasgow, a pros- 
 perous London maker had impudently appropriated his 
 drawing machine. Another plagiarist had coolly appro- 
 priated his micrometer. His crank had now been lost 
 to him through the idle talking of one of his own 
 men. His property in the condensing engine itself, 
 which had cost him twenty years of anxiety and 
 labour, was threatened. The Cornish miners, whose 
 industry had been so enormously benefited by it, and of 
 whom Watt claimed only one-third of the money that he 
 undertook to save them, made artful excuses for evading 
 the fulfilment of their eno-acfement. "We have been so 
 beset with plagiai'ies," he wrote to a friend, " that, if I 
 had not a very good memory of my doing it, their im- 
 pudent assertions would lead me to doubt whether I 
 was the author of any improvement on the steam-engine, 
 and the ill-will of those we have most essentially served, 
 
INVENTION AND DISCOVERT. 105 
 
 whether such improvements have not been highly preju- 
 dicial to the commonwealth !" 
 
 Though Watt and his partner succeeded in their 
 lawsuits, they were nearly ruined by the expense of liti- 
 gation. During the last four years of their patent alone, 
 these expenses amounted to between five and six thou- 
 sand pounds. After one of the.se vexatious trials, " I 
 remained," says Watt, " nearly as much depressed as if 
 we had lost it. The stimulus to action was gone, and 
 but for the attentions of my friends I ran some risk of 
 falling into stupidity." Even after he had retired with 
 a very moderate fortune, that he might enjoy the quiet 
 for which alone he was fitted, he spoke of himself as in- 
 capable of any farther efforts, ascribing his prostration 
 to the vexation he had endured for many years from 
 this harassinnf lawsuit. 
 
 A QUICK DECISION. 
 
 The elder Brunei was habitually absent in society ; out 
 no man was more remarkable for presence of mind in 
 an emergency. Numerous instances are recorded ot' 
 this latter quality, but none more striking than that of 
 his adventure while in the act of inspecting the Bir- 
 mingham Kaihvay. Suddenly in a confined part of the 
 road a train was seen approaching from either end of 
 the line, and at a speed which it was diflicult to calcu- 
 late. The spectators were horrified ; there was not an 
 instant to be lost ; but an instant sufficed to the cxpe- 
 
106 INVENTION AND DISCOVERY. 
 
 rienced engineer to determine the safest course under 
 the circumstances. Without attempting to cross the 
 road, which would have been almost certain destruction, 
 he at once took his position exactly midway between the 
 up and down lines, and drawing the skirts of his coat 
 close around him, allowed the two trains to sweep past 
 him ; when, to the great relief of those who witnessed 
 the exciting scene, he was found standing untouched 
 upon the road. Without the engineer's experience 
 which enabled him to form so rapid a decision, there 
 can be no doubt that he must have perished. 
 
 BLUNDEES OF THE TELEGRAPHERS. 
 
 Before the telegraph operators became so expert as at 
 present, ludicrous blunders were of frequent occurrence 
 from the necessary ambiguity in transmitting one letter 
 at a time. An American manager of a telegraph com- 
 pany gives an instance as of recent occurrence upon the 
 line between Boston and New Tork. A gentleman sent 
 a despatch requesting parties in New York to forward 
 sample forks by express. When the message was deli- 
 vered it read thus. Forward sample for K. S. 
 
 The parties who received it replied by asking what 
 samples K. S. wanted ? 
 
 Of course the gentleman came to the ofl&ce and com- 
 plained that the despatch had been transmitted incor- 
 rectlj^ and the operator promised to repeat it. Accord- 
 
INVENTION AND DISCOVERY. l07 
 
 jngly he telegraphed the New York operator that the 
 despatch should have read, Forward sample forks. The 
 New York operator, having read it wrong in the first 
 instance, could not decipher it differently now. He 
 replied that he did read it, Sample for K. S., and so 
 delivered it. 
 
 " But," returned the Boston operator, " I did not say 
 for K. S. but f-o-r-k-s !" 
 
 " What a stupid that fellow is in Boston!" exclaimed 
 the New York operator. " He says he didn't say for 
 K. S., but for K. S." 
 
 The Boston operator tried for an hour to make the 
 New York operator read it forks, but not succeeding, 
 he wrote the despatch upon a slip of paper, and for- 
 warded it by mail ; and it remained a standing joke 
 upon the line for many months afterwards. 
 
 THE LAST DAYS OF JAMES WATT. 
 
 When Watt was in his seventy-fifth year, and long 
 after he had retired from business, he was consulted as 
 to a means of conveying water from a peninsula across 
 the river Clyde to engines at Dalmarnock, a problem of 
 great difficulty, and which baffled the scientific skill of 
 any other engineers that the Water Company had been 
 able to discover. Watt, who was above all things dis- 
 tressed by the fear of his mental faculties deserting him 
 in old age, and who had mastered the German lano-uat^e, 
 ■when an old man to test his memory, was not sorry for 
 
103 INVENTION AND DISCOVERY. 
 
 an opportunity of once more taxing his inventive facul- 
 ties. Tlie plan wliicb. he suggested was extremely 
 ingenious and altogether novel. The chief difficulty 
 was to adapt the pipes to the irregular bed of the river. 
 The peculiar formation of the tail of a lobster at once 
 suereested to the wonderful old man the solution of tLe 
 problem. Taking this for his model, he forwarded a 
 plan of a tube articulated in this peculiar manner ; a 
 sketch was executed, the pipes laid down, and the great 
 inventor had the satisfaction of hearing that his idea 
 had proved perfectly successful. Among other things 
 devised by Watt in the leisure moments of his grander 
 schemes Avere an arithmetical machine, a spiral oar for 
 the propulsion of ships, a steam carriage for use on com- 
 mon roads, a machine for copying letters, an instrument 
 for measuring the specific gravity of fluids, a regulator 
 lamp, a plan for warming buildings by steam, and a 
 machine for diying linen. To economize labour, or 
 save annoyance to the book-keeper in his country house, 
 the sailor in his ship, the traveller on the highway, the 
 clerk at his desk, the chemist in his laboratory, the 
 student by his lamp, or even the poor laundress in her 
 daily work were equally the objects of his busy mind. 
 
 "I remember," says a lady who knew him well, "a 
 celebrated Swedish artist having been instructed by him 
 that rats' whiskers make the most pliant painting- 
 brushes ; ladies would appeal to him on the best means 
 of devising grates, curing smoking chimneys, warming 
 their houses, and obtaining fast colours. I can speak 
 from experience of his teaching me how to make a 
 dulcimer and improve a Jew's-harp." The same lady 
 has given us an interesting sketch of Watt's personal 
 
INVENTION AND DISCOVERY. 109 
 
 appearance. " He ^Yas," she says, " one of the most 
 complete specimens of the melancholic temperament. 
 His head was generally bent forward, or leaning on his 
 liand in meditation, his shoulders stooping and his chest 
 falling in, liis limbs lank and nnmuscular, and his com- 
 plexion sallow. His utterance was slow and unimpas- 
 sioned, deep and low in tone, with, a broad Scottish 
 accent ; his manners gentle, modest, and unassuming. 
 In a company where he was not known, unless spoken 
 to, he might have tranquilly passed the whole time in 
 pursuing his own meditations. "When he entered a 
 room, men of letters, men of science, nay, military men, 
 artists, ladies, even little children thronged around 
 him.* 
 
 The last of all his inventions was his machine for 
 taking reduced copies of busts and statues. At 
 Steathfield, in Stafibrdshire, whither he had retired, he 
 had a small workshop adjoining his bedroom. Here he 
 spent usually the greater part of the day, attired in a 
 woollen suit, a leathern apron, and a rustic hat — the 
 same which he had worn when a humble workman forty 
 years before. He succeeded so avcII with his machines 
 as to produce specimens of his sculpture chiefly in the 
 shape of busts, which he distributed among his friends, 
 describing them as " the productions of a young artist 
 just entering his eighty-third year.'' It was upon this 
 machine that "Watt was engaged, working contentedly 
 at his " likeness lathe," as he termed it, when death put 
 an end to his busy career, and the unfinished machine 
 was left, standing a touching memorial of his departure. 
 
 • Autobiography of Mrs. Sclummelperininck. 
 
110 INVENTION AND DISCOVERT. 
 
 THE SECRET OF MAKING DOLLS' EYES. 
 
 How a Birmingham manufacturer learnt the secret of 
 making dolls' eyes, and how Birmingham came to be 
 extensively engaged in making these apparently trifling 
 but really important little articles was amusingly ex- 
 plained by Mr. Ostler, of that city, some years ago 
 before a committee of the House of Commons : — " A 
 respectable looking man in the city,'' says Mr. Ostler, 
 " asked me if I could supply him with dolls' eyes, and 
 1 was foolish enough to feel half offended ; I thought it 
 derogatory to my dignity, as a manufacturer, to make 
 dolls' eyes. He took me into a room quite as wide, 
 and, perhaps, twice the length of this committee room, 
 and we had just room to walk between stacks, from 
 the floor to the ceiling, of parts of dolls. He said, 
 ' These are only the legs and arms ; the trunks are 
 below.' But I saw enough to convince me that he 
 wanted me to make a great many eyes, and as the 
 article appeared quite in my own line of business, I said 
 I would take an order by way of experiment ; and he 
 showed me several specimens. I copied the order. He 
 ordered various quantities, and of various sizes and 
 qualities. On returning to my hotel, I found that the 
 oixler amounted to upwards of £500. I went into the 
 country and endeavoured to make them ; I had some of 
 the most ingenious glass-toy makers in the kingdom in 
 my service ; but when I showed it to them, they shook 
 their heads, and said they had often seen the article 
 before, but could not make it. I engaged them by 
 
INVENTION AND DISCOVERY. Ill 
 
 presents to use their best exertions ; but after trying 
 and wasting a great deal of time for three or four 
 weeks, I Avas obliged to relinquish the attempt. Soon 
 afterwards I engaged in another branch of business 
 (chandelier furniture), and took no more notice of it. 
 About eighteen months ago I resumed the trinket trade, 
 and then determined to think of the dolls' eyes ; and 
 about eight months since I accidentally met with a 
 poor fellow who had impoverished himself by drinking, 
 and who was dying in a consumption, in a state of great 
 want. I showed him ten sovereigns, and he said he 
 would instruct me in the process. He was in such a 
 state that he could not bear the effluvia of his own 
 lamp ; but though I was conversant with the manual 
 part of the business, and it related to things I was daily 
 in the habit of seeing, I felt I could do nothing from his 
 description (I mention this to show how difficult it is 
 to convey, by description, the mode of working). He 
 took me into his garret, where the poor fellow had 
 economized to such a degree, that he actually used the 
 entrails and fat of poultry from Leadenhall market to 
 save oil (the price of the article having been lately 
 so much reduced by competition at home). In an 
 instant, before I had seen him make three, I felt com- 
 petent to make a gross." 
 
 Mr. Ostler afterwards became a large manufacturer 
 of these articles. 
 
112 INVENTION AND DISCOVKRT. 
 
 THE "SPINNING JENNY" AND THE "MULE." 
 
 James Hakgreayes, -who has been called " one of the 
 martyrs of scientific industry," invented the spinning 
 jenny in 1767, a most original device, differing widely 
 from the -water frame of Arkwright. It was while 
 working as a poor weaver in a factory near Blackburn, 
 that he first conceived his idea of making a machine 
 which would spin more threads than one at a time. 
 But no sooner had he completed it than the persecution 
 of his fellow- workmen compelled him to leave his native 
 place. Fortunately, some of his jennies, which he had 
 sold, escaped the fury of the mob ; the importance of 
 the invention was demonstrated, and its use rapidly 
 extended. It was on one of these machines, only two 
 years after their invention, that Samuel Crompton, then 
 a youth of sixteen, spun with eight spindles the yarn 
 which he afterwards wove into quilting. The history 
 of Crompton's invention is still more romantic. 
 Strongly interested in the beautiful devices for saving' 
 labour, which he had daily under his eye, the young 
 man's mind turned constantly to the idea of still further 
 improvements ; and it was in 1774, when twenty-one 
 years of age, that he made the fix'st step towards putting 
 these notions in practice by constructing anew spinning 
 machine, which was finally known as the " mule," it 
 being a kind of cross between Arkwright's machine and 
 Hargreavesjenn}'. It was at first called the "muslin 
 wheel," and the " Hall i' th' Wood wheel," from the 
 house in which Crompton lived, and in which he in- 
 
INVENTION AND DISCOVEKT. 113 
 
 vented it. Never did a poor cotton-spinner inhabit a 
 more romantic dwelling. It was a noble old mansion, 
 with many gables and twisted chimneys, and ornamen- 
 tal woodwork let into the external plaster. This rather 
 dilapidated house had been the residence of an old 
 wealthy Lancashire family, and when Crompton lived 
 there in his childhood, was surrounded by ancient oaks 
 standing in a beautiful landscape. In a corner of this 
 poetical home Crompton lived. It cost him five years 
 to perfect his idea of the mule, working in secret, and 
 without sympathy or aid, and generally in the night 
 time when his day's labour at weaving was done. This 
 midnight work, the strange sounds occasionally heard in 
 the large upper room of the house, and the lights seen 
 glimmering through the old lattice-framed casements, 
 far into the night, spread the rumour that the old man- 
 sion was haunted ; but when it became known that the 
 cause of all this was the young weaver who was work- 
 ing Avith bits of wood and iron, they pointed at 
 Crompton as lie went along as the " conjuror." His 
 machine exhausted every penny he could spare from his 
 scanty earnings ; and to help him in getting tools he 
 had to hire himself with a violin, on Avhich he taught 
 himself to play tolerably well, to perform in the 
 orchestra at the Bolton theatre, where he received 
 eighteen pence a night. 
 
 The old trouble of inventors — machinery riots — soon 
 came to teach him the danger of attempting to benefit 
 his fellows by ingenious devices for shortening labour. 
 The cry ev^erywhere was "Men, not machines!" and the 
 terror of tliis movement reached the poor weaver in his 
 lonely dwelling. He was compelled to take his 
 
 1 
 
114 INVENTION AND DISCOVERY. 
 
 machine to pieces and hide it in a garret near the old 
 hall. It was not until some time after this stcrrj. had 
 blown over that he ventured to bring out the pieces, 
 and fit them together again ; but from that time its suc- 
 cess was established, and he began to reap the profits of 
 his ingenuity. Misfortune, however, in some shape, 
 always pursued him. Every one succeeded better with 
 Crompton's mule than Crompton himself. Robert Peel 
 made mules in his own factory, and entered into competi- 
 tion with the inventor ; but it is stated he offered Cromp- 
 ton a place of trust in his establishment, and even a 
 partnership, which the pride and independence of the 
 latter led him to refuse. Mr. Dale, of Lanark, turned the 
 mules with water, and increased their power gi'eatly. Ark- 
 wright used them in his manufactories, and doubled his 
 wealth, leaving a colossal fortune to his children. But 
 Crompton lived at Oldham in comparative poverty ; yet 
 the country owed him much. 
 
 In 1812, when Government assigned him five thou- 
 sand pounds, as a national reward, the duty paid by 
 cotton, imported to be spun on his machines, came to 
 more than one thousand pounds a working day. 
 
 THE ORIGINAL SEWING MACHINU!. 
 
 In the year 1841, Elias Howe, a native of Cambridge 
 Port, Massachusetts, first conceived the idea of con- 
 stru'iting a really practical sewing machine. I know 
 
INVENTION AND DISCOVERT, 115 
 
 of no higher example of patient industry and perseve- 
 rance, indeed, I may saj, of devotedness to science 
 (says ]\Ir. Alexander, to whose interesting paper recently 
 read before the Society of Arts we are indebted for these 
 particulars), than that displayed by Howe in his early 
 career. A young mechanic, only twenty-two years of 
 age, hardly capable of supporting himself and those 
 most dear to him on his scant earnings, he laboured 
 manfully in a Httle garret in his native town at his self- 
 imposed task during the few houi*s that were spared to 
 him after the ordinary labours of the day were ended. 
 He became enthusiastic, and although, as he says, he 
 coulil not devote his attention to the subject during his 
 working hours, he thought upon it when he could, both 
 day and night. It grew upon him till he felt impelled 
 to yield his whole time to it, and being promised assist- 
 ance by a friend, he devoted himself exclusively to the 
 construction and practical completion of his machine. 
 The result was that in 18-45 he pei'fected his first sewing 
 machine, and in order to test its practical success, he 
 sewed with it all the principal seams in two suits of 
 clothes. On the 10th of September, 1846, he obtained 
 his patent. 
 
 In Howe's original machine, a curved needle 
 attached to the end of a vibrating lever was combined 
 with a reciprocating shuttle for producing the lock- 
 stitch. The needle had an eye near its point, and a 
 groove formed along the upper and under sides, to 
 allow of the thread lying therein, and so passing more 
 easily through the cloth. The cloth was attached to 
 pins on the edge of a thin steel rib called a " baster 
 plate," probably firom the fact of its serving the purpose 
 
116 INVENTION AND DISCOVERY. 
 
 r\f a basting thread in holding the two thicknesses of 
 material together whilst being stitched. This plate 
 formed a portion of the feed mechanism for propelling 
 the cloth ; it was carried along step by step by the 
 teeth of a small pinion which geared into holes made 
 in the baster plate, an intermittent rotatory motion 
 being imparted to the pinion by self-acting mechanism 
 working in concert Avith the needle and shuttle. This feed 
 motion was found to be defective in many respects, and 
 has since been entirely abolished in all sewing machines. 
 The cloth was held in a vertical position against the 
 side of the shuttle race, by a spring presser- plate, at the 
 part where the needle entered. The shuttle was driven 
 to and fro in its race or groove by two strikers, carried 
 on the ends of vibrating arms worked alternately by 
 "cams." The most important featui'es embodied in this 
 machine were the adaptation of contrivances for giving 
 the requisite tension to the needle and shuttle-threads, 
 for taking up the slack formed on the needle thread 
 Avhen the needle enters the cloth, for tightening and 
 drawing up the stitch, and for supporting the cloth 
 against the thrust and withdraAval of the needle. 
 Shortly after obtaining his patent in America, Howe 
 sent over a machine to this country, and disposed of 
 his invention to Mr. William Thomas for a tritlino- 
 
 o 
 
 amount. 
 
 Shortly afterwards, Mr. Thomas obtained a patent 
 for the machine in England, soon after Avhich Howe 
 hmiself arrived here to assist him in adapting the 
 machine to the peculiar kind of work required, namely, 
 stay-making. Howe does not appear to have prospered 
 here, for in the spring of 1810, indebted to a friend for 
 
IXVEXTIOX AND DISCOVERT. 117 
 
 a steerage passage home, he returned to America, poorer 
 if possible than -when he left. He found his wife on a 
 bed of sickness and in a state of utter destitution. Ten 
 days after his arrival she died. Dui"ing his absence in 
 England his patent had been extensively infringed, but 
 in 1850 he commenced legal proceedings, and succeeded 
 in every case in establishing the validity of his patent. 
 
 In the course of these proceedings a prior claim to 
 the invention of the sewing machine was set up by 
 "Walter Hunt, who was said to have constructed, 
 exhibited, and sold, in 18o4! and 1835, shuttle or lock- 
 stitch sewing machines, similar in all essential particulars 
 to Howe's. There is no doubt that Hunt had tried his 
 hand at a lock-stitch sewing machine, and was the 
 inventor of the shuttle or lock-stitch, but it was never 
 satisfactorily proved that such machines were so far 
 perfected as to render them more than abortive experi- 
 ments. The turning point in Howe's career had now 
 arrived, and fortune soon began to smile upon him. In 
 1853 he granted his first licence, and in 1855 was 
 enabled to regain possession of the whole of his patent, 
 which at one period he had entirely disposed of, in order 
 to meet the pressing demands that were made upon 
 him. His patent rights are now finally acknowledged, 
 and his patent being prolonged for a term of seven 
 years, he receives a royalty from every sewing machine 
 established in America, from which he is said to derive 
 an income of upwards of fifty thousand pounds per 
 annum. 
 
118 INVENTION AND DISCOVERT. 
 
 THE SAFETY LAMP AND ITS INVENTOK. 
 
 The year 1815 was rendered memorable by the inven- 
 tion of the safety lamp. The process by which its 
 inventor advanced to the discovery is curious and 
 instructive. First, he ascertained, by full and exact 
 inquiries, all the facts of the case as known to the 
 miners. Secondly, he proceeded to learn more fully the 
 properties of the agent which he was to attempt to 
 control. What is this fire-damp ? He analyzed it and 
 found it to be, as other chemists had said, a variety of 
 carburetted hydrogen gas. The next question was ; 
 what will kindle it ? A red-hot iron will not ; a burn- 
 ing coal will not. It therefore requires a higher degree 
 of heat to inflame it than most other explosive gaseous 
 mixtures. And here an important inference met him — 
 that if the gas, when on fire, were cooled, it would be 
 extinguished. Again, carburetted hydrogen, by burn- 
 ing, produces carbonic acid, and the atmospheric air 
 with which it is mixed in the explosive compound pro- 
 duces nitrogen ; and each of these products, added to 
 the explosive mixture, impairs, or even destroys its 
 power of exploding; and, therefore, since these rise 
 from a burning lamp, they would of themselves prevent 
 the communication of the flame through the open 
 chimney of the lamp. His next inquiry was — Under 
 what circumstances does the fire-damp burn with 
 explosion ? The general reply is, when mixed with air ; 
 but experiments were instituted to ascertain the efiect 
 of il'frcrpTit proportions of air. One part of fire-damp, 
 
I2fV£NTI0N AND DISCOVERY. 11 G 
 
 and any portion of air less than four parts, burnt with- 
 out explosion ; seven or eight of air to one of the other, 
 constituted the most highly explosive mixture. In 
 fifteen of air to one of fire-damp a lamp burnt without 
 explosion, and with the flame greatly enlarged. Davy 
 now came to the question. Through what channels (if 
 there be any) between two separate portions of these 
 explosive mixtures will the flame, when applied to one 
 of them, refuse to pass the other ? Will it pass through 
 a tube ? This brought him to the grand discovery ; for 
 it appeared, that the flame of the most explosive mixture 
 would not pass through a small tube ; that the com- 
 munication was more easily prevented, in proportion as 
 the tube was of a better conducting substance, and, 
 therefore, operated by cooling the flame below the 
 point of kindling. The problem, therefore, was only 
 how to suri'ound a lamp with a transparent envelope, 
 communicating with the surrounding air by metallic 
 tubes, in order that the air might enter freely to feed 
 the lamp, while the flame would not be communicated 
 to the surrounding atmosphere, in the naost explosive 
 state in which it ever could exist in a coal mine. Sub- 
 sequent experiments proved, that in case the diameters 
 of the tubes were very small, their lengths might be 
 diminished to mere apertures ; and hence it was only 
 necessary to surround the lamp with wire gauze, and 
 the air would enter freely to supply the lamp, while the 
 flame could not pass through the apertures of the gauze. 
 Some friends having spoken of Davy in the highest 
 terms to Count Rumford, the latter was induced to 
 enter into a negotiation, for the purpose of engaging 
 the young chemist as a lecturer at the Royal Institution. 
 
120 INVENTION AND DISCOVERT. 
 
 This occurred in 1801, and in February, as appears by 
 the following extract from the minute-book, he was 
 engaged :—" Monday, Feb. IG, 1801. Eesolved, that 
 Mr. Humphry Davy be engaged in the service of the 
 Royal Institution, in the capacities of assistant lecturer 
 in chemistry, director of the laboratory, and assistant 
 editor of the journals of the institution ; and that he 
 be allowed to occupy a room in the house, and be fur- 
 nished with coals and candles, and that he be paid a 
 salary of one hundred guineas per annum." 
 
 From that period, his fame and popularity constantly 
 increased. His brother tells us, that he was in the 
 habit of receiving letters of the most laudatory nature, 
 many written by females, who regarded him with gi'eat 
 admiration. There is an entertaining anecdote illustra- 
 tive of his popularity, even among the more humble 
 classes. He was passing through the streets one fine 
 night, when he observed a man showing the moon 
 tlirough a telescope. He stopped to look at the earth's 
 satellite, and tendered a penny to the exhibitor. But 
 the latter, on learning that his customer was no less a 
 person than the great Da^'y, exclaimed with an impor- 
 tant air, that " he could not think of taking money from 
 a brother philosopher." Correspondents addressed 
 him from all parts. A letter sent to him from Italy 
 reached him safely, though it only bore the mysterious 
 superscription : — 
 
 SiROMFREDEVI, 
 
 LONDRA. 
 
INVENTION AND DISCOVERT. 121 
 
 Davy was no less remarkable for bis courtesy to 
 strangers tban for bis modesty of demeanour. Althougli 
 be was attticked at various times by Gay Lussac and 
 Thenard, by Murray, Berzelius, and otber rivals, be 
 appears never really to bave lost bis temper. Wbcn be 
 bad occasion to allude to bis own discoveries, be always 
 spoke of tbem as tbings wbicb be bad bad tbe good 
 fortune to discover. Wben circumstances required tbe 
 application of a new name, as tbat of cblorine, bis 
 account of tbe matter was, " after consulting several 
 eminent men I bavc ventui-ed to propose tbis name." 
 
 INVENTION OF EEVOLVING FIEE-ARMS. 
 
 It is not mucb more tban eigbty years ago since 
 Benjamin Franklin gravely recommended his fellow 
 countrymen, tben at Avar witb King George's troops, 
 to return to tbe use of tbe very weapons wbicb were 
 employed by Isbmael tbe son of Abraham. Bows and 
 arrows, he said, were very good arms, and not wisely 
 laid aside : first, because a man may shoot as truly witb 
 a bow as with a common musket ; secondly, because be 
 can discbarge four arrows in tbe time of charging and 
 discharging one bullet ; thirdly, because his object is 
 not obscured from bis view by tbe smoke of bis own 
 comrades; fourthly, because a flight of arrows seen 
 coming upon them terrifies and disturbs the enemy's 
 
122 INVENTION AND DISCOVERY. 
 
 attention to his business; fifthly, because an arrow 
 sticking in any part of a man. disables him until it is 
 extracted ; and sixthly, because bows and arrows are 
 more easily provided everywhere than muskets and 
 ammunition. Indeed, the struggle between bows and 
 guns was long, and at one time seemed doubtful. 
 Thirty thousand Frenchmen fell at Crecy, mostly 
 pierced by the arrows and bolts of the English and of 
 their Genoese auxiliaries ; and old French chroniclers 
 attest the terror and confusion which the English 
 archers always produced in the enemy's ranks. 
 
 It is only within a few years past that portable fire- 
 arms have ceased to be so clumsy and inefiicient as 
 almost to justify Franklin's preference for the old 
 English bow. It has been said that each soldier in our 
 wars cai-rying the old musket fired away his own weight 
 in lead for every man of the enemy whom he wounded ; 
 and in the desultory warfare at Cape Colony, it was 
 calculated that every wounded Caffi'e represented an 
 expenditure of three thousand two hundred balls. So 
 little was the musket dreaded by these savages that it 
 was long a favourite sport with them to provoke sentries 
 or small bodies of troops to fire upon them, and then 
 rushing forward, to wrench their muskets from their 
 hands; and so obvious were these tactics that the 
 Indians in Texas, without knowing anything of the 
 Caffres, treated their white enemies in the same way. 
 It was in this country that the necessity for improved 
 fire-arms was perhaps more strongly felt than in any 
 other part of the world. 
 
 The prairie tribes of Texas ride with boldness and 
 wonderful skill. They are so dexterous in discharging 
 
INVENTION AND DISCOVERY. 123 
 
 arrows from the bow, that a single Indian, galloping at 
 full speed, is capable of keeping- an arrow constantly i)i 
 the air between himself and Ins enemy. The American 
 borderers have become hardy, self-reliant, and super- 
 abundantly warlike, from the necessity of maintaining; 
 their footing against such undaunted and skilful foes. 
 Their Virginia bear-rifles and double-barrel rifles were 
 an improvement ; but the first had no advantage exce])t 
 its long range and spinning ballet; and the latter, 
 although valuable for giving two chances instead of 
 one, was very heavy, difficult to aim with, and, when 
 once discharged, took as long to reload as two muskets. 
 They were taught early that their great countryman's 
 preference for the oldest weapon in the world, over the 
 latest improved fire-arms of his days, was not so para- 
 doxical as it seemed. They must many a time have 
 envied the Indian his rapid and continuous discharge, 
 and wished for a gun that would fire many balls without 
 reloading. 
 
 Such weapons had been attempted long before in 
 Europe, and abandoned as impracticable. There are in 
 the Armourj'^ of the Tower of London several guns of 
 Indian make and of very beautiful workmanship, which 
 are known to be as old as the fifteenth century. These 
 guns are in principle precisely the same as the guns and 
 pistols now known as revolvers, or repeating fire-arms ; 
 but they have serious defects. They are liable to ignite 
 all the charges at once, and seem to have been abandoned 
 for practical warfare as dangerous or useless. No 
 treatises spoke of them, though there were similar speci- 
 mens of British and French manufacture in the United 
 Service Museum, and at the Rotunda at Woolwich ; at 
 
124 TXVENTION AND DISCOVERY. 
 
 Warwick Castle, and at the ]\Iusee d'Artillerie, and the 
 Hotel Cluny in Paris. Even when Elisha Collier, an 
 American gunsmith, in the year 1818, discovered the 
 same principle, he fell into the very errors which earlier 
 gunmakers had already remedied. Another American 
 gunsmith in the following year patented a revolver, 
 which was also found to be impracticable. 
 
 Colonel Colt is believed to have been the first in- 
 ventor of a really available repeating pistol. Ignorant, 
 as he declares himself to have been, of all previous 
 L'.ttempts of the kind, and having an imperfect know- 
 ledge of mechanics, he had thought as early as the year 
 1829 of the possibility of making a pistol that might be 
 fired many times without reloading. Living, he says, 
 in a country of most extensive frontier, still inhabited by 
 aborigines, and knowing the insulated position of the 
 enterprising pioneer, and his dependence sometimes 
 alone on his personal ability to protect himself and his 
 family, he had often meditated upon the inefficiency of 
 the ordinary double-barrelled gun and pistol; botli 
 involving a loss of time in reloading, which was fre- 
 quently fatal in the peculiar character of Indian Avar- 
 fare. When a youth, indeed, returning I'rom a voyage 
 to India, he had amused himself on board the vessel in 
 constructing a model of his idea in wood, burning out 
 the bores with hot iron. His first device was that 
 bundle of barrels, well known in the windows of the 
 London gunsmiths, and which is merely a multiplied 
 double barrel. But, in 1835 — about the time when Her 
 Majesty's Board of Ordnance were beginning to hear of 
 percussion caps, invented thirty years previously — 
 Colonel Colt patented in the United States a pistol on 
 
INVENTION AND DISCOVERT. 125 
 
 the principle of a rotating cylinder breecli, and a single 
 barrel — a far more simple and beautiful invention, 
 •which under several modifications is now in use. 
 
 INTRODUCTIOX OF GUTTA-PERCHA. 
 
 The success of the submarine telegraph, -which was 
 first demonstrated in 18-51, when the deep sea cable was 
 laid down in the English Channel between Dover and 
 Calais, entirely depended upon a single point. No 
 submarine cable could be used for telegraphic purposes 
 until its insulation was rendered perfect. Only one 
 material was known to possess this insulating property, 
 as being at the same time indestructible by water, and 
 a bad conductor of electricity. This substance was 
 gutta-percha, now so well known to every one in an 
 infinite variety of forms, but which only twenty years 
 ago had scarcely been heard of It was in 1842 that 
 Dr. Montgomery, an assistant surgeon to the Residency 
 at Singapore, sauntered out one day in the neighbour- 
 hood of that city. His attention was attracted by a 
 native woodcutter at his work, and the doctor was 
 struck by the appearance of the hatchet which the man 
 was using. It seemed to be both strong and flexible, 
 and did not resemble any substance which the doctor 
 had ever seen employed for that purpose. On question- 
 ing the man, he learnt no more than that the mysterious 
 material could be made into any form by dipping it into 
 
126 INVENTION AND DISCOVERY. 
 
 boiling water till it was heated through, when it became 
 plastic as clay, regaining, however, when cold, its 
 original hardness and rigidity. Struck by these facts, 
 Dr. Montgomery inquired further, and soon discovered 
 what he had suspected, that gutta-percha, like india- 
 rubber, was a gummy substance which oozed out from 
 between the bark and the wood of certain forest-trees, 
 and that it could be had in great abundance. The 
 great utility of such a substance in the arts at once 
 presented itself to his mind. He obtained specimens in 
 various stages of preparation, and sent them to the Society 
 of Arts in London. The Society subsequently conferred 
 a gold medal upon Dr. Montgomery. But the suljstance 
 had already been seen in Europe. Even as early as the 
 time of Charles L, the well-known botanist, Tradescant, 
 hal brought hither a specimen of this curious product, 
 under the name of Mazer wood, and it had subsequently 
 been often brought to Europe under the general name 
 of india-rubber, in the form of elastic whips, sticks, etc.; 
 but had never attracted much attention. It was in the 
 year 1844 that two hundred- weight of this new article 
 of commerce was shipped as an experiment from 
 Singapore. The exportation rapidly increased. In the 
 first four years and a half of the trade, 21,598 piculs of 
 gutta-percha, each picul weighing about 133 pounds, 
 were shipped at Singapore, the whole of which were 
 sent to England, with the exception of 15 piculs to the 
 Mauritius, 470 to the Continent of Europe, and 922 
 to the United States. 
 
 But this rapid growth of the new trade conveys 
 only a faint idea of the commotion it created among 
 the native inhabitants of the Indian Archipelago. 
 
INVENTION AND DISCOVERY. 127 
 
 The jungles of the Johore were the scenes ot tlie 
 earliest gatherings, and thej were soon ransacked in 
 every direction by parties of Malays and Chinese, while 
 the indigenous population gave themselves up to the 
 search with a unanimity and zeal only to be equalled by 
 that which made railway jobbers of every man, woman, 
 and child in England about the same time. The know- 
 ledge of the article stimng the avidity of gatherers, 
 gradually spread from Singapore northward as far as 
 Penang, southward along the east coast of Sumatra to 
 Java, eastward to Borneo, where it was found at Brune, 
 Sarawak, and Pontianak on the west coast, at Keti and 
 Passer on the east. 
 
 A boat made of the new substance was constructed 
 for the expedition fitted out by Lady Franklin some 
 years ago, to search for her brave husband and his 
 comrades in the arctic regions. As was anticipated, it 
 proved to be remarkably adapted for use in the ice. 
 The gutta-percha boat belonging to the " Prince 
 Albert " was under the charge of Mr. Snow, who has 
 given an interesting account of the services which it 
 rendered to the expedition. "Whilst the other boats 
 constructed of wood suffered much by the cutting of the 
 young ice, the gutta-percha boat was found to be not in 
 the least damaged, and returned to England in almost 
 as good a condition as when it left, although it had 
 performed all the rough work of the voyage. Mr. Snow 
 adds : — 
 
 " The severest trial it endured, and endured success- 
 fully, was on both my visits to Whaler Point, Port 
 Leopold. To those unaccustomed to the nature of sucL 
 ife as was there met with, it will be impossible fully t 
 
128 INVENTION AND DISCOVERT, 
 
 conceive the position a boat was placed in. The mere 
 transit to and fro, among loose masses of ice, with the 
 sea in a state of quiescence, would have been quite 
 enough to have proved the value of gutta-percha 
 boats ; but when, as in the present case, those masses 
 were all in restless agitation, with a sea rolling in upon 
 an opposing current, it might have been well excused — 
 and without deteriorating from the previotisly attested 
 goodness of the article — if it had not been able to have 
 resisted the severe shocks it received. ..... Sliding 
 
 through and over the ice — sometimes lifted completely 
 out of the water by the sudden contact of a restless floe, 
 and at others thrown sideways upon an adjoining craggy 
 piece — I think it would have been next to impossible 
 for any other kind of boat to have been otherwise than 
 crnslied or stoved in on the instant." 
 
 It was in commemoration of these facts, that the 
 liardy explorers gave the name of " Gutta-Percha 
 Inlet " to the chief scena of the gallant little boat's 
 adventures. 
 
INVENTION AND DISCOVERT 12i> 
 
 JENNEK, AND THE DISCOTEKY OF YACCINATION. 
 
 More tlian fifty years before .Tenner commenced the 
 inquiries which led to his great discovery, an immense 
 benefit had been conferred on mankind by tlie intro- 
 duction into England of the system of inoculation, or 
 ingrafting, as it was then called, which consisted iu 
 communicating the small-pox itself to the patient almost 
 in the same wa\^ as the cow-pox is communicated under 
 Jeuner's system. It is difficult now to imagine the 
 ravages committed by this fearful disease before these 
 great discoveries. In Russia alone the small-pox is said 
 to have swept away two millions of lives in a single 
 year. In the family of an English nobleman. Lord 
 Petre, during the last century, eighteen individuals 
 were found to have died of this complaint during 
 twenty-seven years. So fatal was tlie disease, that it 
 was found at the Small-pox Hospital, where the most 
 careful treatment was resorted to, that one in seven at 
 least of the patients died under it, while a large pro- 
 portion were in some way permanently afflicted by its 
 destructive influence. In the London Asylum for the In- 
 digentBlindjit was stated that three-fourths of the objects 
 there relieved had lost their sight through small-pox. 
 
 Inoculation had long been resorted to as a preven- 
 tive in Eastern countries, and was introduced here by 
 the celebrated Lady Mary Wortley Montagu, in 1721, 
 after her return from Turkey, whither she had accompa- 
 nied her husband, then Ambassador from Great Britain. 
 It is said that a similar practice had prevailed in some 
 
1.30 INVENTION AND DISCOVERT. 
 
 counties of England, under the singular name of " buy- 
 ing the small-pox;" but it was at least considered so 
 strange in London, that even after this remarkable lady 
 had boldly tried it upon her two children, none but 
 criminals, induced by an offer of pardon, could at first 
 be found to submit to it. It was in August, 1721, that 
 Dr. Maitland, in the presence of several eminent phy- 
 sicians and surgeons, performed this experiment upon 
 three women and three men, all of whom had been con- 
 demned to death. The fact that these persons were 
 found to receive the disease in a comparatively mild 
 form — all of them recovering in a short time- — led to 
 further experiments ; and in the following year, the 
 Princess of Wales, afterwards Queen Caroline, wife of 
 George II., determined that her two children, the Prin- 
 cesses Amelia and Caroline, should undergo the operation. 
 All these trials having proved remarkably successful, 
 the practice began to extend ; but a number of cases 
 soon afterwards terminating fatally, it received a serious 
 check, and never became general. 
 
 According to Jenner's own account, it was some time 
 before the year 1776, and therefore probably while he was 
 practising as a surgeon and apothecary in his native village 
 of Berkeley, in Gloixcestershire, that he first began his 
 inquiries into the nature of cow-pox ; but long before 
 this his attention had been called to the subject of the 
 supposed effect of cow-pox in giving immunity from the 
 more dangerous disease. Jenner, who was the son of 
 the Vicar of Berkeley, had been apprenticed to a 
 surgeon named Ludlow, at Sudbury, a little village 
 near Bristol ; and it was here that he was one day called 
 upon to give medical advice to a young countrywoman, 
 
INVEXTIOX AND DISCOVEKT. 131 
 
 ■\vIio doubtless filled the place of dairymaid at a farm in 
 the neighbourhood. Having casually mentioned in her 
 presence the subject of the small-pox, the young woman 
 immediately remarked, " I can't take that disease, for I 
 have had cow-pox." Further inquiry showed that this 
 was a popular notion in that part of the country ; and 
 although it was regarded by the medical profession as 
 only a vulgar belief, it was too suggestive to be lost 
 sight of by the surgeon's apprentice. He well knew 
 that an eruption, chiefly showing itself on the hands of 
 dairymaids who had milked cows similarly disordered, 
 had attracted attention forty or fifty years before ; and 
 when he had settled down to practice as a country 
 apothecary, he noticed that among those whom he was 
 called on to inoculat-e in farm-houses, many resisted 
 every effort to give them the smaU-pox. These patients, 
 he found, had all been accustomed to milk cows, and 
 had undergone the disease called cow-pox. His path, 
 however, was still beset with difficulties. Few sympa- 
 thized with him in an inquiry into what appeared to be 
 merely an idle notion of the ignorant ; and most persons 
 regarded the idea of communicating to a human being 
 a disease peculiar to a brute, as revolting, or even im- 
 pious. Even the great John Hunter, in whose house 
 Jenner, when a young man, had resided two years, paid 
 little attention to the suggestion ; and at a country 
 medical club, of which Jenner was a member, the mem- 
 bers denounced the whole topic as a nuisance, and 
 sportively threatened to expel the orator, if he continued 
 to harass them with his importunate discourse upon 
 his favourite notion. These obstacles, however, would 
 have been trifling, if the subject itself had not been 
 
lo2 INVENTION AND DISCOVEUV. 
 
 complex and intricate. He found, to his bitter dis- 
 appointment, that numbers of those who seemed to have 
 undergone the cow-pox, nevei'theless, on inoculation 
 )inderthe old system introduced by Lady Mary Wortley 
 Montagu, suffered from small-pox just the same as if no 
 ilisease had been communicated to them from the cow ; 
 ;ind all the medical practitioners in the country around 
 him assured him that the cow-pox could not be relied 
 on as a preventive. " This for awhile," says Jenner, 
 " damped, but did not extinguish my ardour." Patient 
 inquiry gradually led him to the truth, that the virus of 
 the cow-pox underwent progressive changes, in the later 
 of which it had so lost its specific property, that although 
 it was capable of powerfully affecting the human body, 
 it afforded no protection from attacks of the more 
 serious disease. 
 
 Jenner's task was now simple. During his investi- 
 gations into the nature of casual small-pox, he was 
 naturally struck with the idea that it might be prac- 
 ticable to propagate the disease by inoculation, first 
 from the cow, and finally from one human being to 
 another. He anxiously waited for some time for an 
 opportunity of putting this theory to the test. The 
 first person ever vaccinated was a lad of eight years old, 
 named James Phipps, in whose arm was inserted some 
 of the virus, taken from the arm of a young woman who 
 had accidentally become infected while milking a cow. 
 On inoculating the same lad some months afterwards, 
 Jenner found, to his great joy, that no effect could bt- 
 produced — that, in fact, it was impossible to communi- 
 cate to his patient the small-pox. "While the vaccine 
 discovery was progressive," sa^'S the great and good 
 
INVENTION AND DISCOVERT. 133 
 
 Jenner, " the joy I felt at the prospect before me of 
 being the instrument destined to take away from the 
 world one of its greatest calamities, blended with the 
 fond hope of enjoying independence and domestic peace 
 and happiness, were often so excessive, that in pursuing 
 my favourite subject among the meadows, I have some- 
 times found myself in a kind of reverie. It is pleasant 
 to me to recollect that those reflections always ended in 
 devout acknowledgments to that Being from whom 
 this and all other blessings flow." 
 
 Jenner published the account of his discovery in 
 1798. In spite of ridicule and opposition from many 
 of the medical profession, and of fanatical denunciations 
 from the ignorant, it rapidly made its way. In 1802, 
 Jenner, who had philanthropically thrown open his 
 secret to the Avorld, received from Parliament a vote of 
 .C 10,000. In 180/ an additional grant of £20,000 was 
 made to this great benefactor of mankind, and he had the 
 liappiness of living to see the notion of the poor dairymaid 
 of Sudbury accepted throughout the civilized world. 
 
 EARLY ^ROXAUTS, AND TESTU'S BALLOON VOYAGE. 
 
 The brothers !Montgolfier, paper manufacturers at An- 
 nonay, about twelve leagues from Lyons, invented their 
 well-known paper fire-balloon in 1782. After one or two 
 ^experiments the present oiled silk was substituted for 
 paper, but the principle of inflation was still that of 
 producing rarefied air by a fire lighted under an aper- 
 ture at the mouth of the balloon, exactly as in the paper 
 balloon still sold at toyshops. In this perilous machine, 
 
134 INVENTION AND DISCOVERT. 
 
 however, persons were soon found bold enough to leave 
 the earth without the safeguard of ropes, which bad 
 previously been used. In 1783 the Marquis d'Arlandes 
 and M. Montgolfier made the first genuine balloon 
 ascent from Passy, near Paris, and after some alarming 
 mishaps alighted safely in the environs of that city ; 
 but the dangerous character of these ascents, during 
 which it was necessary to continually feed the fire 
 under the balloon with straw carried with them by the 
 feronauts for that purpose, soon led to the invention of 
 the hydrogen balloon. This differed from the Mont- 
 golfier in being filled with hydrogen gas, generated by 
 the pouring of diluted sulphuric acid on iron filings. 
 After being long abandoned, the old dangerous Mont- 
 golfier balloon has been revived by a Frenchman, M. 
 Godard, who very recently made a successful ascent in 
 England with a balloon of gigantic construction inflated 
 on that principle. 
 
 One of the earliest travellers in this improved 
 balloon was M. Testu, whose ascent from Paris on the 
 18th of June, 1785, is one of the most curious episodes 
 in the early history of balloon voyages from Paris. His 
 balloon was twenty-nine feet in diameter, constructed 
 by himself, of glazed tifiany, furnished with wings, 
 and filled, as had now become the fashion, with hydrogen 
 gas. It had been much injured by wind and rain dur- 
 ing the night before its ascension, but having undergone 
 a slight repair, it was finally launched with its con- 
 ductor at four o'clock in the afternoon. The barometer 
 then stood 29"68 inches, and the thermometer as high 
 as eighty-four degrees, though the day was cloudy and 
 threatened rain. The balloon had at first been filled 
 
INVENTION AND DISCOVERY. 135 
 
 only tive-sixths ; but it gi'adually swelled as it became 
 drier and warmer, and acquired its utmost distention at 
 the height of 2800 feet. But to avoid the waste of gas 
 or the rupture of the balloon, the navigator calculated 
 to descend by the reaction of his wings. Though this 
 force had little efficacy, yet at half-past five o'clock he 
 softly alighted in a corn-field in the plain of Montmo- 
 rency. Without leaving the car he began to collect a 
 few stones for ballast, when he was surrounded by the 
 proprietor of the corn and a troop of peasants, who 
 insisted on being indemnified for the damage occa- 
 sioned by his idle and curious visitors. Anxious now 
 to disengage himself he persuaded them that his wings 
 being broken, he was wholly at their mercy. They 
 seized the stay of the balloon, which floated at some 
 height, and dragged their prisoner through the air in a 
 sort of triumph towards the village. But M. Testu, 
 finding that the loss of his wings, his cloak, and some 
 other articles had considerably lightened the machine, 
 suddenly cut the cord, and took an abrupt leave of the 
 clamorous and mortified peasants. He rose to the 
 regions of the clouds, where he observed small frozen 
 particles floating in the atmosphere. He heard thunder 
 rolling beneath his feet, and as the coolness of the 
 evening advanced the buoyant power of his vessel 
 diminished, and at three-quarters after six o'clock he 
 approached the ground Avith his car near the abbey of 
 Royaumont. There he threw out some ballast, and in 
 the space of twelve minutes rose to a height of 2400 
 feet, where the thermometer stood only at sixty-six 
 degrees. He now heard the blast of a horn, and des- 
 cried some huntsmen below in full chase. Curious to 
 
;•!»> INVKXTION A\D DISCOVERT. 
 
 witness the sport lie pulled the valve, and descended at 
 eight o'clock between Etonen and Varville ; when, re- 
 jecting his oars, he set himself to gather some ballast. 
 While he was thus occupied, the hunters galloped up 
 to him. He then mounted a third time and passed 
 through a dense body of clouds, in which thunder fol- 
 lowed lightning in quick succession. The thermometer 
 fell to twenty-one, but afterwards regained its former 
 point of sixty-six degrees, when the balloon had reached 
 an altitude of 3000 feet. In this region the voyager 
 sailed till half-past nine o'clock, at which time he ob- 
 served from his watch-tower in the sky the final setting 
 of the sun. He was now quickly involved in darkness, 
 and enveloped in the thickest mass of thunder-clouds. 
 The lightning flashed on all sides, and the loud claps 
 were incessant. The thermometer, seen by the help 
 of a phosphoric light with which he had provided him- 
 self, stood at twenty-one degrees, and snow and sleet 
 fell copiously around him. In this terrible situation 
 the intrepid adventurer remained the space of three 
 hours, the time during which the storm lasted. The 
 balloon was affected by a sort of undulating motion 
 upwards and downwards, owing, he thought, to the 
 electrical action of the clouds. The lightning appeared 
 excessively ^dvid, but the thunder was sharp and loud, 
 preceded by a sort of crackling noise. A calm at last 
 succeeded, he had the pleasure to see the stars, and em- 
 braced this opportunity to take some necessary refresh- 
 ment. At half-past two o'clock the day broke ; but 
 his ballast being nearly gone, he finally descended, at a 
 quarter before four o'clock, near the village of Campremi, 
 about sixty-three miles from Paris. 
 
INVENTION AND DISCOVERY. 
 
 THE VALUE OP RUSTED IRON— MR. WEISS, THE 
 CUTLER. 
 
 AnoUT forty years ago an eminent London cutler, Mr. 
 Weiss, of the Strand, the inventor of a number of 
 valuable improvements in surgical instruments, observed 
 that steel was much improved when it had become rusty 
 in the earth, provided the rust was not factitious!}' pro- 
 duced by the application of acids. " Accordingl}'," says 
 the author of tlio "Chronicles of Old London Bridge," 
 to whom we are indebted for this curious anecdote, " he 
 buried some i-azor blades for nearly three years, and the 
 result fully aiiswered his expectation. The blades were 
 coated with rust, which had the appearance of having 
 exuded from within; butthe metal was not eaten away, and 
 the quality of the steel was decidedly improved. It 
 was assumed that the same principle holds good with 
 respect to iron under similar circumstances, and with 
 perfect confidence in the correctness of his views, ]\Ir. 
 Weiss determined to pi'ocure some old iron which had 
 been subjected in an extraordinary degree to the action 
 of rust. It happened at that time that the removal of 
 old London Bridge offered a singular opportunity for the 
 attainment of his purpose. The old materials were sold 
 by auction, and among these were about fifteen tons of 
 old iron, which the ingenious instrument-maker bid for 
 with an eagerness which must have puzzled the other 
 attendants of the .sale, who, doubtless, regarded him as 
 
138 INVENTION AND DISCOVERY. 
 
 a mere seeker of relics and curiosities. It was the iron 
 with which the ancient piles, which had supported moi'e 
 than one such structure, were found to be shod, and it 
 was supposed that they had been originally buried in the 
 soil at the bottom of the river six or seven centuries 
 previously. Each of these rudely-formed shoes or points 
 consisted of a small inverted pyramid, with four straps 
 rising from the four sides of its base, which were nailed 
 to the pile — the total length from the point which entered 
 the ground to the end of the strap being about sixteen 
 inches, and the weight about eight pounds. The points of 
 the shoes were found to be not much corroded, nor indeed 
 were the straps ; but the latter had become extremely 
 and beautifully sonorous, closely resembling, it is said, 
 in tone the bars and sounding pieces of an Oriental 
 instrument which had been exhibited shortly before with 
 the Burmese state carriage. Mr. "Weiss discovered that 
 while these straps, in addition to their sonorousness, 
 possessed a degree of toughness quite unapproached by 
 solid iron, the solid points had nothing to recommend 
 them. They were convertible only into very inferior 
 steel, while the straps, and even the bolts, which were, 
 in fact, imperfect cai burets, produced steel of a quality 
 infinitely superior to any which in the course of his 
 business Mr. Weiss had ever before met with. The " old 
 pile" steel became in general request among the work- 
 men for tools, while on the other hand they demanded 
 higher wages, on account of its hardness, for working 
 it. Ultimately the straps were separated from the solid 
 points, and these last sold as old iron. At first it had 
 been supposed, from the difierence between the joints, 
 that the shoes were composed of two sorts of iron ; but 
 
INVENTION AND DISCOVERY. 139 
 
 besides the improbability of tins, the contrary was 
 proved by an examination, and finally it was inferred 
 that the extremities of the piles having been charred, 
 the straps of iron closely wedged between them, and the 
 stratum in which they were imbedded must have been 
 subjected to a galvanic action, which in the course of 
 some six or seven hundred years gradually produced the 
 eflects recorded. 
 
 THE AURORA BOREALIS AND THE TELEGRAPH. 
 
 The effect of the aurora borealis on electric telegraph 
 lines is curious. In September, 1851, there was a re- 
 markable aurora which took complete possession of all 
 the telegraph lines in New England, in the United 
 States, and prevented any business being transacted 
 during its continuance. In February, 1852, another 
 instance occurred. Towards evening a heavy blue line 
 appeared upon the paper used by the operators, whicli 
 gradually increased in size for the space of half a minute, 
 when a flame of fire succeeded to the blue line, of suffi- 
 cient intensity to burn through a dozen thicknesses of 
 the moistened sheets. The current then subsided as 
 gradually as it had come on, until it entirely ceased, 
 and was then succeeded by a negative current (which 
 bleached, instead of colouring the paper). Tliis gradu- 
 ally increased, until it also, in turn, produced its flame 
 of tire, and burned through many thicknesses of the 
 prepared paper. 
 
140 INVENTION AND DISCOVERT. 
 
 The effect, of the aurora borealis, or magnetic storm. 
 appears to be totally unlike that of common or free elec- 
 u-.city, with which the atmosphere is charged daring 
 a thunder-storm. The electricity evolved during a 
 t'mnder-storm, as soon as it readies a conductoi*, explodes 
 witb a spark, and becomes at once dissipated. The other, 
 on the contrary, is of very low tension, remains upon the 
 wires sometimes half a minute, produces magnetism, 
 decomposes chemicals, deflects the needle, and is capable 
 of being used for telegraphic purposes, although, of 
 course imperfectly. 
 
 The aurora borealis has in fact been used for trans- 
 mitting and receiving telegraphic despatches. This 
 almost incredible feat was accomplished in the forenoon 
 of September 2, 1859, between the hours of half-past 
 ei'i-ht and eleven o'clock, on the wires of the American 
 Telegraph Company, between Boston and Portland, 
 and upon otlier lines in various parts of the country, 
 as described by Mr. G. B. Prescott, the able superinten- 
 dent of the American telegraph lines. The auroral in- 
 iluence was observed one day upon all the lines running 
 out of the office in Boston, at the hour of commencing 
 business (eight o'clock, a.m.), and it continued so strong 
 \ip to half-past eight, as to prevent any business being 
 done ; the ordinary current upon the wires being at 
 times nertralized by the magnetism of the aurora, and 
 at other times so greatly augmented as to render opera- 
 tions impniL;t,icable. At this juncture it was suggested 
 that the batteries should be cut off, and the wires 
 .simply connected with the earth. 
 
 The current from the aurora coming in waves of 
 greater or less intensity, there were times, both while the 
 
INVENTION AND DISCOVERY. 141 
 
 wave was approaching and while it was receding, when 
 the instruments were enabled to work ; but the time 
 varying according to the rapidity of the vibrations, whiit- 
 ever business was done upon the Avires during these 
 displays, had to be accomplished in brief intervals of 
 from a quarter to half a minute in duration. 
 
 During one of these intervals, the Boston operator 
 said to the one at Portland, " Please cut off your 
 batteiy, and let us see if we cannot work with the 
 auroral current alone." 
 
 The Portland operator replied, " I will do so. Will 
 you do the same ?" 
 
 " I have already done so," was the answer. " "We 
 are working with the aid of the aurora alone. How 
 do you receive my writing ?" 
 
 "Very well indeed," responded the operator at Port- 
 land ; much better than when the batteries were on ; 
 the current is steadier and more reliable. Suppose we 
 continue to work so until the aurora subsides." 
 
 " Agreed," replied the Boston operator, " Are you 
 ready for business ?" 
 
 " Yes ; go on," was the answer. 
 
 The Boston operator then commenced sendiii:;: 
 private despatches. The line was worked iu this m« i- 
 aer more than two hours, when, the aurora iiaviug 
 subsided, the batteries were resumed. 
 
142 INVENTION AND DISCOVERT. 
 
 SCHEMES FOR EXTINGUISHINa FIRE 
 
 All who have watched the progress of inventions know 
 how difficult it is to depend upon preconcerted experi- 
 ments, as proofs of their efficacy, for attaining the results 
 predicted by their sanguine authors. In the year 1776, 
 a gentleman named Hartley announced that he had 
 made a discovery which would for ever prevent those 
 disastrous fires which had so often afflicted crowded 
 cities. A house on fire was stated to be henceforth a 
 thing of the past, while the parish engine and its cus- 
 todians had from that time forward notbing to do but 
 to enjoy a perpetual holiday. The accounts of this new 
 discovery at length attracted the attention of King 
 George III., who determined to visit the inventor at his 
 house on Wimbledon Common, there to witness experi- 
 ments illustrative of the plan. The King was accom- 
 panied by the Queen, the Prince of Wales, afterwards 
 George IV., the Bishop of Osnaburgh, the Princess 
 Royal, and the Princess Augusta, and several ladies and 
 gentlemen of the court. The inventor received the 
 distinguished party with much satisfaction, and pro- 
 ceeded at once to conduct them through a series of 
 experiments which appeared to leave no doubt of the 
 great benefits of his principle. The magazines of the 
 time state that their majesties with the prince and 
 princesses first bi^eakfasted in one of the rooms ; and 
 that the tea-kettle Avas boiled upon a fire made upon the 
 floor of the opposite room, which apartment they after- 
 wards entered and saw a bed set on fire, the curtains of 
 
INVENTION AND DISCOVERY. 143 
 
 which were consumed vnth. part of the bedstead, but 
 rot the whole, the flames, from the resistance of the 
 floor, going: out of themselves. The king and queen 
 then went downstairs and saw a horse-shoe forged in a 
 fire made upon the floor, as also a large faggot lighted 
 which was hung up to the ceiling. After this two fires 
 were made upon tlie staircase, and one under the stairs ; 
 all which burnt out quietly, without spreading beyond 
 the place where the fuel was first laid. The party 
 paid tlio greatest attention to every experiment that was 
 made, and expressed the utmost satisfaction at the 
 discovery. The whole concluded by lighting a large 
 magazine of faggots, pitch, and tar : it burnt with 
 amazinc fiirv, but did no damasre to the floor or roiling. 
 It is stated that the queen and the children displayed 
 the utmost courage and composure in going upstairs 
 and remaining in the room immediately over that which 
 was raging in flames beneath. 
 
 Mr. Hartley's plan, notwithstanding these apparently 
 triumphant experiments, never became generally adopted, 
 and is forgotten. It must be remembered that the inven- 
 tor in conducting experiments of this kind is enabled 
 to select all the conditions of the trial and to avoid 
 difficulties which might occur in ordinary practice. 
 Probabl}- this is the reason why so little has been 
 heard of late years of a kindred invention, Phillips's 
 fire annihilator, the success of which appears to be still 
 more completely demonstrated. About fifteen years 
 ago, scientific men and public writers were invited to 
 witness the eff'ective power of this new invention for 
 extinguishing fires. A numerous party accordingly as- 
 sembled at the London gas-works, Vanxhall. The agent 
 
l-t-4 INVENTION AND DISCOVERY. 
 
 by which it was sought to accomplish the object was a 
 mixture of gas and vapour. After several experi- 
 ments on a small scale, to show the success attained 
 by these means, the attention of the company was 
 directed to a compartment of a large open building, 
 quite twenty feet high inside, which was fitted up with 
 partitions and temporary joisting of light wood, well 
 soaked with pitch and turpentine, and overhung beside 
 with rags and shavings soaked in the like manner. The 
 torch was applied to this erection, and the flames, which 
 ascended immediately, at length roared with a vehe- 
 mence which drove the spectators back to a distance of 
 forty feet, and were already beyond the power of water. 
 The inventor then brought forward one of his hand- 
 machines, and threw out a volume of gaseous vapour, 
 which m half a minute entirely suppressed all flame and 
 combustion ; and to show that the vapour Avhich now 
 filled the space was quite innoxious, Mr. Phillips 
 mcninted into the loft, and passed and repassed through 
 the midst of it with a lighted candle in his hand. The 
 machine with which this effect was accomplished was 
 rather larger than a good sized coffee-pot, and consisted 
 of three tin cases, one within another, and mutually 
 communicating. There was a small quantity of water 
 in the bottom of the machine, and in the centre case was 
 a composite cake, of the size and colour of peat — con- 
 taining in the middle of it a phial of sulphuric acid and 
 chlorate of potash. In order to put the machine into 
 action this phial was broken, and a gaseous vapour 
 genei-ated so rapidly and in such quantity that it imme- 
 diately rushed out from a lateral spout with great im- 
 petuosity. The inventor explained that a machine of 
 
INVEXTION AND DISCOVERT. 145 
 
 any size could be made i>,ccordmg to the purpose for 
 wliicii it was intended. 
 
 There can be no doubt that all these experiments 
 were honestly conducted, and did really effect what they 
 appeared to do; but nevertheless, groat tires continue their 
 destructive ravages, and the various fire brigades arc, 
 unhappily, not yet enabled to retire from their labours. 
 
 THE MODERN THIEF- CATCHER. 
 
 There can be no doubt that nothing Las contribiated 
 more to render robbery a difficult and dangerous pro- 
 fession than the invention of the electric telegraph. 
 The following curious entries appear in the telegraph 
 book, preserved at the Paddington Station : — 
 
 "Paddington, 10.20 a.m. — Mail train just started. It 
 contains three thieves, named Sparrow, Burrell, and 
 Spurgeon, in the first compartment of the fourth first- 
 class carriage." 
 
 '■ Slough, 10. -jO A.M. — Special train just left. It con- 
 tained two thieves : one named Oliver Martin, who is 
 dressed in black, crape on his hat ; the other named 
 Fiddler Dick, in black trousers and light blouse. Both 
 in the third compartment of the first second-class 
 carriage. 
 
 " Slough, 11. IG A.M. — Special train arrived. Officers 
 have taken the two thieves into custody, a lady having 
 lost her bag, containing a pur.^e with two sovereigns 
 
 I, 
 
146 INVENTION AND DISCOVERT. 
 
 and some silver in it ; one of tlie sovereigns was sworn 
 to by the lady as her property. It was found in Fiddler 
 Dick's watch-fob." 
 
 It appears that, on the arrival of the train, a police- 
 man opened the door of the third compartment of the 
 first-class carriage, and asked the passengers if they had 
 missed anything. A search in pockets and bags accord- 
 ingly ensued, until one lady called out that her purse 
 was gone. " Fiddler Dick, you are wanted !" was the 
 immediate demand of the police-officer, beckoning to the 
 culprit, who came out of the carriage, thunderstruck at 
 the discovery, and gave himself up, together with the 
 booty, with the air of a completely beaten man. The 
 effect of the capture so cleverly brought about is thus 
 laconically entered in the telegraph book : — 
 
 " Slough, 11.51 A.M. — Several of the suspectea persons 
 who came by the various down- trains are lurking about 
 Slough, uttering bitter invectives against the telegraph. 
 Not one of those cautioned has ventured to the Montera."" 
 
 Another instance may be cited : — 
 
 One night, at ten o'clock, the chief cashier of the 
 Bank of England received a notice from Liverpool, by 
 electric telegraph, to stop certain notes. The next 
 morning the descriptions were placed upon a card and 
 given to a proper officer to watch that no person ex- 
 changed them for gold. Within ten minutes they were 
 presented at the counter by an apparent foreigner, who 
 pretended not to speak a word of English. A clerk in 
 the office who spoke German interrogated him, when 
 he declared that he had received them on the Exchange 
 at Antwerp, six weeks before. Upon reference to the 
 books, however, it appeared that the notes had only 
 
INVENTION AND DISCOVERY. 14/ 
 
 been issued from the bank about fourteen days, and 
 therefore be was detected at once as the utterer of a 
 falsehood. An officer was sent for, who forthwith locked 
 him up, and the notes were detained. A letter was at 
 once sent to Liverpool, and the real owner of the notes 
 came up to town. He stated that he was about to sail 
 for America, and that whilst at an hotel he had exhibited 
 the notes. The person in custody advised him to stow 
 the valuables in his portmanteau, as Liverpool was a 
 very dangerous place for a man to walk about in with so 
 much money in his pocket. The owner of the property 
 did so, but had no sooner left the house than his adviser 
 broke open the portmanteau and stole the property. 
 The thief was taken to the Mansion House, and could 
 make no defence. The sessions were then going on at 
 the Old Bailey. By a little after ten the next morning, 
 such was the speed, not only was a true bill found, but 
 the trial by petty jury was concluded, and the thief, 
 thanks to the invention of the telegraph, sentenced to 
 expiate his offence by ten years' transportation. 
 
 A READY-WITTED INVENTOR. 
 
 Although the elder Brunei left France very young, and 
 resided in America some years before he came to England, 
 he never completely overcame the difficulties of the 
 Eno-lish language. His accent indeed was far from 
 faultless, but he had a ready command of words, and no 
 
148 INVENTION AND DISCOVERY. 
 
 difficulty in expressing himself in an emergency. His 
 daughter relates that when the Prince Regent, after- 
 wards George IV., visited the works at Woolwich which 
 Brunei had erected, he addressed the engineer with the 
 words, " I remember Mr. Brunei perfectly, but ]!klj-. 
 Brunei has forgotten me." The latter bowed respect- 
 fully, and expressed his regret that he had been guilty of 
 any omission. "The fact is," continued the Prince, 
 " that some years ago, when you explained to me the 
 block machinery at Portsmouth, you promised me a 
 copying machine of your invention, but you forgot your 
 promise, Mr. Brunei." Without any hesitation, the 
 engineer, who was probably not displeased to have been 
 so well remembered, replied, " Please your Royal 
 Hidmess, I have never been able to perfect the ma- 
 chine so as to make it worthy of your acceptance." The 
 very first patent he had taken out was for a duplicate 
 writing and drawing machine, which was probably the 
 invention referred to by the Prince : it was not till up- 
 wards of twenty years later that Brunei took a patent 
 for his cop3'ing press, which was more successful. 
 
 On another occasion, when Brunei had to give evi- 
 dence in a court of justice in a cause relating to a 
 patent right, it was absurdly attempted to throw dis- 
 credit on his testimony because he Avas a foreigner. Are 
 you not a Frenchman, Monsieur Brunei?" asked the 
 opposing counsel, with a triumphant glance at the gen- 
 tlemen of the jury. " Oh, yes," replied the witness 
 coolly ; "I am from Xormandy, the country from which 
 your oldest nobility derive their titles." 
 
 Some gentlemen having applied to him to make a 
 variety of machinery for applying a small water power 
 
INVKXTIOX AND DISCOVKHY. 149 
 
 to sawing wood, cutting stone and marble, preparing 
 oak-bark, etc., they expressed a hope that he would 
 not think their notions extravagant or ridiculous. Brunei 
 replied, " I see nothing ridiculous in your attempting to 
 adapt a small power to many purposes — no more than 
 to liave many carts and only one horse. It is not ex- 
 pected you will fasten them all together when you only 
 want the use of one." 
 
 THE GEOLOGIST AND HIS HORSE. 
 
 UxLiKE "William Smith, the " father of English geology," 
 who being too poor to ride except when employed as a 
 land-drainer, walked over a large part of England, the 
 late Dr. Buckland had means to mount, and performed 
 nearly all his geological excursions on horseback, the 
 horse imbibing a decidedly geological taste. The doctor 
 rode a favourite old black mare, who was frequently 
 caparisoned all over with heavy bags of fossils and pon- 
 derous hammers. The old mare soon learnt her duty, 
 and seemed to take interest in her master's pursuits; 
 for she would remain quiet without any one to hold 
 her, while he was examining sections and strata, and 
 then patiently submit to be loaded with interesting but 
 weighty specimens. Ultimately, she became so accus- 
 tomed to her work, that she invariably came to a full 
 stop at a stone quarry, and nothing would persuade her 
 to proceed until the rider liad got off and examined the 
 
150 INVENTION AND DISCOVERY. 
 
 quarry. On one occasion Dr. Buckland was in some 
 danger from the falling stones as he was climbing up 
 the side of one of these quarries. He was told of hia 
 danger by the bystanders. " Never mind," said be, 
 " the stones know me." 
 
 A STORY OF THREE WORKMEN. 
 
 A GREAT fire, which broke out in Paris in 1802, entirely 
 destroyed the magnificent grain market, the cupola of 
 which was regarded as one of the most remarkable 
 structures in Europe, not merely for its vast dimen- 
 sions, but for the novelty and ingenuity of the prmciple 
 on which it was constructed. This cupola was entirely the 
 work of three somewhat obscure artizans, whose names 
 are scarcely remembered in history beyond the following 
 anecdote • — At the time of the fetes, given in Paris in 
 honour of the birth of the dauphin son of Louis XVI., 
 the great space enclosed by the circular building then 
 known as the Halle aux Bles, was covered by an im- 
 mense awning, presenting by the light of the illumina- 
 tion within a beautiful appearance. This sight made a 
 powerful impression upon the imagination of two young 
 architects, named Legrand and Molinos, who had recently 
 returned from studies in Rome, one of whom remarked 
 that it was a pity such a roofing could not be made 
 permanent. The idea reached the authorities, who at 
 once requested the young architects to undertake the task. 
 
INVENTION AND DISCOVERY. 151 
 
 " It is impossible," replied Molinos. " This vast build- 
 ing, with its twenty-five arcades, was designed by the 
 famous Mezieres, without any idea of its being called 
 upon to support the enormous weight of such a roof as 
 would be requii-ed." 
 
 " Nothing is impossible for genius," interrupted Le- 
 grand. " I know an enthusiastic workman, a mere 
 joiner but a good mathematician, who would find some 
 way to solve the problem. He has published a book 
 about the joiner's art, and though few pay attention to 
 him, he is one of the most able and original men of his 
 time." 
 
 This man was the builder, Jacques Roubo, and the 
 young architects lost no time in presenting their request 
 to him. 
 
 " I care nothing for the reputation of originality," 
 said Roubo, after listening respectfully to his visitors' 
 statements. "My originality shall be simply that of 
 having the courage to revive a plan which has been long 
 forgotten, and which I think will accomplish what ap- 
 pears to you so diflBcult. Give me a day, and I will 
 give you an answer." 
 
 On the following day Roubo made known his deter- 
 mination to undertake the construction of the cupola, 
 on the conditions that he should be at liberty to select 
 his own workmen, and should have entire freedom to 
 follow his own plans. This being assented to, he de- 
 vised a plan suggested by the Chateau de la Muette, 
 constructed by the celebrated Philip Delorme, which con. 
 sisted in substituting for solid beams thin boards support 
 ing each other, and going off from the edges of the wall\ 
 in all directions, llij had to help him in his difficult task 
 
152 INVENTION AND DISCOVERT. 
 
 a carpenter named Albourg, and a blacksmitli named 
 Raguin, the latter of Avhom executed the fine iron Ian- 
 thorn which formed the crowning point in the edifice. 
 After only five months of labour, so well directed that 
 not one human life was risked, the great work was com- 
 pleted on the 31st of January, 1 783. The cupola was 
 une hundred and twenty feet in diameter, its height 
 being one hundred feet from the ground. Twenty-five 
 openings filled with panes of glass divided the roof from 
 lop to bottom, and it appeared to the architects of the 
 1 ime almost impossible to conceive how the dome was 
 sustained, divided as it was between wood and glass, 
 and apparently of less than one foot in thickness. When 
 the temporary supports were finally taken do-ftTi, Roubo, 
 full of confidence in the principle which had guided 
 him, insisted on standing under a cornice, in order to 
 examine the roof closely, and observe if it shook when 
 left to its own resources. No one Avould share with him 
 what everybody considered a great danger. The proj)s 
 were removed amid the acclamations of the people, and 
 the intrepid Roubo was assured of the complete success 
 of his undertaking. He was borne in triumph on the 
 shoulders of the admiring citizens, the crowd pressing 
 on all .sides to gain a sight of the man to whom they 
 owed a construction so novel. 
 
 Roubo, on this occasion, as well as on all others, 
 showed himself to be as disinterested as he was skil- 
 ful, renouncing what he might have claimed as origi- 
 nator of so great an enterprise, and accepting only 
 the sum agreed upon as a remuneration for direct- 
 ing the work. Raguin, praising his own lauthorn 
 one day to him, Roubo replied, "Don't mention it; 
 
INVENTION AND UISCOVEUY. 153 
 
 if I were only in your line, I would liave made the 
 ■whole cupola of iron" — an idea realized twenty-five 
 years afterwards. Roubo's history is interesting. The 
 son of a poor journeyman builder, he had been left to 
 himself at an early age ; nevertheless, endowed with a 
 strong desire to raise himself above the circumstances in 
 which he was placed, and conscious that improvement 
 alone would do this, he applied himself diligently to 
 study, although many difficulties stood in the way. The 
 little money given him to buy food was for the most part 
 laid out in the purchase of books and models for draw- 
 ing ; the harshest privations were unheeded by him, if 
 he could buy books. When he began to work at his 
 father's trade, he was still so poor, that when he sat up 
 during the long winter nights for purposes of study he 
 could not afford to pay for a lamp or candle, and was 
 obliged to pick up pieces of tallow and fat thrown 
 out by the neighbours and burn them. Such ardour 
 did not remain long unfruitful. He was observed by 
 Professor Blondel, a nephew of the celebrated architect 
 of that name; and, from that time, he had a guide and 
 a support. After giving him gratuitous lessons for five 
 years, and otherwise encouraging and assisting him, 
 Blondel had cause to be proud of his pupil. 
 
154 INVENTION AND DISCOVEKY. 
 
 THE STRUGGLES OF OPTICAL-GLASS— GUINAND 
 OF BRENETS. 
 
 The first artists and men of science on the Continent 
 had failed in manufacturing glass exactly suited to the 
 purpose of optical instruments, when about the middle 
 of the last century Dollond and the French and German 
 opticians made experiments to discover the cause of 
 this failure. They found it to be the necessity for 
 avoiding any variation in the media of which the glass 
 is composed ; as the slightest difference acted as a dis- 
 turbing cause to the progress of the ray of light, derang- 
 ing the refraction and distorting the object. The 
 Academic des Sciences in Paris offered prizes in vain 
 for the overcoming of this difficulty. The celebrated 
 chemists, Roux of St. Gobain, and Anut of Langres, 
 devoted their attention to it in vain ; even when par- 
 tially successful, a diameter of three inches or three 
 inches and a half was the largest they could obtain. It 
 remained for a man in no degree conversant with 
 science, not a glass maker by trade nor distinguished 
 by education, but endowed with wonderful energy, spirit 
 of inquiry, and perseverance to arrive at the solution of 
 the difficulty. 
 
 This man was Guinand, a poor peasant in the village 
 of Brenets, in the canton of Neufchatel in Switzerland. 
 Like many of the villagers in Switzerland, Guinand 
 partly employed his time as a workman in a branch of 
 the watch trade. "Watchmaking, from the necessity of 
 continual close inspection with a magnifying glass into 
 
INVENTIOX AXD DISCOVERT. ' 155 
 
 minute portions of the work is proverbially injurious to 
 the eyes; and Guinand, suffering from the common 
 affliction of his trade, was compelled to wear spectacles. 
 His poverty— for the earnings of the Swiss watch- 
 makei-s were at this period extremely low — drove him 
 to the resource of grinding spectacle-glasses for his own 
 use. In this way he acquired some practical knowledge 
 of the principle of lenses. Being of a very ingenious 
 turn of mind the work interested him, and he began to 
 make for his own amusement small refracting teles- 
 copes, which he mounted in pasteboard cases. One 
 day visiting the shop of Droz, the master who employed 
 him, at Chaux de Fonds, he was shown a small achro- 
 matic telescope of English manufacture, a more perfect 
 instrument than he had ever seen before. Delighted 
 with the object he obtained permission to examine it, 
 and finally to take it to pieces, separate its lenses, and 
 measure its curves. Satisfied that he had mastered the 
 principle, Guinand resolved to attempt to imitate it, and 
 communicated the intention to his master. Glass suited 
 to the purpose could only be obtained in England ; 
 Droz, having occasion to visit this country to obtain a 
 patent for his self-winding watches, brought back with 
 him as much glass as enabled Guinand to construct 
 several achromatic telescopes, which were entirely 
 successful. 
 
 There was, however, still the great difficulty of bad 
 glass, and the pi-esumed impossibility of procuring optical 
 glass of a large size. Even Sir Isaac Newton had pro- 
 nounced these difficulties insurmountable. How, then, 
 was a humble journey-worker to succeed in overcoming 
 them? The question seemed unanswerable, but Gui- 
 
156 INVENTION AND DISCOVERY. 
 
 nand was in no way daunted. He had been accus- 
 tomed to the fusing of metals in his own business, 
 and had observed that in the ordinary process the 
 waving and the threads similar to those seen in the 
 fusing of glass were removed by stirring and thoroughl3' 
 mixing the metal by means of an iron bar. This fact 
 suggested the application of the same process to flint 
 glass, and after many attempts made during his leisure 
 hours the ingenious peasant succeeded in what had so 
 long baffled the great scientific men of his time, the 
 production of flint glass perfectly free from Avhat are 
 called strise. From 1784 to 1790 he made almost daily 
 experiments, melting down at each time about three 
 or four pounds of glass, and keeping a careful record 
 of all the facts which he observed. Having during 
 this time abandoned his old branch of the watch trade 
 for a more profitable one he obtained a better command 
 of capital and leisure, and among the first results of his 
 improved circumstances he purchased a piece of laud 
 on the banks of the Doubs, where he constructed a 
 furnace capable of fusing the large amount of two hun- 
 dred weight of glass. Accidents and disasters long 
 beset his course. His crucibles failed, his furnaces 
 burst, but he renewed them, and repaired all defects 
 with indomitable patience. At last he succeeded in 
 obtaining large pieces of uniform quality, in one case 
 reaching the size of eighteen inches in diameter. 
 He also discovered the important art of soldering to- 
 ij^ether pieces of good glass, altogether obliterating the 
 line of junction. This he accomplished by first fusing 
 them together, and then grinding out the globules of 
 air or particles of sand on a wheel dusted with pow- 
 
INVENTION AND DISCOVERY. 157 
 
 dered emciy. Finally, he replaced the mass in a fui'- 
 nace, when the glass expanding and lilling np the 
 hollows, he was enabled to obtain with certainty the 
 discs of flint glass larger than any that had yet been 
 manufactured. 
 
 M. TJtzschneider, of Munich, hearing the result of 
 his experiments, on making further inquir}^, pi'oposed to 
 him to join him and M. Frauenhoffer in their establish- 
 ment at ^Munich ; he accepted the offer, and one of the 
 largest glasses resulting from their experiments is 
 now in the Observatory at Dorpat. 
 
 Guinand returned to his own country, but not being 
 a glass-maker by profession, he prosecuted his researches 
 only at intervals. He had discovered the principle ; had 
 earned a well-merited reputation in the world of science, 
 and promoted the researches of others ; but the results 
 of his experiments had not attained to certainty in 
 practice, and he had not ovei-come the difficulties in the 
 fabrication of crown-glass, which requires the same per- 
 fection and the same dimensions as the corresponding 
 flint. 
 
 In the latter years of his life, Guinand entered into 
 communication Avith the Astronomical Society of Lon- 
 don, and sent over some discs of flint-glass, of which 
 Messrs. Dollond, Herschel, and Pearson made a favour- 
 able report. It is remarkable that at this time, in the 
 country wliich had supplied the Continent with flint- 
 glass, a disc of six inches should have been considered a 
 rarity. 
 
 Soon after, a commission, composed of Messrs. Her- 
 schel, Faraday, Dollond, and Hoget, was instructed to 
 pursue the inquiry as to the mauufiicturc of flint-glass. 
 
158 INVENTION AND DISCOVERY. 
 
 Mr. Faraday took the lead, both in his own laboratorj 
 and at the glass-works of Messrs. Pellatt, and could not 
 fail of arriving at important conclusions. He changed 
 the principle of fabrication, and produced a borate of 
 lead of remarkable purity. The Lords of the Treasury 
 had found it advisable to make a relaxation of the 
 Excise laws in favour of the Royal Society, or persons 
 acting for scientific purposes under that body. But, 
 notwithstanding this regulation, the interference of the 
 officers, and the delay in obtaining the necessary licence, 
 proved so onerous and inconvenient, as completely to 
 shackle their proceedings, and preclude all attempt to 
 improve by means of experiment : and the question as 
 to the fabrication of flint-glass being actively pursued 
 in France and Switzerland, the Commission ceased from 
 its labours. 
 
 Shortly afterwards M. Guinand died, bearing with 
 him the secret of his process ; but in Bavaria, the works 
 in which he had taken part had been continued accord- 
 ing to his system ; and his wife and two sons had 
 witnessed his experiments, and were desirous of avail- 
 ing themselves of their father's invention for their own 
 advantage. 
 
 M. Bontemps, who had devoted much attention to 
 the manufacture of glass generally, and particularly of 
 such as is required for optical purposes, was introduced 
 by M. Lerebours, of Paris, to one of the sons of 
 Guinand, who was endeavouring to sell his father's 
 secret in England, or in France. He formed an asso- 
 ciation with him, but did not succeed in arriving at any 
 good result. The treaty was broken ; but M. Bontemps, 
 satisfied of the correctness of the principle if properly 
 
INVENTION AND DISCOVERT. 159' 
 
 applied, continued the experiments at his works with- 
 out excluding Guinand ; and in 1828 they succeeded in 
 producing good flint-glass, and discs of from twelve to 
 fourteen inches, besides a large quantity of smaller sizes. 
 From that time the manufacture may be considered to 
 have been established on a regular system. Pure discs 
 of flint-glass were exhibited in the Great Exhibition of 
 ] 851, of twenty-nine inches in diameter, each weighing 
 the enormous amount of two hundred weisfht. 
 
 GALVANI AND THE FROG. 
 
 Galvani, a natural philosopher of Bologna, in Italy, was 
 one day dissecting a dead frog while one of his pupils 
 happened to be making experiments in electricity by his 
 side. He observed that the muscles of the frosr beincr 
 exposed gave signs of naotion whenever the nerves came 
 in contact with the scapel, which acted of course as a 
 metallic conductor. Galvani varied his experiments 
 and dissected another frog, exposing the nerves which 
 go down the spine into the legs, and wrapping them in 
 a leaf of pewter. He applied to this one of the two points 
 of a compass or a pair of scissors, and touched with the 
 other the surface of the leg or thigh of the frog. Every 
 time this was repeated it produced convulsive move- 
 ments in the muscles, which were motionless when the 
 process was repeated without communication with the 
 pewter leaf Galvani, who was a man of great in- 
 
IGO INVENTION AND DISCOVERT. 
 
 telligence, discovered the existence of a new principle 
 in this phenomenon, and originated the fertile branch of 
 physics known by the name of Galvanism. The con- 
 vulsions observed by him in frogs were not permanent, 
 and could only be produced by contact with an instru- 
 ment formed of two metals. After numerous experi- 
 ments he discovered that a metallic communication must 
 be established between the nerves and the muscles. 
 Thus was the galvanic fluid, Nature's most powerful 
 agent in all her operations on the surface of the globe, 
 made known to man. Shortly afterwards, Volta, 
 another philosopher, repeated Galvani's experiments, 
 and discovered that electricity was developed by the 
 mere contact of metals ; and conceived the idea of con- 
 structing what has since, from the name of the inventor, 
 loeen called the Voltaic pile. The quantity of electric 
 fluid produced by the first contact of zinc, copper, and 
 cloth, communicated itself to the' second, and so on 
 increasing with great energy as it accumulated to the 
 end of the pile. The chemical efi"ects of this instrument 
 he found to be very remarkable ; it decomposed water, 
 oxides, acids, and all salts. The chief merit of Volta's 
 discovery was that it demonstrated the fact that the 
 principle of the phenomena observed by Galvani was in 
 the metals themselves, and not in the nerves of the animal. 
 In short, the cause of the movements he had noted 
 was simply a current of electricity passing along the 
 nerves and muscles. This gave rise to the term Voltaic 
 Electricity, and finally led to the perfecting of the elec- 
 tric telegraph. 
 
INVENTION AND DISCOVERT. 161 
 
 THE PIO^■EERS OF STEAM NAVIGATION. 
 
 The idea of moving a vessel in. the water by means of 
 paddle-wheels, appears to be of great antiquity. The 
 boats b" which the Roman army under Claudius 
 Codex was transported into Sicily were propelled by 
 wlieels moved by oxen ; and in many old military 
 treatises the substitution of wheels for oars is men- 
 tioned. One of the earliest of the dreams of our own 
 inventors was that of making ships move by mechanical 
 power, and without the assistance of wind and tide, and 
 many ingenious designs were published professing t« 
 accomplish that object. Thomas Savory obtained a 
 patent in 1G9G for a paddle-wheel to be fixed on eack 
 side of a ship, to be turned by men by means of a 
 capstan. Papin, Jonathan Hulls, Bernouilli, and 
 others, also suggested schemes foreshadowing the use 
 of steam in navigation ; but all these notions were 
 fruitless, before the invention of a steam-engine pro- 
 ducing a continued rotative or circular motion fitted to 
 turn the paddle-wheels with the necessary force. Six 
 years after Watt took out the patent for his suu and 
 planet motion, Mr. Patrick Miller, of Dalswinton, pub- 
 lished a pamphlet detailing a plan for projK-lling a 
 double sailing boat, invented by him, by means of paddle- 
 wheels ; but the motive power he proposed to employ 
 at that time, was simply the tedious one of men turning 
 a capstan. Several experiments with this kind of vessel 
 were tried, but the men were found to become too much, 
 exhausted with the labour of turning the capstans 
 
 u 
 
162 INVENTION AND DISCOVKKY. 
 
 render the scheme profitable. It was during a conver- 
 sation on the subject of these experiments at the house 
 of Mr. Miller at Dalswinton, in the year 1787, that Mr. 
 James Taylor, a gentleman living in Mr. Miller's 
 family as tutor to his sons, suggested the substitution 
 of the newly-invented steam-engine for the rude con- 
 trivance of manual labour. Mr. Miller appears to have 
 been at first disinclined to adopt the suggestion, on the 
 ground that Avheu chiefly wanted to give aid, that is 
 to say in time of storms, it would prove useless ; Mr. 
 Miller adding, " In such cases as that disastrous event 
 which happened lately of the wreck of a whole fleet 
 upon a lee shore, ofi" the coast of Spain, every fire oii 
 board must be extinguished." 
 
 Fortunately, however, it was determined to try the 
 experiment. " At this time," says Mr. Taylor, in his 
 narrative of this affair, " William Symington, a young 
 man employed at the lead mines at Wanlockhead, had 
 invented a new construction of the steam-engine by 
 throwing ofi" the air pump. I had seen a model work 
 and was pleased with it, and thought it very answerable 
 for Mr. Miller's purpose. Symington had come into 
 Edinburgh that winter for education ; being acquainted 
 with him I informed him of Mr. Miller's intentions and 
 mine, and asked if he could undertake to apply his 
 engine to Mr. Miller's vessels, and if he could I would 
 recommend him. After some conversation Symington 
 engaged to perform the work, and Mr. Miller agreed to 
 employ him. It was finally arranged that the experi- 
 ment should be performed on the lake at Dalswinton 
 in the ensuing summer (1788). Accordingly, in the 
 spring after the classes of the college broke up, I re- 
 
Iin'ENTION AND DISCOVERY. ]63 
 
 mained in town to superintend the castings, etc., whicli 
 were done in brass bj George Watt, founder, at the 
 back of Shakspeare Square. When they were finished I 
 sent the articles to the country and followed myself. 
 After some interval I took Symington with me to Dals- 
 winton to put the parts together. This was accom- 
 plished about the beginning of October, and the engine, 
 mounted in a frame, was placed upon the deck of a very 
 handsome double pleasure boat upon the lake. We 
 then proceeded to action, and a more completely suc- 
 cessfal and beautiful experiment was never made by 
 any man, at any time, either in art or science." 
 
 The boat was composed of two small deck boats 
 placed side by side, and joined together according to a 
 plan which was believed by ^Ir. Miller to secure greater 
 speed and other advantages. The vessels were only 
 twenty-five feet long, and seven broad, and the tiny 
 engine, the cylinders of which were only four inches in 
 diameter, was placed upon a platform between the two 
 boats, which it was found to move easily along at the 
 rate of five miles an hour. The experiment was re- 
 peated shortly afterwards \\-ith another boat and a speed 
 of six and a half or seven miles an hour having been 
 obtained, a narrative of the experiments was drawn up 
 by ;Mr. Taylor and published in the Caledonian Mercury 
 and other papers. Small as was the scale on which 
 these experiments were conducted, they demonstrated 
 for the first time the possibility of moving a vessel con- 
 tinuously without the aid of, and even in opposition to, 
 wind or tide. Mr. Miller was not unaware of the 
 stupendous results to be anticipated from such an in- 
 vention ; but the kind of engine employed was regarded 
 
1G4 invention and discovert. 
 
 by him as not adapted for the purpose of practical steam 
 navigation. The experiments were suspended, and 
 after amusing themselves for a few days on the lake 
 with the first steamboat ever employed, the inventors 
 removed the engine employed in the original experi- 
 ment and carried it into the house of Mr. Miller where it 
 remained an ornamental piece of furniture for many years. 
 It is, in fact, as satisfactorily shown by Mr. Ben- 
 net "Woodcroft, to the perseverance of the young 
 mechanic employed at the lead mines at Wanlockhead, 
 that we owe the construction not of a mere philosophi- 
 cal toy but of a really practical steamboat. In the year 
 1801 Thomas, Lord Dundas, of Kerse, having heard of 
 the Dalswinton trials, employed Mr. S}Tnington to make 
 a series of experiments on steamboats with a view to 
 enable them to be substituted for the horses then em- 
 ployed to draw vessels on the Forth and Clyde canal. 
 These experiments occupied moi:e than two years, and 
 are said to have cost more than seven thousand pounds. 
 The result of these efforts was the construction of the 
 " Charlotte Dundas," so named from his lordship's 
 daughter — " a vessel," says Mr. Woodcroft, " which 
 from the simplicity of its machinery, might have been 
 at work to this day with such ordinary repairs as are 
 now occasionally required to all steamboats." In this 
 vessel there was an engine with the steam acting on 
 each side of the piston (Watt's patented invention), 
 working a connecting rod and crank, Pickard's patent, 
 and the union of the crank to the axis of Miller's im- 
 proved paddle-wheel, which was Symington's own 
 invention. Thus had Symington combined together 
 for the first time, those improvements which constitut® 
 
IXVEN'TION AND DISCOVERT. 165 
 
 the present system of steam navigation. Having a 
 number of noblemen and gentlemen aboard, and towing 
 two vessels each of seventy tons burden, the " Char- 
 lotte Dundas " nxoved easily for nineteen miles and a 
 half in the face of a strong gale which prevented any 
 other vessel being even towed by horse power to 
 windward that day. Although an objection was raised 
 on account of the damage done to the banks by the 
 waves created by the paddles, the Duke of Bridge- 
 water gave an order to Symington to build eight boats 
 similar to the " Charlotte Dundas " to ply on his canal. 
 It is stated that Symington returned to Scotland elated 
 with the prospect of being able to introduce steam navi- 
 gation in a short time, and to realize to himself the 
 advantages which his ingenuity and unwearied perse- 
 verance gave him reason to anticipate ; but he was 
 doomed to disappointment, for on the same day that he 
 was informed by Lord Dundas of the final determination 
 of the committee not to allow steamboats to be em- 
 ployed on the canal, he received intelligence of the 
 death of the Duke of Bridgewater. Unable longer to 
 struggle against his misfortunes, his resources being 
 exhausted, he was obliged, with great reluctance, to lay 
 up his boat in a creek of the canal, where it remained 
 for a number of years exposed to public view. 
 
 Mr. Taylor's widow subsequently received a pension 
 from the government, granted by the late Lord Liverpool, 
 and in 1837 each of his four daughters received a gift of 
 £50 through Lord Melbourne. Mr. Miller, who was a 
 wealthy man sought no pecuniary aid. On the whole it 
 cannot be said that the pioneers of steam navigation 
 received rewards from the state commensurate with 
 
166 INVENTION AND DISCOVERY. 
 
 the ^eat services which they rendered to the world. 
 Symington presented a memorial to the Lords of the 
 Treasury in 1825, in consequence of which the sum of 
 one hundred pounds was awarded to him from Her 
 Majesty's privy purse, and a year or two afterwards a 
 further sum of fifty pounds ; but in the decline of his life 
 he was chiefly supported by a trifling sum allowed him 
 by the steamboat proprietors, and by the assistance of a 
 few relatives and friends. 
 
 The year 1812 is memorable as the year in wbich a 
 practical steamboat was first constructed to ply for 
 hire. This was the " Comet " steam passage boat, 
 designed by Mr. Henry Bell, of Helensburgh. It was a 
 vessel of thirty tons burden, only propelled by a steam 
 engine driving two paddle-wheels on each of her sides. 
 The engine was estimated at three-horse power. 
 Having built and launched this vessel on January 18, 
 1812, Mr. Bell exhibited the following placard on 
 the 5th of August in that year : — 
 
 " Steam Passage Boat the ' Comet,' between Glasgow, 
 Greenock, and Helensburgh, for passengers only. 
 
 " The subscriber having, at much expense, fitted up a 
 handsome vessel to ply upon the river Clyde, between 
 Glasgow and Greenock, to sail by the power of the wind, 
 air, and steam, he intends that the vessel shall leave the 
 Broomielaw on Tuesdays, Thursdays, and Saturdays, 
 about mid-day, or at such hour thereafter as may answer 
 from the state of the tide ; and to leave Greenock on 
 Mondays, Wednesdays, and Fridays, in the morning, to 
 suit the tide. The elegance, comfort, safety, and speed 
 af this vessel require only to be proved to meet the 
 
INVEXTIOK AND DISCOVERY, 167 
 
 approbation of the public ; and the proprietor is deter- 
 mined to do everything in his power to mei'it public 
 encouragement. The terms are, for the present, fixed at 
 four shillings for the best cabin, and three shillings the 
 second ; but beyond these rates nothing is to be allowed 
 to servants, or any other person employed about the 
 vessel. The subscriber continues his establishment at 
 Helensburgh Baths, the same as for years past, and a 
 vessel will be in readiness to convey passengers to the 
 ' Comet' from Greenock to Helensburgh. Passengers 
 by the ' Comet' will receive information of the hours of 
 sailing by applying at Mr. Houslen's Office, Broomielaw ; 
 or Mr. Thomas Blackney's, East Quay Head, Greenock. 
 
 "Hexry Bell." 
 
 Mr. Bell's enterprise and speculation for the first 
 year turned out a losing one ; for so great, says he, was 
 the prejudice against steam-boat navigation by the hue 
 and cry raised by the fly-boat and coajh proprietors, 
 that for the first six months, very few would venture in 
 her. But in the course of the winter of 1812, as she 
 had plied all the year she began to gain credit ; as 
 passengers were carried twenty-four miles as quick as 
 by the coaches and at a third of the expense, besides 
 being warm and comfortable. But even after all, he was 
 a great loser that year. In the second year, he made her 
 a jaunting boat all over the coasts of England, Ireland, 
 and Scotland, to show the public the advantage of steam 
 boat navigation over the other mode of sailing. 
 
 Two years after the launching of the " Comet," Mr. 
 George Dodd, an enthusiastic engineer and designer of 
 steamboats, successfully navigated a now v^<:-<ir.l TTimcd. 
 
1G8 INVKNTIOX AND DISCOVERT. 
 
 the "Majestic," from Port Glasgow in Scotland to 
 Dublin, and thence round the Land's End in Cornwall 
 to the Port of London. It was chiefly owing to Mr. 
 Dodd's exertions that steam, vessels were regularly 
 established on the Thames in the year 1814. In 1817 
 five of these vessels were plying for passengers under 
 Mr. Dodd's directions ; two between London and Rich- 
 mond, two between London and Gravesend, and two 
 between London and Margate. A large number of 
 serious accidents by fire and the bursting of the boilers 
 of the high pressure engines then in use, led to a Par- 
 liamentary inquiry in 1817 ; but in spite of adverse 
 witnesses and the organized opposition of the Thames 
 watermen, the cause of steam navigation rapidly gained 
 ground, and the committee inserted in their report the 
 following memorable words : — 
 
 " Your committee entered on the task assigned 
 them with a strong feeling of the inexpediency of 
 legislative interference with the management of pri- 
 vate concerns or property, farther than the public 
 safety should demand, and more especially with the 
 exertions of that mechanical skill and ingenuity, in 
 which the artists of this country are so pre-eminent, by 
 which the labour of man has been greatly abridged, the 
 manufactures of the country carried to an unrivalled per- 
 fection, and its commerce extended over the whole world. 
 
 "Among these, it is impossible for a moment to 
 overlook the introduction of steam as a most powerful 
 agent, of almost universal application, and of such 
 "utility, that but for its assistance, a very large portion of 
 the workmen employed in an extensive mineral district 
 ©f this kingdom, would be deprived of their subsistence. 
 
INVENTION AND DISCOVERY. 169 
 
 " A reference to the evidence taken, will also show 
 with what advantage this power has lately been applied, 
 in Great Britain, to propel vessels both of burthen and 
 passage ; how much more extensively it has been used 
 in America, and of what farther application it is cer- 
 tainly capable, if it may not be said to be even now 
 anticipated in prospect." 
 
 THE HUMOROUS SIDE OF TELEGRAPHY. 
 
 The despatches which pass over a telegraph line, says 
 a practical manager of an extensive sj-stem of telegraphy, 
 if collected together, would present a very curious and 
 interesting volume of correspondence. The price of 
 the transmission of a message depending upon the 
 number of words Avhich it contains, of course renders 
 the construction of it necessarily as brief as possible. 
 Most despatches are contained in less than ten words 
 (exclusive of address and signature, which are not 
 charged for), and it is surprising how much matter is 
 often contained in this brief number. 
 
 A lady, desirous of ascertaining when her husband 
 would return home, sent liim a message making the 
 inquiry; to Avhich he responded, that important business 
 detained him, and that he could not leave for some days. 
 
 The lady immediately replied by sending him another 
 despatch in the following laconic manner : — 
 
 ''At home, August 12, 1859. 
 "To F. C. P. — Despatch received. Deuteronomy 
 xxiv. 5. " (Signed) Kate." 
 
170 INVENTION AND DISCOVERT. 
 
 The gentleman to whom the despatch was addressed, 
 tip;jn referring to the passage in the Scriptures alluded to, 
 obtained the following lengthy and suggestive epistle : — 
 
 " "When a man hath taken a new wife, he shall not 
 go out to war, neither shall he be charged with any 
 business : but he shall be free at home one year, and 
 shall cheer up his wife which he hath taken." 
 
 The second example is a reply sent to a person who, 
 having committed some offence against the laws, and 
 run away, was desirous of ascertaining if it would be 
 prudent i'or him to return. He therefore telegraphed 
 in the following laconic style: — 
 
 " Juhj 4, 1859. 
 
 " To B. C. M.,— Is everything 0. K. ? 
 
 " D. T. M." 
 
 To which he obtained the following brief reply: — 
 
 " Juhj 4, 1859. 
 "To D. T. M.,— Proverbs, chap, xxvii. 12. 
 
 " B. C. M." 
 Upon reference to the passage indicated, the inquir- 
 ing individual obtained the following valuable advice, 
 which, it is to be presumed, he followed : — " A prudent 
 man foreseeth the evil, and hideth himself; but the 
 simple pass on, and are punished !" 
 
 THE HISTORY OF PAPER-HANGINGS. 
 
 Flock paper-hangings were first manufactured in Eng- 
 land, and invented by Jerome Lanyer, who obtained a 
 patent in th« r-eisn of King Charles I., and carried on 
 
IXVEXTION AND DISCOVERY. 171 
 
 his art in London. In this patent it is stated, that by 
 his endeavours he hath found out au art and mystery of 
 afi&xing wool, silk, and other substances, with oil, size, 
 and other cements, to make them useful for hangings 
 and other occasions, which he calleth Londriniana ; and 
 that the said art is of his own invention. M. Savary, in 
 his " Dictionary of Commerce," 1720, says that flock- 
 hangings were first made at Rouen, but in a coarse 
 manner, being only used for grounds, on which, with 
 flocks of different kinds, were formed designs of bro- 
 cades. They essayed to imitate tapestry-hanging, but 
 not satisfactorily ; and at last a manufactory was esta- 
 blished at Paris, in the Faubourg St. Antoine, and 
 there flowers and grotesques were introduced with suc- 
 cess. His descriptions, detailing the manufacture of 
 flock-hangings, do not allude to the use of paper as a 
 ground, nor to blocks for printing. A French author, 
 writing in 1723, says that paper-hangings, called tapestry 
 in paper, were, till lately, only employed by the country 
 people for their cottages, or by small tradesmen in their 
 shops or rooms ; but towards the end of the seventeenth 
 centuiy, the manufacture was raised to such a point 
 of perfection and beauty, that, besides the quantities 
 that were exported abroad, and to the principal cities 
 of the kingdom, there was scarcely a house in Paris 
 not decorated with it. In England this manufacture 
 continued from the time of Lanyer, and obtained a high 
 reputation. 
 
 In 1712, a duty of l^d. per square yard was 
 imposed; and a Mr. Jackson, who established a fac- 
 tory at Battersea for paper-hangings of classic design 
 in chiaro-oscuro, wrote, in a work published in 1754, in 
 
172 INVENTIOX AXD DISCOVERY. 
 
 praiseof hisown productions, and condemning the fanciful 
 paper-hangings at the time so much used, comparing 
 them with the Chinese. In the year 1780, there was 
 established at Chelsea a manufactory for paper-hangings 
 of a very superior description, by George and Frederick 
 Echardts. "Works excelling even those of the present 
 day were produced at this place. Some of the blocks 
 used still exist, which are said to have great merit in the 
 designs, and are, some of them, eight feet in length. 
 These manufacturers carried the art to its highest point 
 in England : they printed not only on paper, but also on 
 silk and linen, and employed a number of artists, in 
 addition to workmen and children. The discovery of 
 how to make paper in continuous lengths, and the repeal 
 of the paper duty, have since then converted this once 
 luxurious decoration into an almost universal covering 
 for walls. 
 
 A GREAT INVENTOR'S RECREATIONS . 
 
 It is remarkable that the designer of the Thames 
 Tunnel, whose name is identified with gigantic under- 
 takings, was also the inventor of some of the most 
 beautiful and delicate machines which have delighted 
 the visitors to our great exhibitions. Many loiterers at 
 South Kensington in 18G2 stopped before a neatly 
 dressed young woman, who amidst the whirling and 
 screaming of innumerable machines of vast dimensions, 
 sat thoughtfully clipping off neat balls of cotton as they 
 grew under her hand with marvellous rapidity. First a 
 
INVENTIOJN AND DISCOVERY. 173 
 
 point, then a little pea ; then, almost too quickly for the 
 eve to detect it, the cotton balls, AvounJ with beautiful 
 regularity, formed themselves, while the young woman 
 with her scissors, never forgetting her task for a mo- 
 ment, severed them one after the other, knowing the 
 exact moment when to clip the thread and let fall into 
 a basket below the balls, which were always found to 
 contain the same number in a pound weight. This 
 machine was among the earliest efforts of the inventive 
 genius of ^[arc Isambard Brunei. It gave at once a 
 marvellous impulse to the employment of cotton spin- 
 ning ; for with the common sorts of cotton the cost of 
 wooden reels was now unnecessary, and everybody could 
 tell by weighing, in a moment, how much of actual 
 cotton he had obtained for his money. Brunei's 
 machine measured the length of the thread which is 
 wound, and proportioned the size of the ball exactly to 
 its weight and fineness. Unhappily for the ingenious 
 inventor, he neglected to secure the benefit of his idea, 
 and while fortunes were realized through its means, he 
 himself remained without any reward. Nearly sixty 
 years ago, when he visited the workshops of Messrs. 
 Strutt, at Belper, in Derbyshire, where there were six 
 hundred and forty persons employed, he wrote in his 
 diary, " I observed they had adopted my contrivance for 
 winding cotton into balls. There were about twenty 
 spindles on one swing.' 
 
 A lady, a friend of Brunei, having once expressed 
 her admiration to him of the little cotton balls, then a 
 novelty, suggested to him jokingly that he ought to 
 devise something to save the ladies the trouble of 
 hemming and stitching. The remark was forgotten bv 
 
174 INVENTION AND DISCOVERT. 
 
 the lady, until one day she was shown a new machine, 
 not that famous sewing machine which has since de- 
 lighted so many beholders, but an expressly ingenious 
 patent for trimmings and borders for muslins, lawns, and 
 cambrics. Tlie inventor's account, in his specification, of 
 its advantages was, " that the operations of hemming, 
 Avhipping, or otherwise securing from ravelling the edges 
 of trimmings cut in narrow slips out of border webs, as 
 they have unavoidably been hitherto, were by this in- 
 vention altogether saved." 
 
 "Admirable!" exclaimed the lady; "but are you 
 the inventor of this too ?" 
 
 " The inventor, but not the originator," returned 
 her visitor, perceiving that his questioner had forgotten 
 the conversation which had been so fruitful in his 
 mind. 
 
 " Indeed ! who then was the originator ?" 
 
 " Yourself, madam," replied Brunei ; and the cir- 
 cumstances of their previous conversation flashed upon 
 the lady's mind in a moment. 
 
 The comparison to the elephant's trunk, which is 
 equally capable of raising a great bulk, or of picking up 
 a pin, was never more aptly made than in the case of 
 Brunei. He found amusement, amidst his gTander 
 schemes, in devising a number of little inventions for 
 obviating some trifling inconvenience in daily life. An 
 aged friend of his finding a difiiculty in shufiling cards 
 for whist, a game in which she found recreation, Brunei 
 invented, expressly for her use, a card shuffler ; the 
 precise form of which is now forgotten. The cards 
 were placed in a box, the handle was turned, and in a 
 few seconds the sides of the box opened, presenting the 
 
INVENTION AND DISCO VERY. 175 
 
 pack divided into four parts, and the cards effectually 
 mixed. Tliis ingenious machine was presented by 
 Brunei to Lady Spencer. 
 
 FOLEY THE FIDDLER, AND THE IXTRODUCTION OP 
 SPLITTING-MILLS IN NAIL-MAKING. 
 
 The most extraordinary and the best attested in- 
 stance of enthusiasm in conjunction with perseverance, 
 says Coleridge, is related of the founder of the Foley 
 family. This man, who was a fiddler, living near Stour- 
 bridge, was often witness of the immense labour and loss 
 of time, caused by dividing the rods of iron necessary in 
 the process of making nails. The discovery of the 
 process called splitting-mills, was first made in Sweden, 
 and the consequences of this advance in art were most 
 disastrous to the manufacturers of iron about Stour- 
 bridge. Foley, the fiddler, was shortly missed from his 
 accustomed rounds, and was not again seen for many 
 years. He had mentally resolved to ascertain by what 
 means the process of splitting bars of iron was accom- 
 plished ; and, without communicating his intention to 
 a single human being, he proceeded to Hull, and thence, 
 without funds, worked his passage to the Swedish iron 
 port. Arrived in Sweden, he begged and fiddled his 
 way to the iron foundries, where, after a long time, he 
 became a universal favourite with the workmen ; an(:, 
 from the apparent entire absence of intelhgence, or any- 
 thing like ultimate object, he was received into the 
 
176 INVENTION AND DISCOVERY. 
 
 works, to every part of which he liad access. He took 
 the advantage thus offered, and having stored his 
 memory with observations and all the combinations, 
 he disappeared from amongst his kind friends as he 
 had appeared — no one knew whence or whither. On 
 his return to England he communicated his voyage and 
 its results to Mr. Knight, and another person in the 
 neighbourhood, with whom he was associated, and 
 by whom the necessary buildings were erected, and 
 machinery provided. When at length everything was 
 prepared, it was found that the macliinery would not 
 act ; at all events, it did not answer the sole end of its 
 erection — it would not split the bar of iron. Foley 
 disappeared again, and it was concluded that shame 
 and mortification at his failure, had driven him away 
 for ever. Not so : again, though somewhat more 
 speedily, he found his way to the Swedish iron works, 
 where he was received most joyfully, and, to make sure 
 of their liddler, he was lodged in the splitting-mill itself. 
 Here was the very end and aim of his life obtained 
 beyond his utmost hope. He examined the works, and 
 very soon discovered the cause of his failure. He now 
 made drawings, or rude ti-acings, and having abided an 
 ample time to verify his observations, and to impress 
 them clearly and vividly on his mind, he made his way 
 to the port, and once more returned to England. This 
 time he was completely successful, and by tiie results of 
 his experience, enriched himself and greatly benefited 
 ^is countrymen. 
 
IXVr.NTlOX AXD DISCOVERV. 177 
 
 THE BEGINNING AND END OF TAEACnUTES. 
 
 There can be no doubt that the first idea of the parachute 
 was taken from tlic iiiubrelhx, or rather tlie parasol. 
 Father Loubere, in his curious account of Siam, relates 
 that a person, famous in tliat remote country for his dex- 
 terity, was accustomed to divert the king and the royal 
 court by the prodigious leaps which ho took, having 
 two umbrellas with long slender handles fastened to his 
 girdle. He generally alighted on the ground, but was 
 sometimes carried by the force of the wind against trees 
 and houses, and not unfrequcntly into the river. Not a 
 great many years ago the umbrella was, at least on 0:10 
 occasion, employed in Europe with similar objects, as 
 well as in America. In the campaign of 1793 a French 
 general, named Bournonville, having been sent by the 
 National Convention, with four more commissioners, to 
 treat with the Prince of Saxe-Coburg, was, contrary 
 to the rules of war, detained a prisoner with his 
 companions and sent to the fortress of Olmutz, where 
 he suflcred a rigorous confinement. In ihis cruel 
 situation, he made a desperate attempt to regain 
 his liberty. Having provided himself with an umbrella 
 he jumped from a window forty feet high, but being 
 a very heavy man, this screen proved insufficient to 
 let him down safely. He struck against an oppo- 
 site wall, fell into the ditch, and broke his leg, 
 and was carried in this condition back again to his 
 dungeon. 
 
 }; 
 
178 INVENTION AND DISCOVERY. 
 
 Blancliard was the first person Avho ever constructed 
 a parachute, for the purpose of using it with a balloon 
 in cases of accident while aloft. During an excursion 
 which he took from Lisle about the end of August, 1785, 
 when he traversed, without halting, a distance not less than 
 three hundred miles, he let down a parachute with a basket 
 fastened to it containing a dog, from a great height, 
 which fell gently through the air, and conveyed the 
 animal to the ground unhurt. Since that period the 
 practice and management of the parachute have been 
 carried much farther by other aeronauts, and particularly 
 by M. Garnerin, who repeatedly descended from the 
 region of the clouds with that very slender machine. 
 This ingenious Frenchman visited London during the 
 short peace of 1802, and made two ascents with his 
 balloon, in the second of which he let himself fall from 
 an amazing elevation with a parachute. This consisted 
 of thirty- two gores of white canvas formed into a hemi- 
 spherical shape of twenty-three feet in diameter, and 
 having a hole in its centre admitting short pieces of tape 
 to fasten it to the several gores. About four feet and a 
 half below the top a wooden hoop, of eight feet dia- 
 meter, was attached by a string from each seam ; so 
 that when the balloon rose, the parachute hung like a 
 curtain from this hoop. Below it was suspended a 
 cylindrical basket covered with canvas, about four feet 
 high and two and a quarter wide. In this basket the 
 aeronaut, dressed in a close jacket and a pair of trowsers, 
 placed himself and rose majestically from an enclosure 
 near North Audley Street, at six o'clock in the evening 
 of the 2nd of September. After hovering seven or eight 
 minutes in the npper region of the atmosphere, hemedi- 
 
INVENTION AND DISCOVERY. 179 
 
 tated a descent in his parachute ; and cut the cord by 
 which it was attached to the net of the balloon. 
 It instantly expanded and for some seconds it de- 
 scended with an accelerating velocity, till it took such 
 wide oscillations that thebasketor car was at times thrown 
 almost level or horizontal with the parachute. Borne 
 along at the time by the influence of the wind the para- 
 chute passed over Marylebone and Somer's Town, and 
 almost grazed the houses of St. Pancras. At last it fortu- 
 nately struck the ground in a neighbouring field, but the 
 shock was so violent as to throw Garnerin on his face, 
 by which accident he received some cuts and bled 
 con>iJerably, He seemed to be much agitated, and 
 trembled exceedingly at the moment he was released 
 from the car. One of the stays of the parachute had 
 chanced to give way, which untoward circumstance de- 
 ranged the apparatus, disturbed its proper balance, and 
 threatened the adventurer during the whole of his 
 descent with immediate destruction. At the moment 
 of separating the parachute the balloon took a rapid 
 ascending motion, and was found next day twelve miles 
 distant from the place of departure. M. Garnerin, how- 
 ever, was not daunted by this accident. He became 
 bolder and bolder in his experiments, and at length 
 ventured to ascend in the darkness of the night, a feat 
 now common with aeronauts, but sixty years ago new 
 to the public, and considered a proof of extraordinary 
 daring. 
 
 The only aeronaut who ventured to construct a para- 
 chute differing in any remarkable way from the inverted 
 umbrella form of Garnerin was ^Ir. Cocking, whose 
 disastrous descent took place on the 2-ith of July, 1837. 
 
180 INVENTION AND DISCOVERY, 
 
 Mr. Cocking appears to have imbibed his taste for this 
 dangerous kind of experiment, from having been pre- 
 sent at one of Garnerln's descents. Pondering on the 
 subject one day, he observed an open umbrella acci- 
 dentally let fall from the balcony of a house into the 
 street He noticed that the umbrella fell for the first 
 few feet with the handle downwards, but that after 
 several oscillations its position was reversed, and having 
 become inverted it fell steadily to the ground. From 
 this he unhappily inferred that the proper shape of such 
 a construction was exactly the opposite to that used by 
 Garnerin, that it should have a convex instead of a 
 concave surface, or a cone with its apex dov>-nward. 
 Having completed a machine of this kind, his great 
 difficulty was to find a means of conveying it to a sufii- 
 cient altitude to make a satisfactory descent, which he 
 decided to be about a mile and a quarter. This, how- 
 ever, was at last furnished by the construction by the 
 proprietors of Vauxhall Gardens of a balloon of extra- 
 ordinary dimensions ; and Mr. Green, who undertook 
 to ascend with the balloon, was unfortunately induced 
 to consent to permit !Mr. Cocking to attach his singular- 
 looking construction to the car by a rope of forty or 
 fifty feet long. 
 
 On the day fixed for the ascent, a vast concourse of 
 people assembled at the gardens, attracted by the singu- 
 lar appearance of the new parachute. At twenty-five 
 minutes to eight in the evening, the huge balloon 
 ji.scended with its unaccustomed appendage — Mr. 
 Cockino' sitting in the car attached to the parachute. 
 The position of Mr. Green and his companion, Mr. 
 Spencer, was scarcely less dangerous than that of their 
 
IXYKNirOX AND DISCOVERY, 181 
 
 sanguine companion, ■who from time to time boKl con- 
 verse -svith them, as the parachute swang with him in 
 mid-air. Hitherto, in the case of parachute descents, 
 the custom had been to construct a balloon of cheap 
 materials, merely to serve for one ascent, and which 
 "was generall}' either lost or destroyed ; for no aeronaut 
 could be found who would uxidertake to ascend, and 
 suffer so great a weight to be instantaneously separated 
 from the balloon. Mr. Cocking's construction was, 
 moreover, unusually heavy, weighing, with its inventor 
 in the car, 393 pounds. From the difficulty of rising 
 with so great an incumbrance, it was found necessarv 
 either to make the descent or finally abandon it, wlien 
 the aeronauts had attained a height a little under a 
 mile, the party being then over Blackheath, To the 
 invitation of his companions to relinquish the scheme, 
 and to mount to the balloon car by means of tackle 
 provided for the purpose, ihe enthusiastic inventor only 
 returned a good-humoured refusal, and, with a " Good 
 night," and a warning to his associates above him, he 
 finally severed himself from the rope. Then began, for 
 the travellers in the car above, one of the most perilous 
 voyages ever experienced in balloon travelling. 
 
 "1 desired Mr. Spencer," says Mr. Green, in his 
 exciting narrative of the events of that evening, " to 
 take fast hold of the ropes, and, like myself, to crouch 
 down in the car. In consequence of being compelled to 
 keep hold of the valve-line, of course I had but one 
 hand which was available for the purposes of safety. 
 "With that hand, fortunately, in the perilous situation 
 into which we were speedily thrown, I was able to 
 maintain my position. 
 
182 INVENTION AND DISCOVERY. 
 
 " Scarcely were these words uttered before we ^At a 
 slight jerk upon the liberating iron, but quickly dis- 
 covered, from not having changed our elevation, that 
 Mr. Cocking had failed in his attempt to free himself. 
 Another, but more powerful jcfk ensued, and in an in- 
 stant the balloon shot upwards with the velocity of a 
 skyrocket. 
 
 " The effect upon us at this moment is almost be- 
 yond description. The immense machine which sus- 
 pended us between ' heaven and earth,' whilst it appeared 
 to be forced upwards with terrific violence and rapidity 
 through unknown and untravelled regions, amidst the 
 bowlings of a fearful hurricane, rolled about as though 
 revelling in a freedom for which it had long struggled, 
 but of which, until that moment, it had been kept in 
 absolute ignorance. It at length, as if somewhat 
 fatigued by its exertions, gradually assumed the motions 
 of a snake working its way with astonishing speed 
 towards a given object. During this frightful operation 
 the gas was rushing in torrents from the upper and 
 lower valves, but more particularly from the latter, as 
 the density of the atmosphere through which we were 
 forcing our progress pressed so heavily on the valve at 
 the top of the balloon, as to admit of comparatively bat 
 a small escape by that aperture. 
 
 " At this juncture, had it not been for the applica- 
 tion to our mouths of two pipes leading into an air-bag, 
 with which we had furnished ourselves previous to 
 starting, we must within a minute have been suffocated, 
 and so, but by different means, have shared the melan- 
 choly fate of our friend. 
 
 *' This bag was formed of silk, sufficiently capacious 
 
INVENTION AlffD DISCOVERY. 183 
 
 to contain 100 gallons of atmospheric air. Prior to our 
 ascent the bag was inflated, with the assistance of a 
 pair of bellows, with fifty gallons of air, so allowing for 
 an}' expansion which might be produced in the upper 
 regions. Into one end of this bag were introduced two 
 flexible tubes, and the moment we felt ourselves to be 
 going up in the manner just described, Mr. Spencer, as 
 well as myself, placed either of them in our mouths. 
 By this simple contrivance we preserved ourselves from 
 instantaneous suff"ocation— a result which must have 
 ensued from the apparently endless volume of gas with 
 which the car was enveloped. The gas, notwithstanding 
 all our precautions, from the violence of its operation 
 on the human frame, almost immediately deprived us of 
 sight, and we were both, as fai' as our visionary powers 
 were concerned, in a state of total darkness for between 
 four and five minutes. 
 
 " As soon as we had partially regained the use of 
 our eyes, and had somewhat recovered from the effects of 
 the awful scene into which, from the circumstances, we 
 had plunged, our first attention was directed to the 
 barometer. I soon discovered that my powers had not 
 sufficiently returned to enable me to see the mercury ; 
 but ]\lr. Spencer found that it stood at lo'iO, giving an 
 elevation of 23,384 feet, or about four miles and a 
 quarter. 
 
 " I do not conceive, from the length of time I had 
 been liberating the gas, that this was anything like our 
 greatest altitude, for we were evidently effecting a rapid 
 descent. This impression is corroborated by a rough 
 calculation, which leads me to believe, knowing the cus- 
 tomary rate at which the gas makes its escape, taken in 
 
184 INVEKTIOX AXD DISCOVERY. 
 
 consideration in conjunction with the length of time I 
 liad been pulling the valve-line, that we had lost at least 
 :;0,000 feet of gas, or 180,000 gallons— a total of SOOO 
 feet more than my own balloon will contain. 
 
 " Wo were now rapidly on the descent, having got 
 rid of all the unusual annoyances to which I have re- 
 ferred ; and finding that we were proceeding downwai-ds 
 with the ordinary calmness and steadiness, although 
 with much speed, we hastened to empty two tin vessels 
 of water which we had taken up for the purpose, and to 
 charge them with the atmospheric air through which 
 we were then descending. Our desire was to eifect this 
 object at our greatest altitude ; but, from the circum- 
 stances which I have detailed, Ave were unable to nccom- 
 plish that end, and when the vessels were filled, the 
 mercury in the barometer had ascended to 17"50, or an 
 elevation of 10,632 feet — about three miles. 
 
 "When we had accomplished this matter, finding 
 ourselves suffering severely from cold, we referred to 
 the thermometer, which stood at 28', four degrees below 
 the freezing point. 
 
 " We were at this period apparently about two miles 
 and a half above a dense mountain of clouds, which pre- 
 sented the appearance of impenetrable masses of dark 
 marble, whilst all around us was shed the brilliant rays 
 of the setting sun. We continued to descend with great 
 rapidity, and as we approached the clouds that velocity 
 considerably increased. At this time, so large had been 
 our loss of gas, that the balloon, instead of presenting 
 to our sight its customary rotund and widely-expanded 
 form, novr merely looked like a comparatively small 
 parachute, or half dome, Avithout any aperture in its 
 
IWEKTIOX AND DISCOVERY. 18C 
 
 centre. TVc had parted witli at least one-third of our 
 gas, and were as far beneath the balloon itself as fifty or 
 sixty feet." 
 
 It was not until the following day that the balloon 
 travellers learned the fate of their unfortunate com- 
 panion. The construction in which he had placed so 
 much confidence unhappily proved altogether unadapted 
 for sustaining itself in the air. It collapsed, and turned 
 over when at a vast height, and, rap^ly descending, 
 dashed the unfortunate occupant of its car with terrible 
 violence upon the ground, near Lee, in Kent, where his 
 lifeless body was picked up by some farm labourers. 
 Parachutes have ended where they began, in the umbrella 
 form used by Garnerin. Since Mr. Cocking's death, 
 numerous successful descents have been made by means 
 of constructions of this kind; but, on the whole, the 
 parachute does not appear to be adapted to attain any 
 really useful purpose. 
 
 DR. CARTWRIGHT, THE INVENTOR OF THE POWER- 
 LOOM. 
 
 One of the most ingenious, but also one of the most 
 eccentric, of our inventors, was Dr. Edmund Cartwright, 
 to whom ihe world is indebted for the power-loom. He 
 was a younger son of John Cartwright, of Marnham in 
 Nottinghamshire, the representative of an ancient and 
 respectable family established at that place. Edmund 
 was educated at Oxford, where he distinguished him- 
 self at the age of nineteen, by the publication of a 
 
18G INVENTION AND DISCOVERY. 
 
 volume of poems which became popular. Destined for 
 the Church, he obtained the appointment of curate of a 
 country parish, and it is stated that w^hile here he 
 studied medicine, in order to give gratuitous advice to 
 the poor in his neighbourhood. Attending a boy one 
 day who was ill of a putrid fever, he happened to re- 
 member a case in which putrefaction was, as he believed, 
 arrested by the administration of brewer's yeast. He 
 accordingly ventured to administer j-east in small doses, 
 and diluted with water, to his patient, who speedily re- 
 covered. The fact becoming known, yeast quickly 
 became a fashionable remedy, though now almost for- 
 gotten. Having been appointed in 1779 to the living 
 of Goadby IMarwood, he began a number of experiments 
 in farming, which, though not always very successful, 
 attracted much attention. Dr. Cartwright had no 
 knowledge of mechanics, and reached his forty-second 
 year before he thought of turning his attention in any 
 way to that subject. How he came first to think of the 
 possibility of constructing his power-loom, he has 
 himself narrated in a curious letter to a friend : — 
 
 " Happening," he says, " to be at Matlock in the sum- 
 mer of 1 784, I fell in company with some gentlemen of 
 Manchester, when the conversation turned on Ark- 
 wright's spinning machinery. One of the company 
 observed that as soon as Arkwright's patent expired, 
 so many mills would be erected, and so much cotton 
 spun, that hands never could be found to weave it. To 
 this observation I replied that Arkwright must then set 
 his wits to work to invent a weaving mill. This brought 
 on a conversation on the subject, in which the Man- 
 chester gentlemen unanimously agreed that the thing 
 
rXVRXTION AND DISCOVERT. 187 
 
 was impracticable; and, in defence of their opinion. 
 they adduced arguments which I certainly was incom- 
 petent to answer, or even to comprehend, being totally 
 ignorant of the subject, having never at that time seen 
 a person weave. I controverted, however, the imprac- 
 ticability of the thing by remarking, that there had 
 lately been exhibited in London an automaton figure 
 which played at chess. Now you will not assert, 
 gentlemen, said I, that it is more difficult to construct 
 a machine that will weave, than one which shall make 
 all the variet}' of moves which are required in that com- 
 plicated game. Some little time afterwards, a particu- 
 lar circumstance recalling this conversation to my mind, 
 it struck me that, as in plain weaving, according to the 
 conception I then had of the business, there could only 
 be three movements, which were to follow each other in 
 succession, there avouM be little difficulty in producino- 
 and repeating them. Full of these ideas, I immediately 
 employed a carpenter and smith to carry them into 
 effect. As soon as the machine was finished. I o-ot a 
 weaver to put in the warp, which was of such materials 
 as sail-cloth is usually made of. To my great delight 
 a piece of cloth, such as it was, was the produce. As 
 I had never before turned my thoughts to anything 
 mechanical, either in theory or practice, nor had ^ver 
 3een a loom at work, or knew anytliing of its construc- 
 tion, you will readily suppose that my first loom was a 
 most rude piece of machinery. The warp was placed 
 perpendicularly, the reed fell with the weight of at least 
 half a hundredweight, and the springs which threw the 
 shuttle were strong enough to have thrown a congreve 
 rocket. In short, it required the strength of two 
 
188 INVENTION AND DISCOVEEY. 
 
 powerful men to work the machine at a slow rate, and 
 only for a short time. Conceiving, in my great sim- 
 plicity, that 1 had accomplished all that was required, 
 1 then secured what I thought a valuable property by a 
 patent, 4th of April, 1785. This being done, I con- 
 descended to see how other people wove ; and you will 
 guess my astonishment, when I compared their easy 
 modes of operation with mine. Availing myself, how- 
 ever, of what I then saw, I made a loom in its general 
 principles nearly as they now are made. But it was 
 not till the year 1787 that I completed my invention, 
 when I took out my last weaving patent, August 1st of 
 that year." 
 
 To invent new machines became now the passion of 
 his life. In 1787, he established at Doncaster a weav- 
 ing and spinning factory, containing ten looms which 
 wove muslin, eight that wove cotton cloth, one that 
 wove sail-cloth, and one that wove cotton checks. To 
 move all this complicated machinery the Doctor em- 
 ployed, for a long time, the labour of an ox ; but two 
 years later he substituted a steam-engine for the pur- 
 pose. His career, however, was far from prosperous. 
 The old troubles of inventors, the hostility of the opera- 
 tives, who thought that the introduction of the power- 
 loom would destroy their livelihood, and the equally 
 vexatious and unjustifiable efforts of rival manufacturers 
 to deprive him of his rights, involving him in expensive 
 law-suits, while they enticed from his service his best 
 workmen, rendered the weaving factory at Doncaster an 
 unprofitable speculation, and it was finally abandoned 
 inl70n. Before this, he had patented two devices for 
 combing wool by machinery instead of by hand, which 
 
IXVEXTION AND DISCOVERT. 189 
 
 still continue in use in an improved form, besides ma- 
 chines for breaking and crushing hemp and flax, washing 
 wool, preparing and spinning fibrous materials, catting 
 the pile of velvets and similar fabrics, and a machine for 
 making rope, -svhich he termed a " cordelier." His 
 ardour for inventing in his new field of mechanics con- 
 tinued unabated. Though ruined in fortune by his 
 previous labours, he still continued to devise and con- 
 struct new machines for saving labour. 
 
 "In 1795," says Mr. Bennet ^Voodcroft, "he ob- 
 tained a patent for a form of brick, with which he could 
 build an arch that would have no lateral thrust, and 
 would rest like a beam on two perpendicular walls or 
 pillars. "When he removed to London, in 179G, he con- 
 structed a room in his house in the New Road with 
 these patent or geometrical bricks, Avhich were formed 
 with a rebate on their opposite sides, and keyed the 
 courses, so that no bond-timber was required in the 
 walls. Wyatt, the architect to George III., had a share 
 in this project; but, from the great cost of the bricks, 
 it came to nothing. In 1797 he had another patent for 
 constructing floors, partitions, ceilings, and roofs with 
 tiles. This was an improvement on a similar method 
 described by L'Espie many years before, and which, we 
 believe. Alderman Beckford adopted in his town man- 
 sion, to diminish the risk of fires. About this time 
 Mr. Cartwright became acquainted Avith Fulton, the 
 American engineer, and made a model of a boat im- 
 pelled by paddle-wheels that were moved by clock worlc. 
 Lord John Russell, now Earl Russell, when a boy of 
 about ten years of age, used, for his amusement, to set 
 it afloat on the stew-ponds in the gardens at "Woburn." 
 
190 INVENTION AND DISCOVERY. 
 
 Cartwriglit also invented, about the end of the last 
 century, some improvements in the steam-engine, and 
 was shortly afterwards engaged by the Duke of Bed- 
 ford to superintend his model farm at Woburn, where 
 he continued till 1807. In 1808 he presented a petition 
 to Parliament for remuneration for his invention of the 
 power-loom, stating that he had spent upwards of 
 £30,000 in bringing it to perfection ; and in the follow- 
 ing year he was fortunate enough to obtain a grant of 
 £10,000, which was stated to be for " the great service 
 he had rendered to the public by his invention of 
 weaving." Thus relieved from the pressure of worldly 
 cares, Dr. Cartwright purchased a small farm at Hol- 
 lenden, near Sevenoaks, in Kent, where he spent the 
 remainder of his life, equally divided between his 
 favourite pursuits of agriculture and mechanics. One 
 of his singular contrivances was a steam-engine to work 
 with alcohol, instead of water, which was provided with 
 a means of regularly condensing the steam, and leturn- 
 ing the somewhat costly fluid into the boiler — a system 
 which the temperance societies of the present day would 
 probably have objected to, as presenting more tempta- 
 tions to engine-drivers than is consistent with the safety 
 of passengers. Mr. Woodcroft gives an interesting 
 account of the fruits of his active genius in this retire- 
 ment. ]\Iany of his inventions were never patented by 
 him, among which one was for the application of the 
 tread-wheel to the working of trains, an apparatus 
 for beating and kneading dough Avhich he made for 
 his own household, a reaping machine, a three-farrow 
 plough, a dibbling machine for planting wheat, and a 
 carriage to be moved by the labour of the person 
 
INVENTION AND DISCOVEKV. 191 
 
 seated in it. By means of this latter contrivance two 
 men, in 1819, travelled in a cart, weighing with its load 
 sixteen hundredweight, twenty-seven miles in one day, 
 the joui-ney including two long and steep hills. This 
 cart was practically employed by the Doctor, to the great 
 astonishment of the country folks of the neighbour- 
 hood, in conveying necessaries from the market town to 
 his farm. Besides these he suggested a method for pre- 
 venting the forgery of bank-notes, by sending to India 
 a paper-maker, who, combining his own knowledge of 
 the art with the Oriental practice, might produce a 
 paper which it would be impossible to imitate. He also 
 made many experiments on the effect of sugar in 
 fattening sheep quickly, and showed that it would be a 
 profitable practice if sugar could be had for fourpence a 
 pound, which it may be remarked is considerably above 
 the price of coarse sugar when free from duty. He 
 discovered that a solution of common salt would arrest 
 and prevent mildew in wheat, and when at Woburn 
 he made numerous experiments on tlie effect of manures, 
 the results of which he communicated to the public in 
 an essay on the subject. Tlie poet Crabbe, who was per- 
 sonally acquainted with this ingenious man, says : — 
 " Few persons could tell a good story so well, no man 
 make more of a trite one. I can remember him, xuo 
 portly dignified old gentleman of the ezt generation, 
 grave and polite, but full of humour and spu*it." He 
 died in 1823 at Hastings, in his eightieth year, and was 
 buried at the parish church of Battle, where a monu- 
 ment is erected to his family. 
 
 Dr. Cartwright belonged to a family, who appear to 
 have been distinguished by their ingenuity and active 
 
192 INVENTION AND DISCOVERY. 
 
 benevolence. His father, Mr. John Cartwright, of 
 Marnham, -was a man of great energy. He was remem- 
 1 jered as among those who chiefly aided in putting an end 
 to the system of giving "vails," as the exorbitant gifts of 
 money to servants were then called, a system which had 
 become so burdensome as to render it impossible for 
 any but the rich to visit at the houses of distinguished 
 persons. Dr. Cartwright's elder brother was long cele- 
 brated as the advocate of parliamentary reform. Hazlitt 
 gives an interesting sketch of him as the " man of one 
 idea" in his " Essays." Another brother, Charles Cart- 
 wright, was an officer in the navy, of whom it is related 
 that he refused to accept prize money amounting to 
 upwai'ds of one thousand pounds allotted to him after an 
 engagement, and insisted on its being divided among 
 the sailors who had served with him on the occasion. 
 Dr. Cartwright's other brother, George, was a distin- 
 guished officer in the army, who acted as aide-de-camp 
 to the Marquis of Granby ; and who published in 1702, 
 at Newark, in Nottinghamshire, a valuable work in 
 three quarto volumes, entitled, " A Journal of Trans- 
 actions and Events during a Residence of nearly Si.xteen 
 Years en the Coast of Labrador," which for the first 
 time gave an accurate account of the life and habits of 
 the Esquimaux tribes. 
 
INVENTION AND DISCOVERY. T9o 
 
 THE LAYING OF THE GREAT ATLANTIC CAELE. 
 
 It was in tlie latter part of the niontli of July, lSo7, 
 that the "Niagara" aud "Agamemnon," the latter a 
 vessel of war lent by the British Government for the 
 purpose, sailed for Qucenstown, on the coast of Irelani^ 
 having aboard each one half of the great Atlantic 
 Cable, to be laid down between the Old and New Worlds. 
 "While the two vessels lay about a quarter of a mile 
 apart in the Cove of Cork, their cables were passed to 
 each other, temporanly joined, and for the first time 
 a circuit was established through two thousand five 
 hundred unbroken miles of submarine wires. The 
 "Niagara's" being attached to the galvanometei', and 
 the " Agamemnon's" brought directly to the battery, an 
 electrical current was found to pass immediately, though 
 at first slowly, thus at once putting at rest the anxious 
 «:;;ucstion of transmission through such an exti-aoruiuary 
 length of wire. It was at first intended that the two 
 ves.scls .should proceed to mid-ocean, and then, having 
 spliced the cable, should separate and steer one for 
 Newfoundland, the other for the coast of Ireland. At 
 the last moment this plan was changed, and it was do- 
 termincd that the " Niagara" should commence layii:<,' 
 down the cable from the Irish coast westward, that she 
 should be accompanied by all the vessels of the fleet, 
 and that reaching mid-ocean they should join cables. 
 An argiiment in favour of this arrangement was, that 
 one end of the cable being ashore, it could not be all 
 lost in event of an accident. It was further contended 
 
 o 
 
it94 INVENTION AND DISCOVERY. 
 
 that by this plan there would be much less weigrht of 
 cable to be sustained at any one time. Then the vessels 
 of the fleet would be together, ready to give each aid in 
 any emergency, and the work, so it was believed, could 
 be more satisfactorily performed by this than by the 
 mid-ocean arrangement. 
 
 After several experimental trips, improvements in 
 the paying-out machine in the method of coiling, and 
 other matters upon which the managers of the enterprise 
 had obtained dear-bought experience, the gallant vessels 
 again set sail in June, 1858, deeply sunk in the water 
 with their enormous freights. New misfortunes, how- 
 ever, awaited them. After having been three days at sea, 
 the expedition was overtaken by a fearful gale, which 
 continued without intermission for nine days. On the 
 seventh day of this heavy weather, the ships, which con- 
 tinued to keep together, had to part company, and the 
 " Agamemnon" was obliged to scud before the wind for 
 thirty-six hours ; her coals got adrift, and a coil of her 
 cable shifted, so that her captain for some time enter- 
 tained serious apprehensions for her safety, and from 
 the immense strain her waterways were forced open, and 
 one of her ports was broken. Two of the sailors were 
 severely injured, and one of the marines lost his reason 
 from fright. Yet such was the consummate skill, good 
 seamanship, and intrepidity of her commander, Captain 
 Priddle, that he was enabled to bring her to the ap- 
 pointed rendezvous, lat. 52° 2', long. 33° 18'. The 
 "Niagara" rode out the storm gallantly, having only 
 carried away her jib-boom and one wing of the figure- 
 head, the American Eagle. 
 
 Arrived at their rendezvous the splice was made, and 
 
INVENTION AND DISCOVERT. 195 
 
 the two vessels steamed away ; but scarcely had they got 
 out of sight of each other ere the cable broke, to the 
 intense disappointment of all on board. In the great 
 gale which the " Agamemnon" had encountered her vast 
 unmanageable coil of cable had shifted, and become a 
 mere shapeless, tangled mass, with which it seemed 
 impossible to deal in any way ; but this difficulty was 
 surmounted by the indefatigable zeal of the officei's and 
 men of science aboard. Again and again, however, the 
 cable parted, and the magno-electric current refused to 
 pass. After hauling up, cutting, and resplicing with 
 indomitable patience, they were compelled to re- 
 turn again unsuccessful. The expedition had not only 
 ended, bat three hundred miles of the valuable cable 
 had been lost in mid-ocean during this second trial. 
 The credit of the company fell rapidly, and the Atlantic 
 cable was virtually consigned to the long catalogue of 
 impracticable failures. StUl the managers of the enter- 
 prise did not falter. They had provided an extra 
 supply of wire in case of loss, and more than enough to 
 compass the ocean yet remained. The summer was 
 passing, and no time was to be lost ; and on Saturday, 
 the 17th July, the high-spirited men who had been 
 so unfortunate "with the prG\T.ous attempts, again sailed 
 upon their mission. Few persons in England or Ame- 
 rica had any hope of a good result ; but suddenly at 
 noon on the 5th of August the city of New York was 
 electrified by the announcement of the arrival of the 
 " Niagara" with the tidings that the Atlantic cable was 
 safely laid. Men were generally incredulous ; even the 
 sanguine shook their heads in doubt. But the news 
 was confirmed : the confirmation was immediately tele- 
 
19G INVENTION AXD DISCOVERT. 
 
 graphed to all parts of the United States, and the Avholo 
 country broke out in uproarious rejoicings. Bells were 
 rung, bonfires blazed, business ceased, illuminations 
 were seen, and the press everywhere discussed the news 
 so important to the American people. Finally, on the 
 IGth of August, the tidings reached ISTew York from 
 Newfoundland that the Queen's message, which it had 
 been arranged should be the first through the wires, had 
 been received. It was as follows : — 
 
 " To THE PrESIDEX'T OF THE UxiTED StATES, "WASH- 
 INGTON. 
 
 " The Queen desires to congratulate the President up- 
 on the successful completion of this great international 
 work, in which the Queen has taken the deepest interest. 
 
 " The Queen is convinced that the President will join 
 with her in fervently hoping that the Electric Cable 
 Avhich now connects Great Britain with the United 
 States, will prove an additional link between the nations 
 whose friendship is founded upon their common interest 
 and reciprocal esteem. 
 
 " The Queen has much pleasure in thus communi- 
 cating with the President, and renewing to him her 
 wishes for the prosperity of the United States." 
 
 To this the President returned the following reply, 
 also transmitted through the wires : — 
 
 " Washington City, Aug. IC, 18-58. 
 " To Her Majesty Victorta, Queen of Great Britain. 
 
 " The President cordially reciprocates the congratu- 
 lations of Her Majesty the Queen, on the success of the 
 
INVENTION AND DISCOVERT. 107 
 
 great interBational enterprise accomplished by tlie 
 science, skill, and indomitable energy of the two coun- 
 tries. It is a triumph more glorious, because far more 
 useful to mankind, than was ever won by conqueror on 
 the field of battle. 
 
 '• ^lay the Atlantic Telegraph, under the blessing of 
 Heaven, prove to be a bond of perpetual peace and 
 friendship between the kindred nations, and an instru- 
 ment destined by Divine Providence to diflfuse religion, 
 civilization, liberty, and law throughout the world. In 
 this view will not all nations of Christendom spon- 
 taneously unite in the declaration that it shall be held 
 sacred in passing to their places of destination, even in 
 the midst of hostilities ? 
 
 "James Buchanan." 
 
 Thus, though unhappily only for the brief space of 
 twenty-three days, the two continents were placed in 
 instantaneous communication with each other ; but it 
 was already known that the insulation was defective, 
 owing, it is said, ft-om the cable being coiled during its 
 manufocture in lai'ge vats and exposed to the heat of a 
 summer's sun, intensified by the tarred coating of the 
 cable, by which the gutta percha was melted and worn 
 bare in various places. Before the communication 
 ceased entirely one hundred and twenty-nine messages 
 had been sent from Valentia, in Ireland, to Newfound- 
 land ; while the number sent from Newfoundland to 
 Valentia was two hundred and seventy-one, making a 
 total of four hundred messages sent across the Atlantic. 
 Among these messages was one from the Horse Guards, 
 London, countermanding the return of the sixty-second 
 
198 INVENTION AND DISCOVERY. 
 
 regiment, whicli, by avoiding the sliipment and trans- 
 portation of troops, saved fifty thousand pounds to the 
 British Government. 
 
 THE END OF LAVOISIEE. 
 
 The great French chemist, Lavoisier, did not escape 
 from the terrors of the French revolution — that social 
 and political tempest in w^hich the most illustrious were 
 the first to sufi'er. Cast into prison upon the most 
 absurd and groundless charges, the Lycee des Arts 
 sent a deputation of their number to him to assure him 
 of the interest taken by that learned body in the pre- 
 servation of a life so valuable to mankind ; and to place 
 upon his head a crown in token of the respect enter- 
 tained towards the man who had rendered so many 
 services to his country. Unfortunately, Lavoisier, 
 besides being a man of eminent merit and of high con- 
 nections, was a farmer of taxes, a class towards which 
 the public enmity raged with extraordinary fury. Per- 
 ceiving that his life was in danger, he sought refuge in a 
 place prepared for him by M. Lucas, who had once been 
 the doorkeeper at theAcademie des Sciences; but hearing 
 that twenty -eight of his associates had been consigned 
 to the revolutionary dungeons, his generous nature was 
 unwilling to prolong the danger to which he exposed 
 his benefactors, and he voluntarily surrendered himself 
 to the jailers. 
 
 Li his prison Lavoisier continued those scientific 
 
INVENTION AND DISCOVERT. 199 
 
 labours which had gained him so great a fame 
 although he was informed that he would be brought to 
 trial in a few days. To be tried at that time was to 
 be condemned. Lavoisier begged only a short delay in 
 order that he might complete a few experiments and 
 bequeath their results to the world ; but the reply of 
 the execrable Fouquier Tinville, the public prosecutor, 
 was simply, " The republic has no need of chemists, 
 nor of chemistry; the course of justice shall not be in- 
 terrupted." 
 
 A few days later this great man perished by the 
 guillotine. Lavoisier was a man of great generosity 
 and benevolence. Only the year before the commence- 
 ment of the revolution the town of Blois being 
 threatened by a famine, he had placed a sum of fifty 
 thousand francs at the disposal of the town without 
 fixing any time for repayment. He was remarkable for 
 his kindness to youthful genius, and took delight in 
 assembling young students in his laboratory, many of 
 whom subsequently became scarcely less famous than 
 himself. 
 
 SIE CHARLES EELL, THE PHYSIOLOGIST. 
 
 Sm Charles Bell, whose discovery of the true functions 
 of the nervous system is universally regarded as the 
 most important contribution to physiological science 
 since the demonstration of the circulation of the blood 
 by Harvey, was a man of a remarkably humane and 
 
200 INVENTIOX AND DISCOVERY. 
 
 kindly disposition. One day a young Frencli medical 
 student having been introduced to Sir Astley Cooper, to 
 be present at an operation performed by the latter, the 
 young man displayed an amount of nervousness hardly 
 consistent with the surgical profession. Perceiving 
 that Sir Astley observed his agitation, he apologized, 
 lamenting that his nervous system would probably com- 
 pel him to give up a study to which he was, never- 
 theless, ardently attached. " iSTo, no," said Sir Astley, 
 " you will recover from all that. Come ; I will intro- 
 duce you to Charles Bell, who will tell you how his 
 courage failed him on his first attempt to bleed a patient." 
 " Charles Bell," says ]\I. Pichot, the relater of this anec- 
 dote, "received me with the same kindness; and, the 
 story of the bleeding being mentioned to the great 
 operator, he replied, ' Sir Astley has only spoken of 
 jnj first experiment, but I will confess that if I had to 
 repeat it to-morrow it would cost me almost as great an 
 effort,' and he admitted^that whenever he performed an 
 operation, he had to contend with the same agitation." 
 
 Bell's great discovery was that the nerves of mo- 
 tion and the nerves of sensibility are common io all 
 animals, but that the third, or superadded, division of 
 nerves exists only where the organization requires more 
 elevated functions. It was he alone Avho showed the 
 method by which the brain communicates its will or 
 impressions to the body, as well as how it receives im- 
 pressions of pain or pleasure. His system was at fii'st 
 received with little favour, at least in this country. The 
 most eminent in his profession ridiculed his suggestion 
 that there were respiratory organs in the face, and that 
 these -were connected with expression. When Aber- 
 
IXVENTIOX AXD DISCOVEltY. 201 
 
 netliy had studied and acknowledged the truth, of his 
 system, ho generously exclaimed, " What blockheads 
 we have all been for not having thought of this grand 
 and simple truth before !" In the dedication to his work 
 on the nervous sj-stem, published in 1830, Bell 
 says, ""Whatever may be thought of the arguments 
 adopted in this volume, the facts admit of no contra- 
 diction ; and it may hereafter be a question of curiosity 
 to know how they were received at first. The pleasure 
 I enjoyed in my researches was gi'eat ; the reception 
 given to them by science has been contrary to what I 
 expected. The first announcement of my work obtained 
 not a single word of encouragement from th.e faculty. 
 Some time later, when the publication of my papers by 
 the Royal Society rendered it impossible to pass them 
 by without notice, the interest they excited turned to 
 the advantage of those who contradicted my discoveries, 
 or pretended to have forestalled them ;" and he adds, 
 almost pathetically, "For myself this signifies little, 
 but I confess my regret that the young students who 
 have so favoui'ably and zealously assisted me in these 
 researches should have been deceived in their hope of 
 giving satisfaction to their profession." 
 
 Continental surgeons, however, treated hiui with 
 more generosity. It was in France that Bell received 
 one of the noblest testimonies of Jiomage, perhaps, ever 
 rendered to scientific greatness. Being in Paris, he 
 was desirous of hearing a surgical lecture of !M. Roux, 
 the eminent son-in-law of the surgeon Baron Boyer. 
 Accordingly he attended the lecture-room of the 
 Hotel Dieu, the great Paris Hospital. Taking his seat 
 among the young men, as he believed unobserved, Bell 
 
202 INVENTION AND DISCOVERY. 
 
 prepared to listen, but the Professor, who had enjoyed 
 the hospitality of Bell in England, recognized his great 
 contemporary, and having announced the fact to his 
 audience, he dismissed them without a lectui"e, saying, 
 with the energetic gesticulation peculiar to Frenchmen, 
 " Gentlemen, enough for to-day. You have seen Charles 
 Bell." 
 
 Bell was the son of a poor Scottish clergyman — a 
 minister of the Episcopal Church, who performed the 
 duties of a small curacy in Monteith with an annual 
 stipend of twenty-five pounds, on which scanty pittance 
 he brought up his three first sons. Charles Bell, like 
 many other eminent men, was fortunate in possessing 
 an excellent mother. On the margin of a sketch of his 
 career, published in a medical journal, a copy of which 
 was found among his papers, he had written in pencil 
 the following note, referring to a statement as to his 
 early education : " Nonsense ! I received no education 
 but from my mother ; neither reading, writing, ciphering, 
 nor anything else. My education was the example set 
 me by my brothers ; there was in all the members of 
 my family a reliance on self, and by imitation I obtained 
 it. People prate about education, and put out of sight 
 example, which is all in all." 
 
 Bell never attained the lucrative practice enjoyed by 
 other eminent surgeons in London, and such good for- 
 tune as that of Sir Astley Cooper, who is stated to have 
 earned in one year (1815) the enormous sum of twenty- 
 one thousand pounds sterling, was beyond his di-eams. 
 His mind was almost incessantly occupied with anatomy, 
 in which he found endless delight. He regarded his 
 favourite study as something far greater than a mere 
 
INVENTION AND DISCOVERT. 203 
 
 classification of the different parts of a body. In his 
 journal for March, 1818, was found the note : — " I have 
 solicited an interview with Eennie, the engineer, to 
 discourse with him on the uses of anatomy, and to show 
 him how the all-powerful Creator made arches, bridges, 
 cables, and all that engineers undertake." 
 
 His most popular work is his " Treatise on the 
 Human Hand." He died somewhat suddenly, of disease 
 of the heart, at the seat of his friend, Mr. Holland, near 
 Worcester, in 1842. 
 
 A PHILOSOPHER'S CHANGE OF NAME. 
 
 It is a curious circumstance that Cuvier, though 
 always known by the Christian name of George, was 
 not so baptized. George was the name of an elder 
 brother who died shortly before the birth of the great 
 scientific discoverer, who was a second son. Full of 
 grief for the loss of her firstborn, Madame Cuvier had 
 little hope of seeing even the new-comer arrive at man- 
 hood ; for his feeble and sickly constitution demanded 
 her incessant care. In after life the world-renowned 
 naturalist cherished every circumstance connected with 
 her memory ; he delighted to recall her patient care 
 and kindness, and to dwell upon things however trifling 
 which reminded him of her. He liked to have about 
 him the flowers Avhich were her favourites, and whoever 
 in his family circle was so thoughtful as to place a 
 
20^ KVENTION AND DISCOVERY. 
 
 bunch of red stocks in liis study was sure to be re- 
 warded with affectionate thanks. He had, indeed, many- 
 other reasons to remember her than his gi'atitude to a 
 parent whose tenderness had snatched him from the 
 perils of a sickly childhood ; for it was she who had 
 formed his mind, and ti-ained him in those habits of 
 thought and method which were so conspicuous in him 
 in later years. He had been christened with the name 
 of Leopold, but it appeared that in tender remembrance 
 of her firstborn his mother would frequently call him 
 George. The custom became confirmed with her : and 
 when she died, Cuvier, out of respect for her memory, 
 I'ctained the name. Finally, after his marriage, it ap- 
 pearing that some difficulties might arise from his 
 using a name that did not properly belong to him, 
 he took the necessary stejDS for obtaining a legal 
 right to it. Thus it was that Cuvier acquired the 
 name of Georsre. 
 
 A TERRIBLE INVENTOR. 
 
 I.v the year 1802 Lord Stanhope, the ingenious me- 
 chanician, called the attention of the House of Peers to 
 some alarming rumoui's respecting the inventions of an 
 American in France, with which country we were then 
 at war. French writers had announced that ei'e long 
 their ancient enemy would be astonished to see a flotilla 
 of diving-boats Avhich on a given signal would, to avoid 
 
INVENTION AND DISCOVERT. 205 
 
 the pursuit of an enemj, plunge under water and rise 
 again several leagues from the place where they 
 descended. This, however, was not the most formid- 
 able item in the information which Lord Stanhope had 
 obtained. This terrible American was stated to have 
 invented, in conjunction with his diving-boats, an infer- 
 nal machine which was to be silently and secretly 
 carried under Avatcr, by means of one of these plungers, 
 and attached with ease to the keels of the large men-of- 
 Avar of the blockading squadron, who would find it im- 
 possible to be aware of the approach of their stealthy 
 invader until a sadden and terrific explosion blew them 
 in numberless fragments into the air. The inventor of 
 these hitherto unheard-of modes of warfare was Robert 
 Fulton, a native of the United States, who had lived 
 in England sometime, had been employed by the Duke 
 of Bi'idgewater, and had been intimate with "Watt, and 
 other ingenious Englishmen. Finally, in 1803, an 
 association of gentlemen was formed for the purpose of 
 procuring information as to the progress of Fulton's 
 designs, and as to what might be their consequences ; 
 and the result of the report of this association was 
 so alarming, that Mr. Addington (afterwards Lord 
 Sidraouth), then prime minister, opened a communica- 
 tion with Fulton, the object of which was to deprive 
 France of the benefit of his inventions and services, and 
 give England the advantage of them by inducing him 
 to withdraw from France, Fulton, who was afterwards 
 celebrated as the founder of the system of steam naviga- 
 tion in the United States, had commenced his experi- 
 ments, with the authority of the Government of I^apoleon, 
 — then Fii'st Consul — at Brest, in the year 1801, and his 
 
206 INVENTION AND DISCOVERY. 
 
 report to the French executive furnishes a curious 
 account of his experiments : — 
 
 On July 3, in that year, he embarked with three 
 companions on board his plunging boat in the harbour 
 of Brest, and descended in it to the depth of tw^enty- 
 five feet ; but he did not attempt to go lower, because 
 he found that his imperfect machine would not bear the 
 pressure of a greater depth. He remained below the 
 surface one hour : during which time they were in utter 
 darkness. Afterwards, Fulton descended with candles, 
 but finding a great disadvantage from their consumption 
 of vital air, he caused previously to his next experi- 
 ment, a small window of thick glass to be made near 
 the bow of his boat, and he again descended on July 24, 
 1801. He found that he received from his window, or 
 rather aperture covered with glass, for it was no more 
 than, an inch and a half in diameter, sufficient light to 
 enable him to count the minutes on his watch. 
 Having satisfied himself that he could have sufficient 
 light when under water, that he could do without a sup- 
 ply of fresh air for a considerable time, and that he could 
 descend any depth, and rise to the surface with facility ; 
 his next object was to try his boat's movements, as well 
 on the surface as beneath it. On July 26, he weighed 
 his anchor and hoisted his sails : his boat had one mast, a 
 mainsail, and jib. There was only a light breeze, and 
 therefore she did not move on the surface at more than 
 the rate of two miles an hour ; but it was found that 
 she would tack and steer, and sail on a wind or before 
 it, as well as any common sailing-boat. He then struck 
 her mast and sails, to do which, and perfectly to pre- 
 pare the boat for plung-ing, required about two minutes. 
 
INVENTION AND DISCOVERT. ''207 
 
 Having plunged to a certain depth, lie placed two men 
 at the engine, which was intended to give the vessel 
 progressive motion, and one at the helm, while he, with 
 a barometer before him, governed the machine, which 
 kept her balanced between the upper and lower waters. 
 He found that with the exertion of one hand only, he 
 could keep at any depth he pleased. The propelling 
 engine was then put in motion, and he found upon 
 coming to the surface, that he had, in about seven 
 minutes, made a progress of about five hundred yards. 
 He then again plunged, turned his boat round while 
 under water, and returned to near the place from which 
 he began to move from. He repeated his experiments 
 several days successively, until he became ^miliar with 
 the operation of the machinery, and the movements of 
 the boat ; and he found that it was as obedient to her 
 helm under water, as any boat could be on the surface ; 
 and that the magnetic needle traversed as well in the 
 one situation as the other. On August 7, Fulton again 
 descended with a store of atmospheric air compressed 
 into a copper globe of a cubic foot capacity, into which 
 two hundred atmospheres were forced. Thus prepared, 
 he descended with three companions to the depth of 
 about five feet. At the expiration of an hour and forty 
 minutes, he began to take small supplies of pure air 
 from his. reservoir, and did so, as he found occasion, for 
 four hours and twenty minutes; he then came to the sur- 
 face, without having experienced any inconvenience from 
 having beenso long under water. Fulton was highly 
 satisfied with the success of these experiments ; it de- 
 termined him to attempt to try the effects of these 
 inventions on the English ships, which were then 
 
208 INVENTION AND DISCOVERY. 
 
 blockading the coast of France, and were daily near the 
 harbour of Brest. 
 
 Satisfied with the performance of his ooat, which he 
 called the "Nautilus," his next object Avas to make experi- 
 ments with his torpedoes. A small shallop was accord- 
 ingly anchored in the roads. Fulton approached to 
 within two hundred yards of the anchored vessel, struck 
 her with the torpedo, and blew her to atoms, a column 
 of water and fragments being blown nearly a hundred 
 feet into the air. This experiment was tried in the 
 presence of Admiral Villaret and a multitude of specta- 
 tors. Fulton now projected a larger boat upon an 
 improved plan, and capacious enough to contain eight 
 men, and with sufRcient provisions for twenty days. 
 This boat was intended to be of sufficient strength to 
 enable him to plunge one hundred feet under water, and 
 contained a reservoir stated to be sufficient to enable 
 eight men to remain in that position for eight hours. 
 When above water the boat had. two sails and looked 
 like an ordinary vessel ; but when it was to dive the 
 mast and sails were struck. 
 
 Throughout the summer of 1801, and till the project 
 was relinquished on account of the season, Fulton 
 appears to have been watching the English ships which 
 were on the coast, little suspecting the siugular kind of 
 enemy prepared to take advantage of their movements. 
 Fortunately for the English, or pci'haps, for the sanguine 
 inventor, though some of the British men-of-war daily 
 approached the harbour, yet none came so near or 
 anchored in such a situation as to be expof-cd to the 
 effects of Fulton's preparation. In one instance, how- 
 ever, he came very near a British seventy-four gun 
 
IXVEXTION AND DISCOVERY. 209 
 
 ship, Avliicli is stated to have made just in time such 
 a change of position as to save herself. The French 
 authorities appear soon after this to have become weary 
 of the subject, and to have ceased to encourage Fulton ; 
 and it "was ultimately against their own vessels that 
 these machines were first tried. Tempted, it is said, by 
 a reward secretly offered by the British Government, 
 and probably irritated by the neglect of the French, he 
 repaired to England, and on October 1, 1805, made an 
 attack on the fleet of flat -bottomed boats assembled at 
 Boulogne. He does not, however, appear to have used 
 his diving-boat on this occasion, but only his torpedoes, 
 which wei'e thrown across the French vessels ; but 
 owing, as Fulton said, to a mistake in the throwincr, 
 they exploded alongside of the French vessels without 
 doing them much injury. A few days later Fulton, in 
 the presence of Mr. Gott and his colleague, blew up a 
 strong-built Danish brig of the burden of two hundred 
 tons, which had been anchored for the experiment in 
 Walmer roads ; but his inventions do not appear to 
 have been put to any further trial. 
 
 FULTOX AXD THE EMPEROR XAP0LE02^". 
 
 OxE of the most curious circumstances brought to light 
 in coimection with Fulton's experiments in France is the 
 fact that in 180-i, he actually offered to the Emperor 
 Napoleon to construct a steam-vessel, for the purpose 
 
210 INVENTION AND DISCOVERY. 
 
 of conveying the Boulogne flotilla to England. At first 
 the Emperor appears to have looked favourably on the 
 project, as appears from the following letter : — 
 
 " I have just read the project of citizen Fulton, 
 jtn engineer, which you sent me much too late, for it 
 seems capable of changing the face of the world. At 
 all events I desire that you will immediately place the 
 examination of it in the hands of a committee, com- 
 posed of members of the Institute, for it is to them 
 that the scientific men of Europe will naturally look for 
 a decision on the question. A great physical truth 
 stands revealed before my eyes. It will be for these 
 gentlemen to see it, and endeavour to avail themselves 
 of it. As soon as the report is made it will be sent to 
 you, and you will forward it to me. Let the decision 
 be given in a week if possible, for I am impatient to 
 hear it. Napoleon. 
 
 " 21si July, 1804." 
 
 I^Tapoleon, however, who was notoriously subject to 
 sudden changes of determination in such matters, seems 
 to have soon afterwards conceived a disgust for Fulton, 
 probably on account of his recent failures. The scheme 
 which might have had such momentous consequences 
 was abandoned. The Emperor refused to permit the 
 Academy of Sciences to investigate the subject ; and 
 when M. Louis Costaz, President of the Tribunal, spoke 
 to him on behalf of Fulton, he interrupted him angrily 
 with the words, " There are in all the capitals of 
 Europe a crowd of adventurers and projectors who run 
 about offering to every government their pretended dis- 
 coveries, which exist only in their imagination. They 
 
INVENTION AND DISCOVERT. 211 
 
 are so many charlatans and impostors, who Lave no 
 other view than to extort money. This American is 
 one of the number. Speak to me no more about him." 
 Yet this American only a few years later was the 
 originator of a great and successful system of steam 
 navigation in the United States, which preceded by 
 some years the establishment of practical steam-vessels 
 caiTj'ing passengers in any part of Europe. 
 
 PANORAMAS. 
 
 The invention of panoramas, by which so real a character 
 is given to representations of cities and landscapes, is 
 due to Robert Barker, a portrait painter in Edinburo-h, 
 who obtained a patent for his invention in 1787. Five 
 years afterwards he exhibited one in London, represent- 
 ing that city itself. The American Fulton, who was 
 more remarkable for Ids energy in carrying out the ideas 
 of others than for originality of invention, introduced 
 this new mode of painting into France about the yesir 
 1709, and was by the French generally supposed to be 
 the inventor. In 1821, however, all previous attempts 
 at panoramic drawing were thrown into the shade by 
 the labours of Mr. Thomas Homor, in making the 
 sketches necessary for his great panorama of London. 
 Mr. Homor had been for some time engaged in execut- 
 ing drawings of landed estates in panoramic views. In 
 the course of these pursuits he designed, and him.self 
 
212 INVENTION AND DISCOVERT. 
 
 constructed, an apparatus by wlncli the most distant 
 scenery could be delineated with great accuracy. Lon- 
 don and its environs furnished a good subject for a more 
 extensive application of this ingenious instrument. 
 Accordingly, when the cross of St. Paul's was taken 
 down in 1821 to be repaired and regilt, Mr. Hornor 
 availed himself of the circumstance to obtain permission 
 to erect an observatory, supported by a slight platform 
 several feet above the highest part of the present cross ; 
 and in this lonely and perilous position he fixed his appa- 
 ratus, and, after many months, succeeded in producing 
 on a large scale a series of drawings of the surrounding 
 view, including even minute objects at a distance of 
 many miles. The laborious toil which this enterprising 
 young artist had to undergo in ascending the infinite 
 staircases and ladders to reach his solitary habitation, 
 independently of the danger of a journey so often re- 
 peated, did not damp his ardour. All possible precau- 
 tions were taken for the prevention of accidents in his 
 exposed situation ; but the wooden box in which he 
 passed so many hours, with its frail supports of poles 
 and ropes, was in continual peril. The weather during 
 the summer of 1821 was unfortunately more than usually 
 boisterous. Scarcely a day passed without the derange- 
 ment of some part of the scaflTolding or the machinery 
 connected with it ; and so strong became the sense of 
 danger arising from these repeated casualties, that not- 
 withstanding offers of increased remuneration it was 
 frequently impossible to obtain the assistance of work- 
 men ; a fact scarcely surprising when we learn that 
 during the high winds no one could stand on the plat- 
 ibrm without clinging for support to the framework; 
 
INVENTION AND DISCOVERY. 213 
 
 while the creaking and -whistling of the timbers resem- 
 bled those of a ship labouring in a storm, and the situ- 
 ation of the young artist was not unlike that of a mariner 
 at the masthead. 
 
 During a squall, more than usually severe, a great 
 part of the circular framework of heavy planks, erected 
 above the gallery for the prevention of accidents, was 
 carried over the house-tops to a considerable distance. 
 At this moment a similar fate had nearly befallen the 
 observatory, which was torn from its fastenings, turned 
 partly over the edge of the platform, and its various 
 contents thrown into utter confusion. The fury of the 
 wind rendered the door impassable ; and, after a short 
 interval of suspense, an outlet was obtained by forcing 
 a passage on the opposite side. By this misfortune, 
 independently of personal inconvenience, considerable 
 delay and expense were occasioned ere the woi'k could 
 be resumed ; and it became necessary to provide against 
 similar misfortunes, by securing the observatory to a 
 cross-beam, and constructing a rope fence. 
 
 At other times the experiences of the artist were of 
 a more agreeable character. " On entering the cathe- 
 dral at three in the morning," says Mr. Hornor, in his 
 interesting account of his impressions during his labour, 
 " the stillness which prevailed in the streets of this 
 populous city, contrasted with their mid-day bustle, was 
 only surpassed by the more solemn and sepulchral still- 
 ness of the cathedral itself. But not less impressive was 
 the development, at that early hour, of the immense 
 scene from its lofty summit, whence was frequently be- 
 held ' the Forest of London,' without any indication of 
 animated existence. It was interestintr to mark the 
 
214 INVENTION AND DIPCOVERT. 
 
 gradual symptoms of returning life, until the rising sun 
 vivified the whole into activity, bustle, and business. On 
 one occasion the night was passed in the observatory, 
 for the purpose of meeting the first glimpse of day ; but 
 the cold was so intense as to preclude any wish to repeat 
 the experiment." 
 
 During the work portions of the scene would some- 
 times be in bright sunshine, and at others in obscurity, 
 producing an incessant alteration in light and shade. 
 Many other difficulties presented themselves ; but finally 
 Mr. Hornor surmounted them all, and succeeded in 
 producing a complete panoramic view of the metro- 
 polis and its environs on 280 sheets of drawing paper, 
 comprising a surface of 1680 square feet. The pano- 
 rama of London, painted from these drawings, has 
 long been familiar to London sightseers. 
 
 TELEGEAPHY UIsDEE DIFFICULTIES. 
 
 When the American statesman, Mr. Clay, was making 
 a speech on the Mexican war at Lexington, in the far 
 western state of Kentucky, in 1847, the "New York 
 Herald " newspaper was anxious to obtain a report in 
 advance of any other journal. For that purpose a re- 
 porter, when the speech was ready, took horse for 
 Cincinnati, eighty miles distant, where a telegraph line 
 had just been established. Horses had already been 
 placed at every ten miles on the road. Over a rough. 
 
INVENTION AND DISCOVERY. 215 
 
 hilly country, in the midst of wind and driving rain, the 
 rider accomplished his joui-ney in eight hours ; hut here 
 a new difficulty was encountered. Scarcely had they 
 hegun the transmission of the speech when communi- 
 cation was suddenly interrupted, as if all the wires had 
 been cut at the same moment. l!^ot to be baffled, the 
 man took horse again, and riding along the railway 
 track in the dark and rainy night, he endeavoured to 
 observe if any poles had been blown down. Nothing, 
 however, met his notice for many miles, when the horse 
 suddenly stumbled upon some obstacle, nearly throwing 
 his rider. Lighting a pocket lantern which he had with 
 him, he then discovered that the wires had been snapped 
 asunder by the limb of a tree which had been blovsm 
 down by the wind, and had fallen across them. To 
 repair them temporarily with some wire which he had 
 brought with him occupied but a short space, and riding 
 back through the storm he found himself in time to 
 transmit the remainder of the speech to New York for 
 the newspaper of the next morning. 
 
 THE ROOF HAS FALLEN. 
 
 Lady BLawes has communicated to Mr. Beamish, the 
 author of the Memoir of Sir M. I. Brunei, some inte- 
 resting anecdotes of her father's judgment upon the 
 strength of iron bridges and other buildings. One of 
 these is eminently characteristic. Nearly forty years 
 ago, when the application of cast-iron to these pur- 
 
216 INVENTION AND DISCOVERT. 
 
 poses was mucli under discussion, Mr. Maudslay, whose 
 great engineering talents Brunei was the first to 
 discover, detei'mined to exhibit his confidence in the 
 material by erecting a cast-iron roof over his factory 
 at Lambeth. Brunei, however, had contended that 
 such structures would be insecure, unless well com- 
 bined with ties of wrought-iron. So strongly had 
 this opinion taken possession of his mind, that, 
 when some one informed him in haste that a serious 
 accident had occurred at his friend Maudslay's, he ex- 
 claimed anxiously, " The roof — the roof has fallen !" 
 and, unhappily, this proved to be the case. 
 
 THE NATURAL PHILOSOPHER AND THE CAT. 
 
 I ONCE (says a French writer) saw a lecturer upon ex- 
 perimental philosophy place a cat under the glass 
 receiver of an air-pump, for the purpose of demon- 
 strating that life cannot be supported without air and 
 respiration. The lecturer had already made sevei-al 
 strokes with the piston, in order to exhaust the receiver 
 of its air, when the cat, who began to feel herself very 
 uncomfortable in the rarefied atmosphere, was fortunate 
 enough to discover the source from whence her uneasi- 
 ness proceeded. She placed her paw upon the hole 
 through which the air escaped, and thus prevented any 
 more from passing out of the receiver. All the ex- 
 ertions of the philosopher were now unavailing ; in vain 
 he drew the piston ; the cat's paw effectually prevented 
 
INVENTION AND DISCOVERY. 217 
 
 its opei-ation. Hoping to effect liis purpose, he again 
 let air into the receiver, which, as soon as the cat per- 
 ceived, she withdrew her paw from tlie aperture ; hut 
 whenever he attempted to exhaust the receiver, she 
 apphed her paw as before. The spectators clapped 
 their hands in admiration of the cat's sagacity, and the 
 lecturer was compelled to remove her, and substitute 
 another cat who possessed less peneti'ation for the cruel 
 experiment. 
 
 STOPPED IN TIME. 
 
 Elihu Burritt, the " learned blacksmith," tells the fol- 
 lowing exciting story of how an entire train of passen- 
 gers was saved from destruction by a timely message by 
 telegraph. " During a storm and violent gale the long 
 railway bridge across the Connecticut, between Hartfield 
 and Springfield, was lifted up by the wind, and thrown 
 into the river beneath, two hundred yards in breadth, 
 which a powerful current at the time swelled to a dread- 
 ful height by an imusual flood of rain. The line here is 
 crossed by a bridge fifty feet above the river, after an 
 abrupt curve has been passed. But the passengers 
 within congratulated themselves on their comfortable 
 situations, thinking of the blessed homes and the fire- 
 sides which they soon expected to reach. On came the 
 train, tlic engine blowing off its head of steam, breasting 
 its way nobly against the gale, wliich almost threatened 
 to check its progress, the hot iron liissing furiously in 
 the fulling rain. Xo one knew or even suspected that 
 
218 INVENTION AND DISCOVERY. 
 
 tlie bridge was gone. For two years, by day and bj 
 nigbt, tLe trains bad passed, and repassed, until safety- 
 bad obKterated tbe tbougbt of even tbe possibility of 
 danger ; but no bridge was there to receive them, and 
 the long train with its precious freight rushed on to- 
 wards the precipice of destruction. It was not customary 
 to stop at this place, excepting to check the speed for the 
 landing of passengers ; but the people there had learned 
 through the instrumentality of the telegraph, the loss of 
 the bridge, and kept a sharp look-out for the approaching 
 train. It came ; the word was given, and they were safe. 
 Every heart leapt from its place, and the head swam 
 giddily with fear as the thought came of that fearful leap 
 in the dark ; and long Avill the passengers remember that 
 dreadful road, and the friendly yet fearful cry of ' The 
 
 BKIDGE IS GONE !' " 
 
 A still more striking illustration of the important 
 services frequently rendered by telegraphic communica- 
 tion is afforded by an instance related by Mr. Walker, 
 the superintendent of the telegraphs of the South Eastern 
 Railway Company. " On New Year's day, 1850," says 
 this gentleman, " a collision had occurred to an empty 
 train at Gravesend ; and the driver having leaped from his 
 engine, the latter started alone at full speed for London. 
 Notice was immediately given by telegraph to London 
 and other stations ; and while the line was kept clear, an 
 engine and other arrangements were prepared as a but- 
 tress to receive the runaway, while all connected with 
 the station awaited in awful suspense the expected 
 shock. The superintendent of the railway also started 
 down the line on an engine, and on passing the run- 
 away he reversed his engine and had it transferred 
 
INVENTION AND DISCOVERY. 219 
 
 at the next crossing to the np-line, so as to be in the 
 rear of the fugitive; he then started in chase, and on 
 overtaking the other he ran into it at speed, and the 
 driver of the engine took possession of the fugitive, and 
 all danger was at an end. Twelve stations were passed 
 in safety : it passed "Woolwich at fifteen miles an hour ; 
 it was within a couple of miles of London when it was 
 arrested. Had its approach been unknown, the mere 
 money value of the damage it would have caused might 
 have equalled the cost of the whole line of telegraph." 
 
 FARADAY'S FIRST PATRONS. 
 
 Professor Faraday, in a letter written to Dr. Paris, tells 
 the following pleasing anecdote of how he came to devote 
 himself to the science of chemistry, in which he has since 
 become so celebrated : — " When I was a bookseller's 
 apprentice," he says, " I was very fond of experiment, 
 and very averse to trade. It happened that a gentleman, 
 a member of the Royal Institution, took me to hear some 
 of Sir Humphrey Davy's last lectures in Albemarle 
 Street. I took notes, and afterwards wrote them out 
 more fairly in a quarto volume. My desire to escape 
 from trade, which I thought vicious and selfish, and 
 to enter the service of science, which I imagined made 
 its pursuers amiable and liberal, induced me at last to 
 take the bold step of writing to Sir Humphrey Davy, ex- 
 pressing my wishes and a hope that, if an opportunity 
 came in his way, he would favour my views, and at the 
 same time I sent the notes I had taken of his lectures." 
 
220 INVENTION AND DISCOVEKY. 
 
 Sir Humphrey Avas at once struck, not only with the 
 proof which the notes of his lectures afforded of the 
 diligence of his young and unknown correspondent, but 
 also with the knowledge Avhich they displayed ; for 
 it would, of course, be impossible for one ignorant of 
 chemical science to report correctly a lecture on. the 
 subject. In a few days the bookseller's apprentice, to 
 his great delight, received the following reply : — 
 
 '' Becemler 2i, 1812. 
 " Sir, — I am far from displeased with the proof you 
 have given me of your confidence, and which displays 
 great zeal, power of memory, and attention. I am 
 obliged to go out of town till the end of January. I 
 will then see you any time you wish. It would gratify 
 me to be of any service to you. I wish it may be in ray 
 power. I am, sir, your obedient, humble servant, 
 
 " HuJiPHREY Davt." 
 
 Sir Humphrey kept his word. Early in 1813, 
 Michael Faraday received a message from him, and with 
 a joyful heart he repaired to Sir Humphrey's house in 
 Albemarle Street. The humble appointment of assistant 
 in the laboratory of the Royal Institution happened to 
 be vacant, and Sir Humphrey promised to support his 
 visitor in an application for it. The application was 
 successful, and a few months later the young chemist 
 went abroad with his patron and Lady Davy, acting as 
 Sir Humphrey's amanuensis and assistant in experi- 
 ments. In 1815 he returned to his duties in the labo- 
 ratory of that institution which has been the scene of 
 his great scientific labours, and where he still continues. 
 Ultimately Mv. Faraday became Fullerian Professor, 
 
IXTEXnOX AN'D DISCOVERY. 221 
 
 ■while his investigations into the rehations of heat, hght, 
 macrnetism, and electricity have resulted in discourses 
 of the utmost importance to science, and have contri- 
 buted to make his name known throughout Europe. 
 
 !Mr. Faraday is a man of humble origin, the son of a 
 poor blacksmith. He was apprenticed to a bookseller, 
 or rather to a bookbinder, or one who obtained a living 
 by purchasing cheap sheets of books and binding them 
 up for retail sale. This bookseller and bookbinder, 
 whose name was Riebau, first called the attention of one 
 of his customers, Mr. Dance of Manchester Street, to an 
 electrical machine and some other philosophical appara- 
 tus, the work of his apprentice ; and it was Mr. Dance, 
 the " Member of the Royal Institution," referred to in 'Mr. 
 Faraday's letter, who introduced the young man to that 
 institution, where, his being fortunate enough to hear 
 the four last lectures ever given there by Sir Humphrey, 
 laid the foundation of his future fame. 
 
 A SUBilAEINE SUEVEY. 
 
 When the question was first raised of whether a tele- 
 graphic wire could be laid on the bottom of the Atlantic, 
 everv care was taken to bring together all the evidence 
 that could be gleaned of the actual character of the vast 
 oceanic basin which was to be the scene of the great 
 enterprise, and to compare them Avith the labours of 
 Captain Maury, who had already demonstrated the exist- 
 ence of a great Atlantic plain. This plain, according 
 
222 INVENTION AND DISCOVERY. 
 
 to Maury, was scarcely twelve tliousand feet below the 
 level of the sea, and extended in a continuous ledge from 
 Cape Race, in Newfoundland, to Cape Clear, in Ireland. 
 Its greatest depth was declared to be in mid-ocean, 
 whence it imperceptibly ascended to the shore on either 
 side. In order to verify the theory of such a plateau, 
 the Atlantic Telegraph Company, aided by the Govern- 
 ments of Great Britain and the United States, caused 
 surveys to be made, and the knowledge thus obtained 
 was conclusive. The plain was found to be gently 
 levelled, so deep as to be below the reach of disturbing 
 superficial causes and composed of particles of shells, so 
 minutely broken up as to render their character indetec- 
 tible save with the aid of a microscope. Their presence, 
 examined by the lights of science, proved how little 
 those profound depths had been disturbed in the course 
 of uncounted ages, and greatly encouraged the hope that 
 the Atlantic cable, when once laid along with them, might 
 rest as tranquilly — perhaps as long. The tendency of these 
 infinitesimal fragments to stick to any metallic centre 
 exposed to them, held out the expectation that the sub- 
 merged cable would soon be thickly enveloped by them, 
 and a fresh element of security so obtained. 
 
 This submarine plateau is really a gently-levelled 
 plain, lying just so deep as to be inaccessible to the an- 
 chors of ships, and to other sources of surface inter- 
 ference, and yet not so far depressed but that it can be 
 reached by mechanical ingenuity without any very exti-a- 
 vagant effort. It seems indeed, that it is a portion of 
 a groat zone of table land which entirety engirdles the 
 earth, or which, at least, stretches from the western side 
 of America to the Asiatic coast of the Pacific. 
 
INVENTION AND DISCOVERY, 22S 
 
 A STORil IN A TELEGRAPH OFFICE. 
 
 One afternoon, some years ago, during a heavy fall of 
 rain, the bells of the electric telegraph, placed in a sniaT\ 
 office at one end of the St. Germain's Atmospheric 
 Eailway, suddenly began to ring, which led the attendant, 
 to suppose that he was about to receive a message. 
 Several letters then made their appearance, but no sense 
 could be made of them, and he was about to make the 
 signal " Not understood," when suddenly he heard an 
 explosion, similar to a loud pistol-shot, and at the same 
 time a vivid Hash of light, was seen to run along the 
 conductors placed against the sides of the shed. The 
 conductors were broken into fragments which were so 
 hot as to scorch the wooden tables on which they fell, 
 and their edges presented evident traces of fusion. The 
 wires of the electro-magnets, belonging to the appa- 
 ratus placed in the office, were also broken, and at the 
 same instant the attendant expeiienced a violent con- 
 cussion, which shook his whole £i-ame. The little office 
 was connected with the Paris station by wires sup- 
 ported on posts ; yet at Paris nothing remarkable oc- 
 curred, except that several of the bells were heard to 
 ring. But at a short distance from the shed, the top of 
 one of the posts which support the wire was split ; and 
 where the wires were bent at the comers of the angles, 
 three sharp points of light were observed several seconds 
 after the explosion. 
 
 At the time of the explosion, an attendant, who was 
 holdiii"- a handle which moves a needle at a short 
 
224 INVENTION AND DISCOVERY. 
 
 distance from the extremity of the railway, also sus- 
 tained a violent concussion, and several workmen 
 standing about him experienced severe shocks. 
 
 This story is told by Monsieur Arago, the great 
 astronomer, in a letter to M. Breguet, who was of 
 opinion that the explosion came from the railway ; for, 
 on account of the immense quantity of metal employed 
 in its construction and the extent of its surface, it was 
 probable that, during a thunder-storm, it would be the 
 seat of an intense electric tension, and that the fluid 
 thus attracted would dischai'ge itself on the telegraphic 
 wires, which were near the iron rails, tubes, and 
 needles. 
 
 THE DISCOVERER OF CALIFORNIAN GOLD. 
 
 When the Swiss Guard upon which Charles X. had 
 relied so unwisely for the maintenance of his arbitrary 
 government, were dispersed by the revolution of 1830, 
 a certain Captain Sutter, who had served in that body, 
 determined to quit the country in which he and his 
 comrades were so unpopular, and to seek his fortune in 
 a new capacity in the far wilds of North America. A 
 Swiss by birth, Sutter possessed all the industry and 
 persevering energy peculiar to his countrymen. Ready 
 to serve as a soldier where moderately good pay and a 
 commission were offered to him, he Avas equally ready 
 to clear a space in the primeval forest, or to build him- 
 self a home in the prairie. Accordingly in 1830 he set 
 
THE DISCOVERF.K OF CAI.IIORMAN (iOLD. 
 
INVENTION AND DISCOVERY. 225 
 
 sail from Havre for ^New York, whence in a short time 
 he proceeded to the far-western state of Missouri. Here 
 having acquired a little money by agriculture, he re- 
 moved at the end of six years to the still more remote 
 territory of Oregon, and finally, in 1839, he settled in 
 California. 
 
 This countrj^ was then but little known, with the 
 cxcc[)tion of the seaboard, where vessels from all parts 
 traded with the Indians chiefly for skins ; but the Swiss 
 captain belonged to a class who can contrive to prosper 
 an^'wherc. Far beyond the limits of civilized life he 
 determined to lead an independent existence, and to 
 become a sort of sovereign, on a small scale, of the wild 
 country around him. Accordingly, he built with the 
 aid of his men a fort on the River Sacramento, a very 
 necessary protection from hostile ti'ibes of Indians. 
 This fort he named after his native country, Xew Hel- 
 vetia ; and in the prairie round this spot he gradually 
 accumulated a herd of four thousand oxen, besides 
 fifteen hundred horses and mules, and two thousand 
 sheep. He also became the owner of a vast acreage of 
 land under grain crops, and of two trading vessels in 
 the river. His fort was supplied with twelve pieces of 
 artillery, and defended by a garrison of seventy men, 
 and its owner was beyond all question the wealthiest 
 and most independent man in the vast range of country 
 between the Rocky Mountains and the Pacific Ocean. 
 
 It was in September, 1847, that Captain Sutter, 
 being anxious to construct a saw mill to be turned by 
 water power, near a pine forest, employed for that pur- 
 pose a friend skilled in engineering named Marshall. 
 The work progressed, and the supply of water to the 
 
226 INVENTION AND DISCOVERT. 
 
 mill was so situated as to wash down a great deal of mud 
 and gravel from the higher land, passed through by the 
 stream. Loitering by the side of the new mill one day, 
 while the works were in progress, Mr. Marshall was 
 struck by some glittering particles in this sand, and 
 taking a portion away with him in a bottle he deter- 
 mined to show it to his enterprising employer. 
 
 " What are those bright grains ?" asked the en- 
 gineer, as he held \ip the bottle in the sun before his 
 friend's eyes. 
 
 The Swiss eyed them attentively for some time, and 
 then replied, " Grold. But where did this come from ?" 
 
 " From yonder," replied Marshall, taking his com- 
 panion to the door, and pointing to the range of hills 
 clothed with pine trees in the distance : " if these glit- 
 tei'ing specks are gold, as I believe they are, there is 
 wealth in those regions beside which all your flocks 
 and herds will be a trifle." 
 
 " It is gold beyond doubt," replied the captain ; 
 " and this is how gold is generally found ; but this sand 
 is rich beyond example. "We must keep this secret, and 
 become gold-diggers together." 
 
 The precious secret was kept for a short time, and 
 the captain and his friend found means to gather 
 abundant proofs of the productiveness of the region 
 in the precious metal ; but it soon became whispered 
 abroad that gold had been discovered at the American 
 fork of the Sacramento River ; and to the astonishment 
 of the world a gold fever arose, such as had never been 
 known before. A few labourers became possessed of 
 some of the precious dust, and took it for sale to San 
 Francisco, the town at the mouth of the Sacramento. 
 
INVENTION AND DISCOVERT. 227 
 
 The news spread with the rapidity of a fire amidst the 
 withered grass of the prairies. Soldiers and sailors de- 
 serted for the " diggings ;" shopkeepers closed their 
 shops, and fled to the same attractive region ; and in a 
 few months the solitudes in which the flocks and herds of 
 the ex-captain of the Swiss Guard had lately wandered at 
 will wei-e filled with a motley gathering, whose labours 
 quickly became a subject of intense anxiety in every 
 money market in the Old and New ^Yorld. 
 
 THE VICISSITUDES OF GAS-LIGHTING. 
 
 More than one hundred and thirty years ago a writer 
 in the '" Philosophical Transactious," in a narrative of 
 the sinking of a coal-pit, belonging to Sir James 
 Lowther, near Whitehaven, described, with remarkable 
 minuteness and precision, the principal properties of 
 coal-gas. A jet of natural gas had been discovered by the 
 workmen issuing from the coal-seams at the side of the 
 pit. By means of a funnel, the writer tells us, that he 
 found it easy to fill a bladder in a few seconds ; and he 
 adds, " The bladder being tied close may be carried 
 away and kept some days, and being afterwards pressed 
 gently through a small pipe into the flame of a candle, 
 will take fire and burn at the end of the pipe as long as 
 the bladder is gently pressed to feed the flame, and when 
 taken from the candle, after it is so lighted, it will con- 
 tinue burning till there is no more air left in the bladder 
 to supply the flame." These facts, it appears, were de- 
 
228 INVENTION AND DISCOVERY. 
 
 monstrated before the Royal Society in May 1 733, when 
 the gas was found to give a brilliant flame after it had 
 beenconfinedin the bladdernearlyamonth. Six years later 
 Dr. John Clayton describes, in the same journal, how he 
 has actually manufactured this gas, or " spirit of coal," 
 as he calls it, from pieces of coal placed in a retort, and 
 how he had been in the habit of preserving it in bladders 
 and diverting his friends by illuminating his room with 
 jets of gas obtained by these means. Thus was the 
 principle of gas-lighting fully developed ; but more than 
 eighty years later the streets of our cities were still 
 lighted — if lighted it could be called — by the feebly 
 glimmering oil lamns which many persons yet re- 
 member. 
 
 In 1767 the subject engaged the attention of Dr. 
 Richard Watson (afterwards Bishop of Llandaff), who 
 published the result of his researches. His experiments 
 show that he had examined the products arising from 
 the distillation of pit coal with great care. The publi- 
 cation of these experiments excited others to apply 
 themselves to the subject in the coal districts of various 
 parts of the kingdom, for the purpose of extracting the 
 tar. In the year 1784, a Mr. Diller exhibited, in London 
 and other large towns, what he called, " Philosophical 
 Firewcs^ks," which were produced by the combustion of 
 the inflammable gases, and they were deemed great 
 curiosities. All these experiments, howevei', can hardly 
 be considered as practical. It is to Mr. Murdoch of 
 Soho, near Birmingham, the intimate friend and fellow- 
 worker of "Watt and Boulton, that we are indebted for 
 the first application of gas to house-lighting. It was 
 this ingfcnious gentleman who first exhibited the mode 
 
INVENTION AND DISCOVERT. 229 
 
 in which it might be employed, instead of lamps or 
 caudles, for all the usual purposes of artificial lighting. 
 While staying at Redruth in Cornwall, Mr. Murdoch 
 made gas from numerous substances. He lighted liis 
 house, and also a street lamp, and had bladders filled 
 with gas to carry at night, with which he astonished 
 the country folks. Finally, in 1798, he constructed an 
 apparatus at Soho, which enabled him to exhibit his 
 plan on a far larger scale; and the Peace of 1802 
 afibrded him an opportunity for a great display of these 
 brilliant lights. The illumination of the Soho woi'ks 
 on that occasion was one of extraordinary splendour. 
 " The whole front of that extensive range of building," 
 says one who was present, "was ornamented with a 
 great variety of devices, Avhich admirably displayed 
 many of the various forms of which gaslight is sus- 
 ceptible. The spectacle was as novel as it was astonish- 
 ing, and Birmingham poured forth its numerous popula- 
 tion to gaze at and admire this wonderful display of the 
 effects of science and art." 
 
 One of the most industrious and useful of the pioneers 
 of gas lighting was Mr. Winsor, who had the undoubted 
 merit of first lighting a street with coal gas on a system 
 which, defective as it was, was an immense advance upon 
 the old oil-lamp, Winsor was one of those busy san- 
 guine men who frequently make up for want of know- 
 ledge by their perseverance in carrying a fiivourite point. 
 Although he obtained a patent in ] 802 for certain im- 
 provements in gas lights, he can scarcely lay claim to 
 the character of an inventor or discoverer. He pos- 
 sessed scarcely any knowledge of chemistry, and was so 
 deficient in mechanical information that it is stated 
 
230 INVENTION AND DISCOVERT. 
 
 he was unable to give proper directions for the eon- 
 stniction of his apparatus. He is believed to have 
 obtained his notions from a Frenchman named Le Bon, 
 who, acting upon the ideas disseminated by Murdoch, 
 had lighted up his house and gardens in Paris in 1801 
 with gas obtained from wood and coal, and had con- 
 templated lighting up the city of Paris by the same 
 means. Winsor, who was a German, returned to Eng- 
 land immediately after this, and in 1803 and 1804 pub- 
 licly exhibited his plan of illumination by coal-gas at the 
 Lyceum Theatre in London. Here he delivered lectures 
 on the subject, which he illustrated by a number of 
 experiments. Among others, he showed the manner of 
 conveying the gas from one part of a house to another ; 
 and, by the use of different kinds of burners, he was 
 enabled to display something of that variety of forms 
 which may be given to its flame. Winsor's exhibitions 
 were eminently useful, and tended, in a high degree, to 
 turn public attention to gas-lighting. "While he was 
 engaged in exhibiting and lecturing at the Lyceum, he 
 was occasionally subject to great vexations. It is related 
 that he was so unfortunate as to select for his assistants 
 such men as were remarkable for their ignorance rather 
 than for ability or skill, and that scarcely any dependence 
 could be placed upon their attention or diligence. He 
 Avas also sometimes exposed to their impositions, and 
 being a foreigner, he was under the necessity of engag- 
 ing a person to read his lectures to his audience. 
 Sometimes, too, when the auditors were assembled his 
 reader failed to appear, and probably had the manuscript 
 lecture in his pocket ; and of course they were obliged 
 to retire disappointed and disgusted. The character of 
 
INVENTION AND DISCOVEKt. 231 
 
 his mechaiiical assistants was much the same ; and they 
 were generally such as to be incapable of rendering him 
 any eifective service in his pursuits. These and other 
 mortifying circumstances engaged him in frequent 
 altercations ; and he bitterly complains of these disas- 
 trous occurrences in his pamphlets. His gas, too, from 
 being burnt in a very impure state, was offensive to the 
 smell, which greatly annoyed his audience ; and these 
 circumstances tended to produce a dislike to gas- 
 lighting. 
 
 There is no doubt that Winsor's great pretensions 
 also tended to prejudice the public. He was much 
 given to boasting, and he told the world that, by a 
 deposit of five pounds for a share in his ^National Light 
 and Heat Company, a person might secure a handsome 
 annual income. "All gas-lights," he says in one of his 
 boastfal but curious and characteristic addresses to the 
 public, " exhibited before my illuminating the large 
 theatre in the Lyceum early in 180-1, I faii'ly consider 
 as so many Will-o'-the-wisp lights, known for centuries 
 past. The gas of these lights has been caught and col- 
 lected in bladders, in marshy ground, the same as all coal- 
 gas has hitherto been produced in bladders for philoso- 
 phical amusement. The principle, that coal and other 
 combustibles contained, among other products, a most 
 beautiful and valuable flame, has been known by the 
 most learned of the last century ; but how to make 
 application — how to save and analyze — how to preseiwe 
 and refine — how to conduct gas in proper air-tight 
 tubes — how to introduce gas-fire and gas-lights into a 
 drawing-room, shop, and street-lamp — how to cook, 
 melt, boil, and distil by a gas-fire, either in a kitchen 
 
232 IXVEXTIOX AND DISCOVERT. 
 
 or dining-room — how to introduce coke, tar, and am- 
 aionial liquor for the advantage of a whole nation — how 
 to make gas-fire and gas-lights applicable to light- 
 houses, telegraphs, and culinary purposes — in fine, how 
 to save and employ all the valuable parts of raw fuel 
 with the greatest possible advantage; — all these most 
 difficult points of my discovery were left a problem to 
 theorists, who could write, but not practise — who could 
 fill bladders from retorts, tobacco-pipes, pots, pans, and 
 gun-barrels with raw smoke, but could not illuminate — 
 whose delicate hands and noses would have shrunk with 
 horror from my numerous dirty and laborious experi- 
 ments in kitchens and wash-houses, where my owu 
 labourers complained of being suS'ocated, and often 
 refused to assist me, until I shamed them by the ex- 
 ample of stripping to perform what they thought was 
 too dirty work for them." And he continues in the 
 following magniloquent strain : — " Animated by the life 
 and example of Peter the Great, emperor of all the 
 Russias, who performed the most abject labours to 
 teach his ministers and generals how to civilize a bar- 
 barous nation, I did no longer deem it beneath me (who 
 had been a merchant in the city of London) to do that 
 work which some of my labourers, actually in want of 
 bread, refused to do for victuals and payment." 
 
 Notwithstanding these high pretensions, it does not 
 appear that Mr. Winsor ever thought of a plan for storing 
 gas in anything except the main-pipes. In 1807, how- 
 ever, he removed his exhibitions to Pall Mall, and 
 lighted up a part of one side of that street, which was 
 the first instance of this kind of light being applied to 
 such a purpose in London. This practical demoustra- 
 
rSTEXTION AND DISCOVEKY. 233 
 
 tion of tlic practicability of his schemes was of great value 
 in calling further attention to the subject, although the 
 shareholders in the National Light and Heat Company- 
 reaped no benefit, and the practical art of making and 
 supplying gas had still many steps to make ; but, 
 thanks to the valuable scientific labours of Dr. Henry, 
 and to the practical experiments of Mr. Clegg, a pupil 
 of Boulton and Watt, the cause of coal-gas lighting 
 finally triumphed over all obstacles, including the claims 
 of its rival " oil-gas," which, even as late as 1825, was 
 still preferred by powerful supporters. A charter was 
 granted in 18L2 to the company known as the Char- 
 tered Gas Company, which was a kind of resuscitation 
 of Mr. Winsor's association ; and, in 1816, this com- 
 pany extended mains from their works in the Curtain 
 Road into the City. The opposition to this company 
 was very great. The chief chemists of the day, in- 
 cluding Davy and "Wollaston, maintained that coal-gas 
 never could be safely applied to street lighting; and 
 Sir Humphrey Davj' inquired, ironically, " if it was 
 intended to take the dome of St. Paul's for a gaso- 
 meter." 
 
 From this time, gas-lighting began to extend it- 
 self, and, in the course of the following ten years, ife 
 had almost entirely superseded the old systems : but 
 the manufacture was still extremely rude. Some 
 terrible accidents in the Chartered Company's Works 
 alarmed the public, and the process was closely watched 
 by Government inspectors. Sir William Congreve, who 
 made a report to Parliament on the subject in 1822, 
 states that he saw two large canvas bags in some works 
 at Whitcchapel of about fifteen thousand cubic feet 
 
234 INVENTION AND DISCOVERT. 
 
 each, w^hich were for some time used aa gas-holders, 
 and lay in close proximity to a blacksmith's forge ; and 
 he pointed out the frightful consequences which might 
 ensue " were the tar to be discharged and inflamed, like 
 the emission of a large quantity of burning lava from 
 an artificial volcano." The dread in which the public 
 long regarded the gas companies, and the general ten- 
 dency to interfere with their operations, could not be 
 better exemplified than by the fact, that a deputation 
 from the Royal Society, headed by Sir Joseph Banks, 
 having visited the gas works of the Chartered Society 
 at "Westminster, they strongly recommended the 
 Government to forbid the company constinicting gas 
 holders exceeding six thousand cubic feet in capacity, 
 which were to be confined in very strong buildings. 
 Gas-holders are now constructed in the open air, in the 
 midst of the metropolis, made to hold from a quarter of 
 a million to half a million of cubic feet each. Mr. 
 Hollingshead in his work, entitled " Underground 
 London," says " we have now, within the metro- 
 politan area, twenty-tkree gas manufacturing stations, 
 find six gas-holder stations, used solely for storing gas. 
 The total length of mains laid down by the thirteen 
 companies, in underground London, is seventeen hun- 
 dred and fifty miles, besides about four hundred and 
 fifty miles of branch service pipes. The house service- 
 pipes, in addition to this, must be at least eight thou- 
 sand miles long. The total number of London public 
 street lamps supplied with gas is thirty-seven thousand 
 seven hundred and twenty-eight, the average dis- 
 tance from each other being seventy-five yards. The 
 consumption of gas is at least double what it was 
 
IN\'KNTION AND DISCOVERY. '235 
 
 ten years ago ; and the annual quantity manufactured 
 in London is about eight thousand millions of cubi'' 
 feet." 
 
 TUNNELLING UNDER THE THAMES. 
 
 oc>««.>o 
 
 Fifteen years before the commencement of the present 
 Thames Tunnel, Trevithick, the Cornish miner, began 
 an attempt at tunnelling under the River Thames. The 
 idea was not new ; for a still more daring experiment 
 had been commenced by an engineer named Ralph 
 Dodd, whose scheme was nothing less than the con- 
 struction of a tunnel or " archway," under the Thames, 
 from Gravesend to Tilbury, where the breadth of the 
 river is of course far greater than nearer to London. 
 Trevithick, aided by Vasey, another Cornish man, having 
 raised subscriptions, began boring at Rotherhithe ; and 
 in order to save expense kept very near to the bottom 
 of the river. Notwithstanding this, his attempt was 
 astonishingly successful, for he actually carried his 
 tunnel a distance of nearly 334 yards, or \vithin thirty- 
 three yards of the entire length proposed to be bored. 
 A surveyor was appointed to report on the progress of 
 the work on behalf of the capitalists who supported it, 
 and unfortunately a dispute arose at this point between 
 Trevithick and this gentleman. The surveyor asserting 
 that the tunnel had run one or two feet out of the 
 direct line, Trevithick is said to have displayed the 
 proverbial irritation of Cornish men. Resolved not 
 to put up with this slur upon his skill as an engineer. 
 
236 i:!^VENTION AND DISCOVERT. 
 
 lie determined on the ridiculous expedient of actually 
 making a hole in the roof of his tunnel at low water, 
 and thrusting through a series of rods, which he con- 
 tinually lengthened, like the joints of a fishing-rod, 
 which were to be received by a man in a boat, and then 
 observed from the shore. This device proved the ruin 
 of the work. In fitting the rods delays occurred, until 
 suddenly so much water was found to be making its 
 way through the hole, that it became necessary for the 
 engineer and his workmen to retreat. It is related that 
 Trevithick, when the imminent danger became apparent, 
 refused to be the first to leave the works. He sent his 
 men away first, and his life nearly fell a sacrifice to his 
 devotion. Owing to the tunnel following the curve of 
 the bed of the river, the water had congregated towards 
 one point, a fact which, in the confusion of the moment, 
 had not been foreseen ; and by the time Trevithick 
 reached the light, the water had actually risen to his 
 neck. Thus by an act of extraordinar'y imprudence the 
 Cornish engineer's great undertaking came to an end 
 almost at the point of complete success. 
 
 The present Thames Tunnel was planned by Brunei 
 in 182o, and in 1824 a company was formed to carry out 
 the work. The simple observation of the habits of a 
 seaworm, known as the Teredo navalis, which, in boring 
 into the timbers of a ship, contrives to render the sides 
 of its perforation waterproof by means of a chalky secre- 
 tion from its own body, suggested to the engineer the idea 
 of his famous " shield." This cast-iron apparatus con- 
 tained thirty-six cells, in each of which was an excavator, 
 who cut out the earth, while a bricklayer built up from 
 the back of the cell a brick arch, which was pressed for- 
 
INTENTION AND DISCOVERY. 237 
 
 ward by screws. But the first step was to sink a brick- 
 work sliaft already built, fifty feet in diameter, and forty- 
 two in height, into the ground at 150 feet from the 
 Rotherhithe side of the river. This gigantic labour was 
 accomplished by a powerful steam engine, which raised 
 the earth and drained the water from within ; while the 
 brickwork cylinder, which was calculated to weigh one 
 thousand tons, was sunk into the ground. Tlie horizontal 
 tunnel was then commenced from near the Iwttom of 
 the cylinder at the depth of sixty-three feet from the 
 sui'face. 
 
 The difficulties and dangers encountered in the pro- 
 gress of this work, the frequent breakings in of tho 
 water, the suspension and subsequent recommencement 
 of the undertaking, and its final successful com- 
 pletion, for a long time sujiplied tho public with 
 topics of e.x:citement. Sometimes parts of the shield 
 gave Avay with a noise which resounded through tho 
 partly-formed tunnel like a discharge of artillery ; then 
 came explosions of gases, momentarily illumining tlic 
 darkness with sheets of flame, and rendering the work- 
 men insensible. 
 
 The roadway was begun on New Year's day, 1826, 
 and upwards of 540 feet had been safely excavated, when 
 on the 18th of May the river burst in. "With indomi- 
 table patience the engineers filled the aperture with an 
 enormous number of bags of clay sunk in the river, 
 pumped the water out of the tunnel, and resumed the 
 work. Scarcely had they proceeded 150 feet further 
 when the dreaded water again broke in and six men 
 were drowned. The shareholders were now dis- 
 heartened, but not so the engineers. After a long sus- 
 
•2:J8 INVENTION AND DISCOVERT. 
 
 pension of the works, a public subscription and a loan 
 from Parliament enabled them to resume them. On the 
 25th of March, 1843, the tannel was finally opened to 
 the public. 
 
 Many interesting anecdotes are told in connection 
 with the work. A few days previous to the first con- 
 test of the bed of the river with the soil, the feed-pipe 
 of one of the boilers of the steam-engine burst. To stop 
 the pumps might have been attended with considerable 
 inconvenience, if not danger. As it chanced, Brunei 
 and his able coadjutor, Mr. Beamish, were on the top 
 of the shaft. Alive to every unusual sound, they ran to 
 the engine-house. Brunei at once perceived the nature 
 of the accident. Seizing some packing and a piece of 
 timber, he jumped upon the boiler, and with wonderful 
 presence of mind applied the packing to the fissure, and 
 one end of the quartering upon that — jamming the 
 other end against the slanting roof of the building. 
 Finding now that the roof was being actually raised, he 
 clasped the quartering, and there hung, like the weight 
 on the safety-valve, until his companion was able to pro- 
 cure sufficient weight to attach to the timber, and relieve 
 him from his perilous situation. By this happy expedient 
 time was fortunately gained, the other boiler was filled, 
 and the steam-engine continued its uninterrupted work. 
 
 The following vivid account of one of the irruptions 
 of the river is also given by Mr. Beamish, who was 
 present near the shield under the bed of the river at the 
 time of the accident : — " The miner, Goodwin," he says, 
 " a powerful and experienced man, called for help. For 
 him to have required help was sufiicient to indicate 
 danger. I immediately directed an equally-powerful 
 
INVENTION AND DISCUVERY. 239 
 
 man, Roo-ers, to go to Goodwin's assistance ; but before 
 he bad time to obey the order, there poured in such an 
 overwhelming flood of slush and water that they were 
 both driven out; and a bricklayer, who had also an- 
 swered to the call for help, was literally rolled over on 
 to the stage behind the frames as tbough he had come 
 throusrh a mill-shiice, and would have been hurled to 
 the ground if 1 had not fortunately arrested his progress. 
 I then made an effort to re-enter the frames, calling upon 
 the miners to follow ; but I was only answered by a roar 
 of water, which long continued to resound in my ears. 
 Finding that no gravel appeared, I saw that the case 
 was hopeless. To get all the men out of the shield was 
 now my anxiety. This accomplished, I stood for a 
 moment on the stage, unwilling to fly, yet incapable 
 to resist the torrent which momentarily increased in 
 magnitude and velocity, till Rogers, who alone remained, 
 kindly drew me by the arm, and pointing to the rising 
 -water beneath, showed only too plainly the folly of delay. 
 Then ordering Rogers to the ladder, I slowly followed. 
 
 "As I descended from the stage, the water had so 
 risen in the tunnel that all the loose timber near the 
 frames, the cement boxes, and the large boxes used for 
 mixing the cement, were not only afloat, but in con- 
 siderable agitation. The light was but barely sufficient 
 to allow me to grope a way through these obstructions, 
 which, striking against my legs, threatened seriously to 
 arrest my progress. I felt that a false step could not be 
 retrieved, clad as I was, and with heavy boots quite full 
 of water. After a short struggle I succeeded in gaining 
 the west arch, which, having been appropriated to 
 visitors, was comparatively free. The water was per- 
 
240 INVENTION AND DISCOVEKY. 
 
 ceptibly rising ; it had already reached my waist ; still 
 I could not venture to run, feeling that a stumble might 
 yet prove fatal. If I could only gaiu the barrier which 
 limited the ingress of visitors, I should be clear of the 
 floating timber which must he there arrested. As I 
 approached this bai"rier, the sight of some of our most 
 valued hands cheered me. Not understanding the cause 
 of procrastination, they could not withhold their expres- 
 sions of impatience. Arrived at the barrier, four power- 
 ful hands seized me, and in a moment placed me on the 
 other side. On w^e now sped. At the bottom of the 
 shaft we met Isambard Brunei and Mr. Gravatt. We 
 turned. The spectacle which presented itself will not 
 readily be forgotten. The water came on in a great 
 wave, everything on its surface becoming the more dis- 
 tinctly visible as the light from the gas lamps was more 
 strongly reflected. Presently a loud crash was heard. 
 A small office which had been erected under the arch, 
 about a hundred feet from the frames, had burst. The 
 pent air rushed out ; the lights were suddenly extin- 
 guished ; and the noble work which only a few short 
 hours before had commanded the homage of an admir- 
 ing public, was consigned to darkness and solitude. 
 
 " It only remained to ascend the shaft, but this was 
 not so easy. The men filled the staircase ; being them- 
 selves out of danger, they entirely forgot the situation 
 of their comrades below. For the first time I now felt 
 something like fear, as I dreaded the recoil of the wave 
 from the circular wall of the shaft, which, if it had 
 caught us, would inevitably have swept us back under 
 the arch. With the utmost difficulty the lowest flight 
 ot steps was cleared, when, as I had apprehended, the 
 
INTENTION AND DISCOVERT. 241 
 
 recoil came, and the water surged just under our feet. 
 The men now hurried up the stairs, and though nearly 
 exhausted, I was enabled to reach the top, where a new 
 cause of anxiety awaited us. A hundred voices shouted, 
 ' A rope ! a rope ! save him I save him !' How any one 
 could have been left behind puzzled and pained me 
 soreh'. That some one was in the water was certain. 
 AVith that promptitude which ever distinguished Isam- 
 bard Brunei, he did not hesitate a moment. Seizing a 
 rope, and followed by Mr. Gravatt, he slid down one of 
 the iron ties of the shaft. The rope was quickly passed 
 round the waist of the struggler, who proved to be old 
 Tillett, the engineman. He had gone to the bottom of 
 the shaft to look after the pumps, and being caught by 
 the water was forced to the surface, from which he 
 would speedily have disappeared, but for the presence 
 of mind and chivalrous spirit of his officers. 
 
 " The roll was now called, when, to our unspeakable 
 joy, every man answered tolas name ; and we Avcre thus 
 relieved from the painful retrospect that must have 
 followed any sacrifice of life." 
 
 Frequent troubles were experienced from the use of 
 the diving-bell. Links in the chain by which it was 
 suspended gave way, and occasionally vessels in the 
 crowded river ran foul of the bell barge, sending it 
 adrift. Underground imaginary alarms frequently 
 added to the troubles of the miners. One of these 
 was of a somewhat ludicrous character. Besides the 
 watch in the tunnel, it was customary' to place a 
 watchman at the entrance, near the " weir," by whic>" 
 the quantity of water coniing from the working was 
 measured ; and one Saturday night this important 
 
 B 
 
242 INVENTION AND DISCOVERT. 
 
 duty was assigned to the faithful Rogers. Suddenly at 
 about three o'clock in the morning he was startled by 
 the terrible words, issuing in a loud tone from the 
 tunnel, of " Wedges ! clay ! oakum J The whole of the 
 faces coming in. Coming altogether." Recognizing 
 the voice of Fitzgerald, the foreman bricklayer, one of 
 the watch, Rogers himself gathered together some 
 wedges and timber, and made his way to the frames, 
 expecting to find there all terror and confasion ; but he 
 saw nothing strange, and could hear nothing more 
 ominous than the customary sound of pumping. He 
 then examined every top box where it was the duty of 
 the men to keep watch, but there was no appearance of 
 any movement. The idea flashed across his mind that 
 all had been drowned, when, to his astonishment and 
 relief on mounting a stage near the west arch, he found 
 the whole of the watchmen comfortably asleep on clean 
 straw. Fitzgerald, who was of the number, had been 
 naturally dreaming of the dangers which were ever 
 about them day and night, and the exclamations which 
 had caused so much alarm had been uttered by him in 
 this condition, and re-echoed through the tunnel till they 
 reached his brother watcher. 
 
 The total cost of the Thames Tunnel was about 
 £454,000. As a commercial speculation it was entirely 
 unsuccessful ; the carriage descents were never com- 
 pleted ; the foot-passenger traffic has never been suffi- 
 cient to yield any considerable profit ; and at this 
 moment it is in contemplation to convert this extraor- 
 aniary work into a tunnel for a railway. 
 
INVENTION AND DISCOVERT. 243 
 
 THE IDEA OF THE THAUMATROPE. 
 
 According to a story in Mr. Babbage's interesting " Pas- 
 sages from the Life of a Philosopher," the idea of this 
 beautiful philosophical toy is due to the astronomer 
 Herschel and his friend Dr. Fitton. " One day," says 
 Mr. Babbage, " Herschel, sitting with me after dinner, 
 amusing himself by spinning a pear upon the table, 
 suddenly asked whether I could show him the two sides 
 of a shilling at the same moment. 
 
 " I took out of my pocket a shilling, and holding it 
 up before the looking-glass, pointed out my method, 
 ' No,' said my friend, ' that won't do ;' then spinning 
 my shilling upon the table, he pointed out his method 
 of seeing both sides at once. The next day I mentioned 
 the anecdote to the late Dr. Fitton, who a few days after 
 brought me a beautiful illustration of the principle. It 
 consisted of a round disc of card suspended between 
 the two pieces of sewing silk. These threads being held 
 between the finger and thumb of each hand, were then 
 made to turn quickly, when the disc of card, of course, 
 revolved also. 
 
 " Upon one side of this disc of card was painted a 
 bird; upon the other side, an empty bird-cage. On 
 turning the thread rapidly, the bird appeared to have 
 got inside the cage. We soon made numerous apph- 
 cations, as a rat on one side and a trap upon the other, 
 etc. It was shown to Captain Kater, Dr. Wollaston, 
 and many of our friends, and was, after the lapse of a 
 short time, forgotten. 
 
244 INVENTION AND DISCOVERY. 
 
 " Some months after, during dinner at the Royal 
 Society Club, Sir Joseph Banks being in the chair, I 
 heard Mr. Barrow, then Secretary to the Admiralty, 
 talking very loudly about a wonderful invention of Dr. 
 Paris, the object of which I could not quite understand. 
 It was called the thaumatrope, and was said to be sold 
 at the Royal Institution, in Albemarle Street. Suspect- 
 ing that it had some connection with our unnamed toy, 
 I went the next morning and purchased, for seven 
 shillings and sixpence, a thaumatrope, which I after- 
 wards sent down to Slough to the late Lady Herschel. 
 It was precisely the thing which her son and Dr. Fitton 
 had contributed to invent, which amused all their friends 
 for a time and had then been forgotten. There was, 
 however, one additional thaumatrope made afterwards. 
 It consisted of the usual disc of paper. On one side 
 was represented a thaumatrope (the design upon it 
 being a penny-piece), with the motto, 'How to turn a 
 penny.' On the other side was a gentleman in black, 
 with his hands held out in the act of spinning a thauma- 
 trope, the motto being, ' A new trick from Paris.' " 
 
 THE PIANOFOETE. 
 
 The introduction into this country of the pianoforte — 
 that favourite instrument which is now found in every 
 household where a taste for music exists — may almost 
 be said to have taken place within the memory of living 
 persons. As early as 1716 an inventor, named Marius, 
 
INVENTION AND DISCOVERY. 245 
 
 presented to the Academy of Sciences in Paris a clave- 
 cin, whose strings were vibrated with hammers instead 
 of pleetrums ; and two years later, Christoforo, a Floren- 
 tine musical-instrument maker, devised some further 
 improvements on the instrument. This has generally 
 been considered as the first piano. In 1760 a foreigner, 
 named Zumpo, established in England a small manu- 
 factory of these instruments ; but he met with little 
 success. Its merits were, however, clearly perceived 
 by Haydn, who loft sixty sonatas composed expressly 
 for it; Gluck also adopted the new invention, and the 
 piano on which he composed his " Armida," and other 
 works, made for him by John Pohlman in 1772, still 
 exists. It is stated to be only 4t feet in length, and 
 2 feet in width, with a small square sounding-board at 
 the end, the wire of the strings being little more than 
 threads, and the hammers consisting of a few piles of 
 leather over the end of a horizontal jack working on a 
 hinge. " The instrument," says M. Thalberg, " com- 
 pared with a fine piano of the present day, is utterly 
 insignificant and useless ; and it is difficult to conceive 
 how it could have been used for the purposes it certainly 
 served, till avc reflect upon the importance to the com- 
 poser of having at instant command any description of 
 orchestral effect." 
 
 In France the first maker of a pianoforte was Sebas- 
 tien Erard, who died in Paris in 1831. Erard was the 
 orphan child of a cabinet-maker in Strasbourg. He 
 came to Paris when only sixteen years of age, and 
 apprenticed himself to a harpsichord maker, in whose 
 employment his ingenious mind soon found means to 
 display itself. His apprenticeship being ended, the 
 
246 INVENTION AND DISCOVERT. 
 
 young Strasbourg workman obtained employment from 
 various instrument-makers, which he executed at his 
 own house. One day a harpsichord-maker, struck by 
 his talent, proposed to him to make an instrument of 
 the harpsichord kind, with such improvements as the 
 workman could suggest. Pleased with his task, al- 
 though it was agreed that the instrument was to bear 
 the name of his master only, who proposed to take the 
 credit of the work, Erard devoted himself assiduously 
 to the production of the instrument. When it was 
 completed, the musician who had purchased it was so 
 much struck with its powers that he returned to make 
 inquiries from the harpsichord-maker on the subject of 
 its construction. The man, taken by surprise, was 
 unable to reply, and was at length compelled to admit 
 that it was entirely the work of his young journeyman. 
 From that time Erard's reputation began to spread. 
 The Duchess de Villeroi, who devoted much of her 
 fortune to the encouragement of the arts, having heard 
 of the young artist, sent for him, and proposed to him 
 to attempt the construction of a piano similar to those 
 recently introduced into Saxony by Silberman ; and 
 it was in her house in Paris that the workman de- 
 signed and completed his instrument — the first ever 
 made in France, where, indeed, it was till then almost 
 entirely unknown. Played at the concerts given by the 
 Duchess, the instrument quickly gained in favour. 
 
 Sebastien Erard, in conjunction with his brother Jean 
 Baptiste, set up a manufactory in Paris to meet the 
 demand for the instrument ; and here the ingenuify 
 of the Strasbourg workman speedily introduced such 
 important improvements that his instruments became 
 
INTENTION AND DISCOVERY. 24iV 
 
 famous throughout Europe. It is said that an agent in 
 Hamburgh, in the year 1799, sold in that city more than 
 two hundred of Erard's pianos. It is to the Erard 
 establishment that the pianoforte players owe the up- 
 ward bearing of the strings — a great improvement, now 
 almost universally adopted. 
 
 THE ECCENTRICITIES OP THE HON. HENRY 
 CAYENDISH. 
 
 The passion, in certain minds, for scientific discovery, 
 was perhaps never more curiously illustrated than in 
 the account of the death of the Honourable Henry 
 Cavendish, the natural philosopher. Cavendish, who 
 died in 1810, in his seventy-ninth year, was a man oi 
 remarkably strong constitution. It is said that the ill- 
 ness which caused his death was the first as well as the 
 last under which he suffered. Aware of the gravity oi 
 his situation, he determined to mark accurately the pro- 
 gress of his disease, and the gradual diminution of the 
 vital powers. For this purpose, and in order that his 
 attention might not be disturbed, he desired to be left 
 alone. His servant returning to his master's bedroom 
 sooner than he was ordered to do, his master, though 
 then in a sinking state, desired him to leave him again. 
 When the man came back a second time he found that 
 his master had expired. 
 
 Cavendish's first scientific publication was a paper 
 on Factitious Airs, which, for the first time, gave a dis- 
 
248 INVENTION AND DISCOVERT. 
 
 tinct account of the properties of hydrogen and of car- 
 bonic acid gas. He subsequently devoted himself to 
 natural philosophy generally ; and published, in 1776, a 
 curious account of his attempts to imitate the electrical 
 eel by an apparatus constructed in imitation of the liv- 
 ing fish in connection with a Leyden battery, by which 
 he removed all doubts as to the identity of the benumb- 
 ing power of the torpedo with common electricity. His 
 discoveries concerning the composition of the atmo- 
 sphere, the compound nature of water, and of the 
 composition of nitric acid, and the density of the 
 earth, place him in the highest rank of English philo- 
 sophers. In order to solve the question of whether 
 the atmosphere is constant in its composition, he made 
 many hundred analyses of air. 
 
 This singular man, Avho was remarkable for his pro- 
 found and original knowledge in almost every depart- 
 ment of physical science, is described as living en- 
 tirely apart from the world among his books and his 
 scientific apparatus ; never taking part in the affairs of 
 active life, but Dassing his whole time in his favourite 
 pursuit of scientific truth. His dress was always anti- 
 quated, his walk quick and ungraceful ; he never 
 appeared in the metropolis except lying back in his 
 carriage, and it is remarked that he probably uttered 
 fewer words in the course of his life than any man who 
 ever lived to nearly fourscore. An admirer alluding to 
 his large fortune, said that he was " the richest of all 
 wise men, and probably the wisest of all rich men." He 
 does not, however, appear to have been free from grave 
 defects. His biographer. Dr. George Wilson, gives the 
 following curious summary of his private chai'acter : — 
 
INVENTION AND DISCOVERY. 249 
 
 " Morally it was a blank, and can only be described by 
 a series of negations. He did not love, he did not hate, 
 lie did not hope, he did not fear, he did not Avorship as 
 others do. He separated himself from his fellow men, 
 and apparently from God. There was nothing earnest, 
 enthusiastic, heroic, or chivalrous in his nature ; and as 
 little was there anything mean, grovelling, or ignoble. 
 He was almost passionless. An intellectual head think- 
 ing, a pair of wonderfully acute eyes observing, and a 
 pair of very skilful hands experimenting or recording, 
 are all that I recognize in his memorials. His brain 
 seems to have been but a calculating engine ; his eyes 
 inlets of vision, not fountains of tears ; his hands in- 
 struments of manipulation, which never trembled with 
 emotion, or were clasped together in adoration, thanks- 
 giving, or despair ; his heart only an anatomical organ 
 necessary for the circulation of the blood. A sense of 
 isolation from his brethren made him shrink from their 
 society and avoid their presence ; but he did so as one 
 conscious of an infirmity, not boasting of an excellence. 
 He was like a deaf mute, sitting apart from a circle 
 whose looks and gestures show that they are uttering 
 and listening to music and eloquence, in producing or 
 welcoming which he can be no sharer. Wisel\-, there- 
 fore, he dwelt apart. He was one of the un thanked 
 benefactors of his race, who was patientlj- teaching and 
 serving mankind, whilst they were shrinking from his 
 coldness or mocking his peculiarities. He could not 
 sing for them a sweet song, or create a ' thing of 
 beauty,' which would be ' a joy for ever,' or touch their 
 hearts, or fire their spirits, or deepen their reverence or 
 their fervour. He was not a poet, a priest, or a prophet, 
 
250 INVENTION AND DISCOVERY. 
 
 but only a cold clear intelligence, raying down pure 
 white light, which brightened everything on which it 
 fell, but warmed nothing — a star of at least the second, if 
 not of the first magnitude in the intellectual firmament." 
 All this appears to be fully borne out by the 
 testimony of those who knew him. In spite of his 
 recluse habits and dread of becoming famous. Caven- 
 dish's reputation spread rapidly. About the year 1785, 
 when his chief discoveries were made, his town resi- 
 dence was at the corner of Montague Place and Gower 
 Street. Of this and other houses of Cavendish, Dr. 
 Wilson says, " Few visitors were admitted, but some 
 found their way across the threshold, and have reported 
 that books and apparatus formed its chief furniture. 
 For the former, however. Cavendish set apart a separate 
 mansion in Dean Street, Soho, Here he had collected 
 a large and carefully chosen library of works on science, 
 which he threw open to all engaged in research, and to 
 this house he went for his own books as one would go 
 to a circulating library, signing a formal receipt for such 
 of the volumes as he took with him. His favourite 
 residence was a beautiful suburban villa at Claphara, 
 which, as well as a street or row of houses in the neigh- 
 bourhood, now bears his name. ... A small por- 
 tion only of the villa was set apart for personal comfort. 
 The upper rooms constituted an astronomical observa- 
 tory. What is now the drawing-room was the laboratory. 
 In an adjoining room a forge was placed. The lawn 
 was invaded by a wooden stage, from which access 
 could be had to a large tree, to the top of which, in 
 the course of his astronomical, meteorological, elec- 
 trical, or other researches, he occasionally ascended." 
 
INVENTION AND DISCOVERY. 251 
 
 Cavendish lived comfortably, but made no display. 
 His few guests were treated on all occasions to the 
 same fare, and it was not very sumptuous. A Fellow 
 of the Royal Society reports that if any one dined with 
 Cavendish, " he invariably gave them a leg of mutton 
 and nothing else." Another Fellow states that Caven- 
 dish " seldom had company at his house ; but on one 
 occasion three or four scientific men were to dine with 
 him ; and when his housekeeper came to ask what was 
 to be got for dinner, he said, ' A leg of mutton.' To 
 the servant's remonstrance that that would not be 
 enough for five, he replied, 'Well then, get two !' " 
 
 Dr. Thomas Thomson gives the following account 
 of Cavendish : — "He was shy and bashful to a degree 
 bordering on disease. He could not bear to have any 
 person introduced to him, or to be pointed out in any 
 way as a remarkable man. One Sunday evening he was 
 standing at Sir Joseph Banks' in a crowded room con- 
 versing with 'Mr. Hatchett, when Dr. Ingenhousz, who 
 had a good deal of pomposity of manner, came up with 
 an Austrian gentleman and introduced him formally to 
 Mr. Cavendish, He mentioned the titles and qualifica- 
 tions of his friend at great length, and said that he had 
 been peculiarly anxious to be introduced to a philoso- 
 pher so profound and so universally known and cele- 
 brated as Mr. Cavendish. As soon as Dr. Ingenhousz 
 had finished, the Austrian gentleman began, and assured 
 Mr. Cavendish that his principal reason for coming to 
 London was to see and converse with one of the greatest 
 ornaments of the age, and one of the most illustrious 
 philosophers that ever existed. 
 
 "To all these high-flown speeches Mr. Cavendish 
 
INVEXTION AND DISCOVERY. 
 
 uttered not a word, but stood with his eyes cast down, 
 quite abashed and confounded. At last, spying- an 
 opening in the crowd, he darted through it with all the 
 speed of which he was master, nor did he stop till he 
 reached his carriage, which drove him directly home." 
 
 Sir Humphrey Davy, who could well appreciate the 
 great discoveries of Cavendish, says, " He was a great 
 man, with extraordinary singularities. His voice was 
 squeaking, his manner nervous ; he was afraid of 
 strangei's, and seemed when embarrassed even to arti- 
 culate with difficulty ; he wore the costume of our 
 grandfathers. . . . He gave me once some bits of 
 platinum for my experiments, and came to see ray re- 
 sults on the decomposition of the alkalis, and seemed 
 to take an interest in them, but he encouraged no inti- 
 macy with any one. . . . He was acute, sagacious, 
 and profound, and, I think, the most accomplished 
 British philosopher of his time." Another writer who 
 knew him well — Mr. J. G. Children — says, " When I 
 first became a member of the Royal Society Club, I 
 recollect seeing Cavendish on one occasion talking very 
 earnestly to Marsden, Davy, and Hatchett. I went up 
 and joined the group. My eye caught that of Caven- 
 dish, and he instantly became silent ; he did not say a 
 word. The fact is, he saw in me a strange face, and of 
 a strange face he had a perfect horror. I don't think I 
 had been introduced to him, biat I was so afterwards, 
 and then he behaved to me very courteously. Lord 
 Burlington informed Dr. Wilson, on the authority of 
 Mr. Allnutt, an old inhabitant of Clapham, that Caven- 
 dish would never see a female servant, and if an unfor- 
 tunate maid ever showed herself, she was immediately 
 
IXYENTION AND DISCO^"ERY. 253 
 
 dismissed.'' Lord Brougham says that Cavendish 
 ordered his dinner daily by a note, which he left at a 
 certain hour on the hall table, where the housekeeper 
 was to take it ; for he held no communication with his 
 female domestics. It is probable that these habits grew 
 upon him; and that the anecdote of the leg of mutton, 
 related by Dr. "Wilson, referred to an earlier period of 
 his life. 
 
 When Cavendish died, a discovery was made, which 
 may well excite the imaginations of the romantic on the 
 causes of his singular retirement and misanthropy. 
 According to Sir J. Barrow, in one of his chests of 
 drawers were discovered parts of richly-embroidered 
 lady's dresses, and among other valuable articles, an 
 old but magnificent stomacher, so beset with diamonds 
 that when it came to be examined and valued, its worth 
 was found to be nearly twenty thousand pounds. 
 
 Cavendish was the younger son of Lord Charles 
 Cavendish, and grandson of the second Duke of Devon- 
 shire. Notwithstanding his lonely way of life, he is said 
 to have shown himself in many respects a kindly and a 
 liberal man. So simple, however, was his mode of livinf 
 that his fortune greatly increased thi-oughout his life ; 
 and when he died he was found to have bequeathed the 
 enormous sum of twelve hundred thousand pounds for 
 division among his relatives and friends.. 
 
254 INVENTION AND DISCOVERT. 
 
 WILLIAM MUEDOCH AND HIS INVENTIONS. 
 
 Mr. Murdoch, whose name is best known as one of the 
 earliest of those who appHed coal-gas to useful purposes, 
 was the inventor of a great number of ingenious ap- 
 pliances. The son of an Ayrshire millwright, he settled 
 at Birmingham, where his talents were discovered by 
 Messrs. Boulton and Watt, who appointed him to 
 undertake the charge of their new steam engines at 
 Redruth, in Cornwall. Here Murdoch resided for 
 nineteen years. A paper read by Mr. William Buckle, 
 of Soho, before a meeting of the Institution of Me- 
 chanical Engineers, gives some interesting particulars 
 of his sojourn in this part, where he gave so much 
 satisfaction to the mining interest, that when his deter- 
 mination to return to Soho became known, they offered 
 him £1000 a year to remain in Cornwall. During his 
 residence there (says Mr. Buckle) Murdoch contrived 
 and execated a model locomotive, which, as early as the 
 year 1784, he was in the habit of showing to his friends 
 in working order, and drawing a small waggon round a 
 room in his house at Redruth. He used to tell a story, 
 that while making experiments with this engine, he 
 one night determined to test its powers on a level road 
 leading from his house to the church, which was situated 
 about a mile distant from the town ; this road was 
 bounded on each side by high edges, and well suited for 
 the purpose. Murdoch accordingly sallied out, and 
 placing his engine on the ground, lit the fire, or rather 
 
INVENTION AND DISCOVERY. 255 
 
 lamp, under the boiler ; after a few minutes off started 
 the locomotive with the inventor full chase after it. 
 After continuing the pursuit for a short distance, he 
 heard cries as of a person in great distress ; the night 
 was too dark to perceive objects afar off, but on going 
 on, he found that the sounds proceeded from the clergy- 
 man of the pai'ish, who had set out for the town on 
 business, and being met on this lonely road by the fiery 
 monster, had taken it for the Evil One in person. This 
 model locomotive was exhibited before a meeting of the 
 Institution of Mechanical Engineers in 1850, sixty-six 
 years after the date of its construction. 
 
 Returned to Soho, ^Ir. Murdoch soon became one 
 of the most conspicuous of the circle of scientific and 
 ingenious men who were associated directly and indi- 
 rectly with Watt and Boulton. His experiments with 
 gas probably did more to strike the popular mind with 
 the importance of that remarkable theatre for the dis- 
 play of new inventions than all the marvels of the steam 
 engine. Murdoch took out a patent for improvements 
 in boring cylinders and in the manufacture of steam 
 casings ; this patent also included the double slide valve 
 and a rotary engine. Amongst other inventions and 
 discoveries of Murdoch's (says lSh\ Buckle) are : a plan 
 for boring stone pipes for water, and cutting columns 
 out of solid blocks of stone (for which he took a patent 
 in 1810) ; a pneumatic lifb working by compressed air ; 
 and a cast iron cement, which he was led to discover by 
 the accidental observance of some iron borings and sal- 
 ammoniac, which had got mixed in his tool-chest and 
 rusted a sword blade nearly through. He also made 
 use of compressed air to ring the bells in his house ; a 
 
256 INVENTION AND DISCOVERY. 
 
 plan which so pleased Sir Walter Scott, to whom it had 
 been described, that he had his house at Abbotsford 
 litted up in a similar manner. 
 
 Murdoch likewise discovered a substitute for isin- 
 glass, and when in London, for the purpose of ex- 
 plaining to the bi-ewers the nature of his discovery, 
 he occupied very handsome apartments. Being, how- 
 ever, at all times absorbed in whatever subject he 
 had in hand, he little respected the splendour of his 
 drawing-room, but proceeded with his experiments as 
 if in the laboratory at Soho, quite unconscious of the 
 mischief he was doing. This resulted in his abrupt dis- 
 missal from the apartments by the enraged landlady, who 
 one morning, on calHngin to receive orders, was horrified 
 at seeing all her magnificent paper-hangings covered with 
 wet fish skins hung up to dry, and actually caught him 
 in the act of 'linning up a cod's skin to undergo the same 
 process. 
 
 Mr. Murdoch met with an unfortunate accident in 
 the year 1815, from the effects of which he never en- 
 tirely recovered. While fitting up an apparatus of his 
 own invention for heating the water of the baths at 
 Leamington, a heavy plate of cast iron fell upon his leg 
 above the ankle, nearly severing it in two. He lived, 
 however, till 1839, when he died at Handsworth in his 
 eighty-sixth year. His remains were deposited in 
 Handsworth church, near to those of his old friends and 
 fellow-workers, James Watt and Matthew Boulton. 
 
PRINCE ALBERT AND THE INVENTOR OF GUN COTTON. 
 
INVENTION AND DISCOVERT. 257 
 
 PRINCE ALBERT AND THE INVENTOR OF GUN- 
 COTTON. 
 
 Professor Scnoxr.Eix, of Basle, discovered that by 
 combining cotton with nitric acid, an explosive com- 
 yiouud -was formed capable of being substituted for 
 gunpowder. Gun-cotton is remarkable for the low tem- 
 perature at which it explodes. Hence, when pure, it 
 may be burnt on the palm of the hand, without incon- 
 venience, on the application of a heated wire. "When 
 this discovery was first announced in England in 18-i6, 
 Professor Schonbein attended at Osborne House, in the 
 Isle of "Wight, to exhibit the properties of his gun-cotton 
 to the late Prince Consort. Schonbein offered to ex- 
 plode a portion on the hand of one of the company, who 
 was a military officer. The officer, however, declined to 
 have anything to do with the experiment ; but the 
 Prince smiling offered his hand to submit to the test. 
 The wire was applied, and the cotton ignited without stain 
 or burning of the skin. Thus encouraged, the officer took 
 his turn ; but by some accident the experiment this 
 time proved more disagreeable, and caused him so much 
 pain that he leaped up with a sudden cry. As the in- 
 jury, however, proved trifling, a hearty laugh from the 
 company was all the commiseration he received. After 
 this, Professor Schonbein loaded a fowling-piece with 
 cotton in the place of powder, and the Prince fired both 
 ball and shot from it with the usual effect. Dissolved 
 in ether, gun-cotton forms the collodion now extensively 
 employed in photography. Collodion is also used by sur- 
 
 s 
 
258 INVENTION AND DISCOVERT. 
 
 geons as affording a ready and efficacious plaster for 
 cuts and flesli wounds. 
 
 Some practical objections to the use of gun-cotton 
 have hitherto prevented its superseding gunpowder ; 
 but in consequence of the recent improvements of 
 Baron Lenk, renewed attempts are being made to in- 
 troduce it into general use. Some of its properties are 
 extremely curious, and would appear to fit it in a high 
 degree for purposes for which gunpowder is employed. 
 The explosion from it causes no smoke. It does not 
 foul the gun, or heat it, or cause so great a recoil as is 
 caused by gunpowder. In all blasting in mining opera- 
 tions, the absence of smoke is of course a great advan- 
 tage. Its weight is only one-sixth of that of gunpowder. 
 But one of its most remarkable qualities is that time, 
 damp, and exposure do not affect its qualities. By 
 simply wetting it, the cotton can be cai'ried through 
 fire without injury, and on being afterwards dried in 
 the open air, it becomes as good as ever. The original 
 gun-cotton was in the form of light cotton wool ; the 
 latest, and it is believed more practical modification, is 
 in the shape of rope or yarn. 
 
 THE LABOURS OF SIR JOSEPH BANKS. 
 
 Sir Joseph Banks, whose discoveries in natural history 
 place him in the highest rank among English scientific 
 men, was noted when a boy for his immoderate love of 
 play and disinclination to study. When at Eton, at the 
 age of foarteen. "^is tutor was one day surprised to find 
 
INVENTION AND DISCOVERY. 259 
 
 tim reading, in his leisure hours, an imperfect copy of 
 " Gerard's Herbal," which he had carried away from 
 home. Banks afterwards said, in allusion to this period, 
 that one fine summer evening he had been bathing in 
 the river with other boys, but having remained a long 
 time in the water he found, when he came to dress him 
 self, that all his companions were gone. Returning 
 home alone, and walking leisurely through a lane, the 
 banks of which were covered with wild flowers, he was 
 struck with their beauty ; and the idea occurred to him 
 that to study their characteristics would be far more in- 
 teresting to him than poring over Greek or Latin exer- 
 cises. Pleased with the notion, he immediately began to 
 teach himself botany ; and for want of better instructors 
 was accustomed to ramble about on holidays Avith women 
 employed to gather simples for the druggists and 
 apothecaries, for whom he occasionally obtained infor- 
 mation on their habits and localities. Banks told Sir 
 Everard Home that when he first came to Oxford, if he 
 happened to join any party of students who were dis- 
 cussing questions respecting Greek authors, some of 
 them would call out, " Here is Banks ; but he knows 
 nothing of Greek." To this rebuke he made no reply- 
 but said to himself, " I will very soon excel you all m> 
 another kind of knowledge, to my mind of infinitely 
 greater importance ;" and not long after, if any of them 
 wanted to clear up a point of natural history, they were 
 accustomed to say, "Now we must go to Banks." 
 
 In pursuit of his favourite science, Banks herbalized 
 much on foot ; and being somewhat careless of his per- 
 sonal appearance, he was often mistaken for a vagrant 
 On one occasion, worn out with fatigue and soiled with 
 
260 INVENTION AND DISCOVERT. 
 
 liis labours in the woods, he lay down to sleep at a little 
 distance from the high road with his collection of speci- 
 mens by his side, and being found there by a parish 
 constable, he was taken, in spite of remonstrances, 
 before a Justice of the Peace. A few explanations, of 
 course, procured his dismissal. Banks made many 
 voyages to distant countries in pursuit of new disco- 
 veries — remaining abroad two or three years at a time, 
 encountering numerous perils and hardships. Many 
 plants and animals hitherto unknown were brought by 
 him to Europe. He accompanied Captain Cook on his 
 fourth expedition round the world, aboard the " Endea- 
 vour," which arrived in England, after an absence of 
 three years, in June, 1771. The people received the 
 voyagers on this occasion with rejoicings, and the king 
 showed his esteem for Banks on many occasions. Banks 
 afterwards became President of the Koyal Society, and 
 was invested by the king with the Order of the Bath, 
 and admitted a member of the Privy Council. His en- 
 larged and liberal views on international obligations are 
 thus noticed by Cuvier: — 
 
 " At the breaking out of the American war, Louis 
 XVI. gave orders that his vessels should everywhere 
 show respect to Captain Cook and his companions. To 
 the honour of the age we live in, reviled and contemned 
 as it has been, be it said that this noble example has 
 become an article in the laws of nations ; but it is chiefly 
 to the constant zeal of Banks that we owe this great 
 boon. Not only did he never lose an opportunity of 
 getting the English government to comply with it, but 
 more than once he even succeeded in persuading foreign 
 governments to conform to it. Erom the first breaking 
 
INVENTION AND DISCOVERY. 261 
 
 out of the war which desolated Europe, he procured 
 similar orders to be issued in favour of La Perouse, if he 
 still existed ; and he caused inquiries to be made for him 
 in every sea. When discord had terminated the expe- 
 dition of D'Entrecasteaux, and when the collections of 
 M. de la Billardiere were ti-ansported to England, he 
 succeeded in procuring them to be given up to him ; and 
 not only did he hasten to restore them to their owners, 
 but he accompanied his bounties with the singular deli- 
 cacy of returning them unopened. He wrote to Jussieu 
 that he would not carry oft" a single idea from a man who 
 had procured these collections at the peril of his life." 
 
 On no less than ten diff'erent occasions, collections 
 addressed to the Jardin du Roi, which had been cap- 
 tured by English vessels, were recovered by him, and 
 restored in this manner. He even sent as far as the 
 Cape of Good Hope to procure some chests belonging 
 to Humboldt, which had been seized by pirates ; and 
 on all these occasions he would accept no reimburse- 
 ment. He appeared to feel that he was, as it were, 
 answerable for the outrages committed by his country 
 on science and the arts, and that it was almost his duty 
 to repair the injuries done by other nations to science. 
 Having learnt from the newspapers that Broussonnet 
 had been obliged to fly from his country in order to save 
 his life. Sir Joseph Banks gave orders to his correspon- 
 dents in Spain to supply all his wants ; and a friendly 
 hand and an open purse awaited him at Madrid, and 
 again at Lisbon, and followed him as far as Maroe. 
 When the distinguished mineralogist Dolomiere, by the 
 most unjust violation of the laws of nations, in order to 
 gratify the vengeance of an angry woman, was cast into 
 
262 INVENTION AND DISCOVERT. 
 
 the dungeons of Messina, it was the ingenious humanity 
 of Banks that first penetrated the subterranean prison, 
 where, concealed from all mankind, he languished in 
 despair, and whispered solace to his affliction, and gave 
 him tidings of his country and of his family ; and if hi& 
 benefactor did not succeed in procuring him his liberty, 
 it was not for want of zeal in attempting all possible 
 means with the government that so unjustly detained 
 him. The zeal which Banks displayed for the scien- 
 tific sons of France was not less exerted for his 
 own countrymen. Wlien by a violation of the rights 
 of nations, thousands of Englishmen, resident or 
 travelling in France, were suddenly declared pri- 
 soners of war, Banks hastened to discover all those 
 in whose favour some scientific occupation or title 
 could be alleged, and he called upon the Institute 
 of France to assist him in supporting his demand 
 for their liberation, and the Institute did not examine 
 with very nice care the claims advanced in favour 
 of the liberation of numerous persons. By these means 
 many were released from a captivity that might have 
 proved fatal. 
 
 Sir Joseph Banks, says one who knew him, was 
 in person tall and manly, with a countenance expressing 
 dignity and intelligence. His manners were polite, his 
 conversation rich in instructive information. On most 
 subjects he exercised the discrimination of an original 
 and vigorous mind. His knowledge was not that of 
 facts merely, or of technical and complex abstractions 
 alone, but of science in its elementary principles, and of 
 nature in her happiest forms. He died on the 10th of 
 June, 1820, at the age of seventy- seven, at his house at 
 
rN*VE>T10N AND DISCOVERY. 263 
 
 Spring Grove, near Hounslow, leaving an immense col- 
 lection of specimens, and a very extensive library, which 
 he bequeathed to the British Museum. 
 
 MODERN LAMPS AND THEIR IXVENTOES. 
 
 "While the last eighty years have seen the invention and 
 introduction of gas-lighting in our streets, shops, and 
 manufactories, scarcely less striking improvements have 
 been effected in our domestic lamps — those indispensable 
 companions of the student and the workman, whose 
 occupation requires a steady light. From a very early 
 time men had discovered that certain substances 
 plunged into oil or enveloped in grease, would burn 
 slowly and give light. But the ancient modes of em- 
 ploying these devices were far from satisfactory. They 
 furnished a dim light, annoying the senses and injuring 
 articles of furniture by giving out constantly thick 
 clouds of smoke. Up to the beginning of the present 
 century the expensive was candle was the only means 
 practically in use for lighting a room without the in- 
 convenience of smoke. It was in 1785 that Argand, a 
 native of Geneva, discovered a new and simple method 
 of obviating this objection to lamps while giving to their 
 flame for the first time a pure and brilliant appearance. 
 It was Argand who first thought of the dovice of cylin- 
 drical necks, to the top of which the oil was induced to 
 ascend through a tube or by the capillary attraction of 
 the vrick. Argand knew that the air passing con- 
 
2G4 INVENTION AND DISCOVERT. 
 
 tinually up this wick in two currents, the one external, 
 the other internal, would afford a far more abundant 
 supply than could be obtained by the old methods, and 
 thus feed the flame Avith such rapidity as to prevent 
 smoke ; but the crowning point of his invention was the 
 glass chimney, the draught and heat created by which 
 enabling the oil to burn at a much higher temperature, 
 gave at once that clearness and intensity to the light 
 which is now familiar in all households. While Argand 
 was preparing to apply this important discoveiy, a 
 workman named Quinquet, left his service, and imme- 
 diately afterwards brought out an improvement as 
 entirely his own invention. As such the public re- 
 ceived it, and for a long time Quinquet's name became 
 thus unjustly associated with the ingenious discoveries 
 of his former master. 
 
 Argand died in 1803. He had lived to see consider- 
 able improvements in the useful instrument which bears 
 his name. For the chief of these the world is indebted 
 to Carcel, the clockmaker of Paris. To him we owe 
 the solution of an important difficulty in lamp making 
 — the avoidance of the projection of the shade from the 
 reservoir. An interesting article descriptive of Carcel's 
 invention has been published in the " Engineer," weekly 
 journal, from which we extract the following particu- 
 lars : — " In a lamp which he constructed, Carcel made 
 the reservoir for oil at the lower part of the lamp, and 
 placed close to it a clockwork which moved a little force 
 pump, the piston of which raised the oil as far as the 
 wick. The spring was reached by means of a key. The 
 mechanical means employed by Carcel for raising the 
 oil to the burner Avere as ingenious as elegant ; there- 
 
INVENTION AND DISCOVERY, 265 
 
 fore we have changed nothing of the principle of the 
 inventor's lamp. The wheel-work that he adopted has 
 always been retained ; the improvements being secon- 
 daiy points in the mechanism, Carcel drew but a small 
 profit from his important discovery. Like many origi- 
 nators of useful inventions, to whom we are indebted 
 for the luxury and ease of actual life, he left to others 
 the profits and benefit of his works. He died in 1812 
 full of infirmities. Life had been to him but a long and 
 painful struggle. "When he wished to patent and secure 
 to himself the pi'operty of his discoveiy, and to com- 
 mence the use of it, he was obliged to ha.ve recourse to 
 a partner to find the necessary funds. It was the 
 apothecary Carreau who joined him : thus the patent, 
 which was delivered the 24th of October, 1800, to the 
 inventor of the Mechanical Lamp, bore the two names 
 of Carcel and Can-eau, But the latter had nothing to 
 do with tlie discovery, though his intervention in the 
 enterprise was not without its advantages. Carcel, 
 greatly discouraged, would not have followed up the 
 work he had proposed to himself, had it not been for 
 the entreaties and encouragement of his friend. How- 
 ever, the term of the patent expired without having 
 brought any important profit to the two partners. In 
 the Rue do I'Arbre Sec at Paris may still be seen the 
 old shop of Carcel, occupied to this day by a member of 
 his family, bearing this sign, * Carcel, Inventeur.' In 
 the doorway of this simple shop may be seen the first 
 model of the lamp which Carcel constructed. The hot 
 air which passes from the glass chimney of the lamp 
 serves to put in motion the mechanism by which the oil 
 is raised to the burner. On other lamps is clockwork^ 
 
2G6 INVENTION AND DISCOVERT. 
 
 constructed as by Carcel, the needles of which are put 
 in action by the same mechanism which raises the com- 
 bustible liquid." 
 
 MR. MALLET'S DISCOVERIES ABOUT EARTHQUAKES 
 
 It is only within the last few years that any strictly 
 scientific attempt has been made to discover the nature 
 of earthquakes. For this important scientific movement 
 the world is indebted to Mr. Robert Mallet, the en- 
 gineer, who had long made experiments on the nature of 
 earth-waves during explosions of gunpowder, and in 
 other matters connected with this subject. Impressed 
 with the belief that in this, as in all other branches of 
 natural philosophy, diligent and systematic inquiry must 
 lead to the discovery of important truths, Mr. Mallet 
 determined to extend his researches, as opportunity 
 offered, into the phenomena of these terrible convulsions 
 of nature which have so long afflicted some of the finest 
 regions of the earth. 
 
 The subject was at length taken up by the British 
 Association for the Advancement of Science, who 
 granted a considerable sum of money from the funds of 
 the Association for the purpose of investigating earth- 
 quake phenomena. A voluminous catalogue of nearly 
 seven thousand earthquakes was compiled and published, 
 and Mr. Mallet was entrusted with the task of drawing 
 up reports of the results, and in Mr. Mallet's hands 
 
INVENTION AND DISCOVERT. 267 
 
 seismology, or the knowledge of earthquakes (from a 
 Greek word, signifying an earthquake), lias become a 
 distiiict branch of science. 
 
 In 1857 Mr. Mallet volunteered to investigate the 
 phenomena of the great Neapolitan earthquake of that 
 year, one of the most terrific that had ever devastated 
 Italy ; and after great labour and perseverance he pre- 
 pared an elaborate report upon the subject, abounding 
 in information of great importance to all persons living 
 in regions liable to these disastrous shocks. On mi- 
 nutely observing, by the aid of a compass, the direction 
 in which buildings and other objects were cast down, 
 Mr. Mallet was enabled not only to determine the exact 
 course of the earth-waves, but to ascertain the laws 
 which govern them. Among the most useful of his 
 discoveries, was that of the best form of building for 
 resisting the shocks. He found that buildings with 
 vaulted and domed roofs, so common in those parts, 
 were particularly subject to disaster dui-iug the shocks. 
 He showed, for the first time, the fallacy of the common 
 belief in the formation during earthquakes of fissures of 
 fathomless depth, and was enabled to pronounce the 
 story of the great Jamaica earthquake having opened 
 and closed with the earth-wave, and bitten people in 
 two, as a mere fable. Mr. Mallet next proceeded, by a 
 series of laborious experiments, to determine the locality 
 of what he calls the earthquake's focus, and then to 
 ascertain its depth. The latter he was led to conclude 
 did not exceed three geographical miles. The average 
 rate of travelling of the eax'th-wave on the surface he 
 found to be about 788 feet per second. But perhaps 
 the most valuable of his discoveries was that of the fact 
 
268 INVENTION AND DISCOVERY. 
 
 that the great centres of earthquake intensity are slowly 
 bat continually moving in one direction — a fact which 
 Humboldt had suspected in South America. It is not 
 too much to hope that the ultimate fruits of these 
 discoveries may enable the inhabitants of countries 
 subject to these awful visitations to anticipate with cer- 
 tainty the locality and line of movement of earth- 
 quakes, and so in great degree to avoid their disastrous 
 effects. 
 
 TIME AND SPACE ABOLISHED. 
 
 Some time ago, in accordance with a previous arrange- 
 ment, the emploi/es of the American Telegraph Com- 
 pany's lines between Boston and a town in the State of 
 Maine, held a meeting by telegraph, after the business 
 of the line was concluded for the day, to take action 
 upon the resignation of a superintendent. A curious 
 account of this meeting was given in an American 
 scientific Journal. Thirty-three offices were repre- 
 sented, scattered over a circuit of seven hundred miles, 
 and speeches were made by most of their representa- 
 tives. Each speaker wrote with his key what he had to 
 .say, and all the offices upon the line received his remarks 
 at the same moment, thus abolishing space and time, and 
 bringing the different parties, in effect, as near to each 
 other as though they were in the same room, although 
 actually separated by hundreds of miles. 
 
 An account of the first game of chess ever played in 
 
INVENTION AND DISCOVERY. 269 
 
 England was published in the "Illustrated London 
 News," for the 12th of April, 1845. It was played 
 between amateurs in London, and Mr. Staunton and 
 Captain Kennedy in Gosport. It was intended at first 
 that this novel contest should take place between two 
 persons only, as in an ordinary game over the table — 
 one stationed at London and the other at Gosport ; but 
 as no player could be found who was willing to cope 
 with Mr. Staunton single-handed, it was at length 
 arranged that, in conjunction with Captain Kennedy, 
 he should conduct the game at one terminus against 
 half a dozen of the ablest players in the kingdom at the 
 other. To obviate other difficulties, as to which parties 
 should take the distant end, etc., Mr. Staunton volun- 
 teered himself to play at Gosport. Accordingly, on the 
 day appointed, he took his station, with his ally, at the 
 chess-board in the telegraphic apartment at Gosport ; 
 while his opponents, surrounded by a numerous assem- 
 blage, consisting of friends of the directors and persons 
 eminent in science, art, and literature, were at their post 
 in the saloon of the terminus at Vauxhall. The contest 
 began about half-past eleven a.m., and terminated about 
 seven in the evening — nearly the whole of this time 
 being occupied by the consideration of the players over 
 their moves ; the mysterious messenger who conveyed 
 the intelligence performing his noiseless journey with 
 the speed of thought. 
 
 The mode of playing was by numbering the squares 
 of the chess-board and the men ; thus the moves were 
 conveyed ; and the mysterious messenger imparting the 
 intelligence, must have travelled backward and forward 
 during the game, upwuids of 10,000 miles. 
 
270 INVENTION AND DISCOVERY. 
 
 The telegraph was not solely devoted to the game, 
 but throughout the day it conveyed various messages. 
 Forty-three moves were made on each side, and the 
 result was a drawn game. The contest would not have 
 lasted so many hours if it had not been for the time lost 
 in telegraphing the moves from Gosport to Southampton 
 as well as to London. 
 
 THE EESTOREE OF WOOD ENGEAVING. 
 
 Up to a period less than a century ago wood engraving 
 had fallen to so low an ebb as to have been almost a lost 
 art. The acknowledged restorer of this art, which has 
 now become of such vast importance, was the well-known 
 Thomas Bewick, who was bom at Cherryburn in Nor- 
 thumberland in 1753. 
 
 Bewick's first tendency to drawing was noticed by 
 his chalking the floors and grave-stones with fantastic 
 figures, and by sketching the outline of any known cha- 
 racter of the village, or of dogs or horses, which were 
 instantly recognized as faithful portraits. The half- 
 pence he thus obtained were laid out in chalk and pen- 
 cils, with which, when taken to church, he scrawled 
 over the ledges of the bench ludicrous caricatures of the 
 parson, clerk, and the more prominent of the congrega- 
 tion. These boards were some years since in the pos- 
 session of the Duke of Northumbei-land, by whom they 
 were replaced. When his chalk was exhausted, Bewick 
 resorted to a pin or a nail as a substitute. In conse- 
 quence of this propensity to drawing, some liberal people, 
 
INVENTION AND DISCOVERY. 271 
 
 Of wfiom ho says there were many in Newcastle, got 
 him bound apprentice to a Mr. Bielby, an engraver on 
 copper and brass. Of this period of his life Bewick 
 says, in a memoir of his own life written by himself, 
 but only lately published, " For some time I was em- 
 ployed in copying Copeland's Ornaments ; and this was 
 the only kind of drawing upon which I ever had a les- 
 son given me from any one. I was never a pupil to any 
 drawing-master, and had not even a lesson from William 
 Bielby, or his brother Thomas, who, along with their 
 other profession, were also drawing-masters. In the 
 later years of my apprenticeship, my master kept me so 
 fully employed that I never had any opportunity for such 
 a purpose, at which I felt much grieved and disap- 
 pointed. The first job I was put to do was blocking 
 out the wood about the lines on the diagrams (which 
 my master finished) for the ' Lady's Diary,' on which 
 he was employed by Charles (afterwards the celebrated 
 Dr.) Hutton; and etching sword-blades for William 
 and Nicholas Oley, sword manufacturers, at Shortly 
 Bridge. It was not long till the diagrams were wholly 
 put into my hands to finish. After these, I was kept 
 closely employed upon a variety of other jobs, for such 
 was the industry of my master that he refused nothing, 
 coarse or fine. He undertook everything, which he did 
 in the best way he could. He fitted up and tempered 
 his own tools, and adapted them to every purpose ; and 
 taught me to do the same. This readiness brought him 
 in an overflow of work ; and the workplace was filled 
 with the coarsest kinds of steel stamps, pipe moulds, 
 bottle moulds, brass-clock faces, door-plates, coffin-plates, 
 bookbinders' letters and stamps, steel, silver, and goid 
 
272 INVENTION AND DISCOVERY. 
 
 seals, mouming rings, etc. He also undertook the en- 
 graving of arms, crests, and cyphers on silver, and every 
 kind of job from the silversmiths ; also engraving bills of 
 exchange, bank notes, invoices, acconnt-heads, and 
 cards. These last he executed as well as did most of 
 the engravers of the time ; but what he excelled in was 
 ornamental silver engraving." 
 
 " During his apprenticeship," says a friend, " Bewick 
 walked most Sundays to Ovingham (ten miles) to see his 
 parents, and, if the Tyne was low, crossed it on stilts, 
 but if high-flowing, hallooed across to inquire their health, 
 and returned. This youthful genius was bound down 
 by his master to cut clock-faces and door-knockers, of 
 which, long after he had attained to fame, several were 
 to be seen in the streets of Newcastle. After his appren- 
 ticeship, Bewick came to London, and worked a 
 short time for a person in Hatton Garden ; but he dis- 
 liked London, and longed for his native home, to whose 
 braes and banks he joyously returned. Here he was 
 occupied in cutting figures and ornaments for books." 
 All this was a curious mechanical training for a youth 
 of artistic genius, though not unlike that which Hogarth, 
 received. Bewick thus continues his quaint and inte- 
 i-esting narrative : — ^" While we were going on in this 
 way, we were occasionally applied to by printers to exe- 
 cute woodcuts for them. In this branch my master was 
 very defective. What he did was wretched. He did 
 not like such jobs. On this account they were given to 
 me ; and the opportunity this afi'ordcd of drawing the 
 designs on the wood was highly gratifying to me. It 
 happened that one of these, a cut of the ' George and 
 Dragon' for a bar-bill, attracted so much notice, and had 
 
INVENTION AND DISCOVERY. 273 
 
 SO many praises bestowed upon it, that this kind of work 
 greatly increased. Orders were received for cuts for 
 children's books ; chiefly for Thomas Saint, printer, 
 Newcastle, and successor of John White, who had ren- 
 dered himself famous for liis numerous publications of 
 histories and old ballads." Meanwhile, he never 
 omitted visiting itinerant caravans of animals which 
 liappened to stay in the towns, and from the living looks 
 and attitudes of these he made spirited drawings. " My 
 time," he adds, " now became greatly taken up with 
 designing and cutting a set of wood-blocks for the 
 ' Story Teller,' ' Gay's Fables,' and * Select Fables ;' 
 together with cuts of a similar kind for printers. Some 
 of the fable cuts were thought so well of by my master, 
 that he, in my name sent impressions of a few of them 
 to be laid before the Society for the Encouragement of 
 Ai'ts ; and I obtained a premium. This I received 
 shortly after I was out of my apprenticeship, and it was 
 left to my choice, whether I would have it in a gold 
 medal or money (seven guineas). I prefeiTcd the latter ; 
 and I never in my life felt greater pleasure than in pre- 
 senting it to my mother." 
 
 The chief of the engravings which obtained the notice 
 of the Society of Arts was the " Old Hound" in the 
 edition of " Gay's Fables" referred to. A glance at this 
 picture will show to what a low state wood engraving had 
 reached when a public society deemed it worthy of a 
 reward. Yet even in this are traceable some lines and 
 touches of the future master of the art. 
 
 The typographer, Bulmer, of the Shakespeare Press 
 (a native of Newcastle), now employed John Bewick, in 
 co-operation with his brother Thomas, to embellish a 
 
 T 
 
274 INVENTION AND DISCOVERY. 
 
 splendid edition of Goldsmith's " Deserted Village," and 
 Hermit, Parnell's Poems, and Somerville's " Chase." 
 The designs and execution of these were so admirable 
 and ingenious that it is stated that King George III. 
 doubted their being worked on wood, and requested a 
 sight of the blocks, at which he was equally delighted 
 and astonished. 
 
 A personal friend of Bewick has left a pleasing 
 sketch of the homely life and appearance of this remark- 
 able man. 
 
 " The first time," says the friend referred to, " that I 
 had a personal interview with my venerable friend was 
 at Newcastle-upon-Tyne, on Wednesday, October 1, 
 1823, with my friend, Mr. J. E. Bowman. We had been 
 told that he retired from his work-bench on evenings to 
 the ' Blue Bell on the Side,' for the purpose of read- 
 ing the news. To this place we repaired, and readily 
 found ourselves in the presence of the great man. For 
 my part, so warm was my enthusiasm, that I could 
 have rushed into his arms, as into those of a parent or 
 benefactor. He was sitting by the fire in a large elbow- 
 chair, smoking. He received us most kindly, and m a 
 very few minutes we felt as old friends. He appeared a 
 large athletic man, then in his seventy-first year, with 
 thick, bushy, black hair, retaining his sight so completely 
 as to read aloud rapidly the smallest type of a news- 
 paper. He was dressed in very plain brown clothes, but 
 of good quality, with large flaps to his waistcoat, grey 
 woollen stockings, and large buckles. In his under lip 
 he had a prodigious large quid of tobacco, and he leaned 
 on a very thick oaken cudgel, which, I afterwards 
 earned, he cut in the woods of Hawthornden." 
 
INVENTION AJiD DISCOVERY. 275> 
 
 Bewick lived to see himself universally regarded as the 
 father of this useful art in its late developments. After 
 a long and happy retirement, surrounded by his family^ 
 he died in 1828, at the age of seventy-six. 
 
 CRIME AND THE TELEGRAPH. 
 
 No event in connection with the early history of the 
 electric telegraph in this country was more striking to 
 the popular mind, than the detection and arrest of the 
 murderer Tawell through the instrumentality of the 
 wires of Messrs. Cooke and Wheatstone, which had just 
 been laid down from Paddington to Slough. 
 
 On New Tear's day, 1845, a woman named Sarah 
 Hart was found murdered in a cottage, at Salt Hill, 
 near Eton, famous as the annual scene of the Eton 
 Montem. Screams had been heard by a woman who 
 lived in an adjoining cottage, and who going out 
 into her garden with a lighted candle in her hand, 
 could just discern a man, in the peculiar attire of 
 the Society of Eriends, hurriedly passmg from the 
 cottage, and who resembled a stranger Avho had been 
 observed, from time to time, to visit at the cottage. 
 Sarah Hart was found to be expiring, apparently from 
 the effects of some powerful poison, and no account 
 could be obtained from her of the causes of her con- 
 • dition ; but a clergyman named Champneys, hearing 
 that the supposed murderer had been seen to go in the 
 direction of Slough, he immediately proceeded to the 
 
276 INVENTION AND DISCOVERT. 
 
 Slough station, where he was just in time to see a man 
 in Quaker attire pass into a first-class carriage. Mr. 
 Champneys communicated his suspicions to the 
 station-clerk, who immediately transmitted to the Pad- 
 dington terminus the following telegraphic message : — 
 " A murder has just been committed at Salt Hill, and the 
 suspected miirderer was seen to take a first-class ticket 
 for London by the train which left Slough at 7h. 42m. 
 p.m. He is in the garb of a Quaker, with a brown 
 great coat on, which reaches nearly down to his feet ; 
 he is in the last compartment of the second first-class 
 carriage." After a short time the following reply was 
 received from Paddington : — " The up-train has arrived, 
 and a person answering, in every respect, the description 
 given by the telegraph, came out of the compartment 
 mentioned. I pointed the man out to Sergeant Wil- 
 liams. The man got into a New Road omnibus, and 
 Sergeant Williams into the same." 
 
 From that moment the murderer's detection was 
 certain. The ofiicer, who had had time to attire him- 
 self in private clothes pending the arrival of the train, 
 never lost sight of him for a moment ; and there, while 
 the murderer fancied himself far beyond reach of detec- 
 tion, sat a harmless-looking passenger in the same 
 omnibus carefully, but stealthily, observing all his move- 
 ments. On the omnibus arriving at the Bank, Tawell 
 got out, crossed over to the statue of the Duke of 
 Wellington, where he stopped for a short time, looking 
 about, it is supposed, to see if any person was following 
 him. He then proceeded to the Jerusalem Coffee- 
 house ; thence, over London Bridge, to the Leopard 
 Coffee-house, in the Borough ; then back again to 
 
INVENTION AND DISCOVERT. 277 
 
 Cannon Street, in the City, to a lodging-house in Scott's 
 Yard, where he was apprehended, with documents in 
 his pocket that led to his being identified, and finally 
 executed, for a murder peculiarly cruel and deliberate. 
 
 Tawell, liowever, had very nearly escaped through 
 an unfortunate peculiarity of the telegraphic code of 
 symbols Avith Avhich the manipulators had not then 
 become fiimiliar. This was the fact, that in the tele- 
 graphic alphabet no separate signs or symbols were in 
 use to represent " J," " Q," or " Z," each of these being 
 represented by " C," " K," and " S." The transmitter 
 of the message from Slough had to communicate that 
 the fugitive was attii'ed as a Quaker ; this was, in fact, 
 the only clue to his detection, though an admirable one 
 when understood. But the clerk was embarrassed for 
 want of a symbol for " Q ;" the use of "K" for the 
 purpose was difficult. After an interchange of the 
 signals " repeat,*' " not understood," etc., by which 
 valuable time was lost, the operator at Paddington 
 finally guessed the word just in time for the arrival of 
 the expected train. 
 
 AN UNINTENDED INSECT TEAP. 
 
 The electric light which was lately used to illuminate 
 the Place du Palais Royal, in Paris, was found to be 
 subject to remarkable changes in its brilliancy, arising 
 from a very singular and unexpected cause. Every 
 
278 INVENTION AND DISCOVERT. 
 
 evening, and especially after a very warm day, clouds of 
 insects collected around it, and each of them appeared 
 to be drawn irresistibly towards the bright points of 
 burning carbon ; but the instant they touched it they 
 were broiled to death. The numbers that crowded to 
 it, however, were so enormous, that the light appeared 
 at times to be almost extinguished by burning insects, 
 and every morning the bodies of these unfortunate 
 suicides were found heaped up at the bottom of the 
 lantern in thousands and tens of thousands. An inge- 
 nious Frenchman having luckily discovered a new 
 method of keeping insects out of lanterns, this cause of 
 the discontinuance of electric light will, no doubt, very 
 soon be put an end to. 
 
 THE WONDEES OF WELL-BORING. 
 
 The well of Grenelle has long been regarded with won- 
 derment by visitors to Paris. Sunk to the depth of 
 eighteen hundred feet through chalk, sand, and flint, 
 and occupying eight years in process of construction, 
 this well delivers from its bore of about seven inches only 
 six hundred and sixty gallons a minute, at the surface of 
 the ground. This wonderful Artesian well has, however, 
 recently found a rival in the well at Passy (a suburb of 
 Paris), concerning which M. Dumas, the distinguished 
 chemist, has recently communicated a report to the 
 French Academy of Sciences. The project of the well 
 
INVENTION AND DISCOVERT, 279 
 
 originated, in the shortened supply of water for domestic 
 uses. An accomplished engineer proposed to undertake 
 the work of boring a well of the average diameter of 
 twenty inches, in the neighbourhood of Passy, which 
 should deliver fourteen thousand cubic yards of water 
 per day, at an altitude of ninety feet above the highest 
 point in the Bois de Boulogne. Somewhere about the 
 close of the year 1854 the work was resolved upon and 
 commenced. Without encountering any obstacle of 
 special importance, it was pushed forward, unceasingly 
 until March of the year 1857, when the bore had 
 reached a depth of nearly seventeen hundred feet, and 
 water was daily looked for. 
 
 But a difficulty here overtook the enterprise, which 
 seemed almost insurmountable. The iron tubing which 
 follows the bore burst at the depth of a hundred and 
 sixty feet, under the pressure of the clay. Three years 
 of unceasing activity were required to remedy the results 
 of this accident, before the boring could be renewed. 
 It was found necessary to sink a shaft beside the tubing 
 to a depth of a hundred and seventy feet, of an average 
 diameter of seven feet. The sides of this shaft were 
 supported by iron tubing, which, although of more than 
 half an inch in thickness, frequently snapped like glass. 
 The labourers deserted the work, and refused to risk 
 their lives in its prosecution. In this emergency, the 
 engineers themselves volunteered to descend until con- 
 fidence was restored. At the close of the year 1859 this 
 supplemental labour was brought to an end ; the point 
 of the original breakage was reached ; the dehris was 
 removed, a safer tubing supplied, and the boring pushed 
 on without serious diflBculty until, at the close of Sep- 
 
280 IXVENTIOX AND DISCOVERY. 
 
 tember last, tlie water burst forth, and the orifice has 
 dehvered since that date a volume of over twenty thou- 
 sand cubic yards per day ; this at a temperature of about 
 84° Fahrenheit, and sufficient for the ordinary supply of 
 a population of half a million of people. 
 
 THE INTEODUCTION OF MAHOGANY. 
 
 It was only at the beginning of the last centmy that 
 mahogany became known in Europe. At this period 
 the brother of the celebrated Dr. Gibbons, commander 
 of a vessel employed in the service of the East India 
 Company, brought back, as he happened to have room 
 for stowage, a quantity of the wood of this tree. He 
 sent them to his brother, the Doctor, who at that time 
 was employing an architect to build a house for him in 
 Covent Garden ; but the carpenters having found the 
 strange wood too hard for their ordinary tools, they 
 refused to work upon it. The wood then remained for 
 some time forgotten in the Doctor's garden. A few 
 years later it happened that a small box Avas made from 
 a plank of this wood which was found in the garden. 
 The cabinet-makers complained, as the carpenters had 
 done, of its extreme hardness, and of the injury which 
 it caused to their tools ; but the Doctor advised them to 
 get harder and sharper tools, and at length the box was 
 finished. 
 
 Dr. Gibbons was so well satisfied with the beauty 
 
IXVENTIOX AXD DISCOVEUY. 281 
 
 of its appearance tbat he ordered a bureau to be made 
 of the new niateriah The workman whom he employed 
 was skilful and persevering, and he succeeded to per- 
 fection. Gibbons, delighted with his discovery, showed 
 the work to his friends, and the eccentric Catherine, 
 Duchess of Buckingham, admired it so much that she 
 begged the Doctor to give her the wood necessary for 
 making another. It was thus that mahogany was first 
 introduced into England, where, coming into general 
 use during the last century, it passed into the different 
 countries of Europe. 
 
 / 
 
 PEIESTLT AXD THE EEEWERY. 
 
 Probably few persons who drink those effervescing 
 waters which we so welcome in the heat of summer are 
 aware that we owe their introduction to the philosopher 
 Joseph Priestly, who has himself related the anecdote 
 of the discovery of the principle on which they are 
 produced. He tells us that it was towards the end of 
 the mouth of June, 1767, that he left his residence at 
 Warrington to establish himself at Leeds. The ac- 
 cident of his residence for the year of his stay in the 
 latter town being contiguous to a brewery, first gave 
 him the idea of making experiments with the fixed air 
 constantly produced in the making of beer. But for 
 this circumstance, he tells us, that he should- probably 
 never have turned his attention to the subject of the 
 
282 INVENTION AND DISCOVERY. 
 
 different kinds of air and of tlieir different properties ; 
 for when he began his experiments he knew very little 
 of chemistry, and had no idea on the subject until a 
 short time previously, when he attended a course of 
 school lectures, delivered at the academy at Warrington, 
 by Dr. Tui-ner, of Liverpool. " I have often thought," 
 adds Priestly, " that, upon the whole, this circumstance 
 was no disadvantage to me, as, in the situation, I was 
 led to devise an apparatus and processes of my own 
 adapted to my peculiar views. Whereas, if I had been 
 previously accustomed to the usual chemical processes, 
 I should not have so easily thought of any other ; and, 
 without new modes of operation, I should hardly have 
 discovered anything materially new." 
 
 One of the first operations of Priestly in this field 
 was to place vessels filled with water over the spot 
 where the fixed air issued at the surface of the vats 
 holding beer in fermentation. After leaving them on 
 the previous night, he generally found, on coming in 
 the morning, that the Avater had become impregnated 
 Avith a pleasant flavour ; and the philosopher relates 
 that it was with a singular satisfaction that he drank 
 for the first time of this water, the first of its kind ever 
 tasted. Many of Priestly's friends could remember 
 coming to see him at this period, when he was accus- 
 tomed to regale them with a glass of this artificial 
 Pyrmont water made in their presence. 
 
 It was an accident which subsequently led him to 
 put in practice a method for producing the same effect 
 with fixed air set free from lime and other calcareous 
 substances. He happened to be dining with the Duke 
 of Northumberland in the spring of the year 1772, 
 
INVENTION AND DISCOVERY. 283 
 
 when the latter showed to Priestly a bottle of water 
 distilled by Dr. Irving for the use of the navy. It 
 was perfectly sweet, but it had the freshness and flavour 
 of pure spring water. The idea immediately struck 
 him that he could easily cure this flatness by the aid 
 of one of his vessels, and thus furnish an easy means 
 for preventing scurvy in the navy, an object in which 
 he succeeded. 
 
 A STEANGE SUBSTANCE. 
 
 In the years 1786 and 1787, some workmen engaged in 
 the Cemetery of the Innocents in Paris, in removing 
 human bones and other remains to the catacombs 
 beneath the city, came upon a number of dead bodies 
 which presented a remarkable appearance. Those par- 
 ticularly which had been interred about fifteen years 
 before in a common grave, the biers of which, to the 
 number of fifteen hundred, had been heaped one upon 
 the other, had become transformed into a white and 
 soapy substance such as had never been remarked before. 
 The bodies had become compressed under the weight of 
 each other, and, although they had generally preserved 
 their original shape, there was found deposited around 
 the bones of a great number a strange substance of a 
 greyish white, and somewhat soft and flexible. The 
 chemist Fourcroy presented to the Academy of Sciences 
 in 1789 a report upon this phenomenon, in which iie 
 
284 INVENTION AND DISCOVERY. 
 
 stated that the fatty substance in question was an 
 ammoniacal soap containing phosphate of chalk ; that, 
 like the spermaceti, it took, in spontaneously cooling, a 
 crystallized and foliated structure ; and that, like wax, by 
 rapid cooling, it became granulated. He called this 
 new substance, in consequence, Adipocire. He supposed 
 it to be a natural result of the slow decomposition of all 
 animal matter, with the exception of the bones, the nails, 
 and the hair of the body. 
 
 Though lost sight of for many yeai-s, this discovery 
 subsequently became of great importance in the useful 
 arts. In 1812 it was examined again by M. Chevreul, 
 and this eminent chemist found that it contained certain 
 acid substances called margarin and olein, common to 
 all oils and fatty matters, and that it had no connection 
 with spermaceti, as supposed by M. Foui'croy. Accord- 
 ing to Gay-Lussac and Che\T:'eul, adipocire proceeds 
 entirely from the fatty matter pre-existing in the body, 
 and not in any alteration of the flesh, the tendons, or 
 the cartilage ; a supposition which had occasioned a 
 number of costly and fruitless experiments for convert- 
 ing on a grand scale the bodies of horned animals into 
 adipocire, so as to render them fit for the manufacture 
 of candles and soap by merely exposing them to moist 
 air. The uses to which this substance has since beea 
 employed in the arts are well known. 
 
INVENTION AND DISCOVERT. 285 
 
 THE INVENTOE OP LITHOaEAPHY. 
 
 In the year 1817, Alois Sencfelder, a native of Munich, 
 published to the world for the first time a practical work 
 on the new art of Lithography, of which he was the in- 
 ventor, and to this remarkable book he prefixed a mo- 
 dest but extremely interesting narrative of his own life, 
 and of the circumstances which led him to his important 
 discovery. 
 
 Scncfcldev's father was an actor at the Royal The- 
 atre at Munich, and the son was from childhood anxious 
 to follow his father's profession. Sent to the University 
 of Ingolstadt to study the law, he wrote a little comedy 
 in the year 1789, which was so well received by his 
 friends that he sent it to the press, and had the good 
 fortune to clear fifty florins, after defraying the expenses 
 of the printing. Soon after this, Sencfelder lost his 
 father ; and his reduced circumstances compelled him to 
 discontinue his studies, and launch upon the world at 
 once as a sti'oUing player. In this pursuit having for 
 two years suffered a great deal of misery and disappoint- 
 ment, his enthusiasm for the stage had considerably 
 cooled down, and he resolved to forsake this unpromising 
 profession, and to try his fortune as an author. 
 
 li^vcn in this plan, however, he was not very successful. 
 The first attempt he made to publish another of his dra- 
 matic productions entirely failed, as the piece could not be 
 got ready for the Easter book-fair at Leipsig. It scarcely 
 produced enough to pay the expenses incurred by the 
 unfortunate author, who was reduced to despair ; but 
 
286 INVENTION AND DISCOVEET. 
 
 the circumstance led to consequences of far inore impor- 
 tance to the world than the publication of his play. lu 
 order to accelerate the production of the work, he had 
 passed several days in the printing-office, and had made 
 himself acquainted with many of the details of the 
 printer's art. He thought it so easy, that he desired 
 nothing more than to possess a small printing-press, and 
 thus to be the composer, printer, and publisher of his 
 own productions. " Had I then," says Senefelder, 
 " possessed sufficient means to gratify this wish, I should 
 never perhaps have been the inventor of the lithographic 
 art ; but as this was not the case, I was obliged to have 
 recourse to other projects." After pei'severin^' efforts 
 to make wooden types, and to cast stereotype plates, he 
 took to practising the writing of print characters back- 
 wards on a copper plate covered with etching ground, 
 in order afterwards to bite in the writing with acids, and 
 take impressions from it. The greatest difficulty he met 
 with in this labour was to correct the mistakes he 
 occasionally made in writing ; for he was so completely 
 dependent on his own ingenuity as to be utterly ignorant 
 of the common " covering varnish " of the engravers. 
 After some experiments, he invented for this purpose a 
 composition of wax, common soap, and lampblack, dis- 
 solved in rain-water, which answered the purpose re- 
 quired. The cost of copper-plates was his next difficulty, 
 and his attention having been attracted by a fine piece 
 of Kellheim stone, which he had purchased for the pur- 
 pose of grinding his colours, it occui'red to him that by 
 covering this plate with his composition ink, he could 
 use it as well as the copper or tin plates ; and in this, 
 after numerous experiments in polishing the surface of 
 
I^'VE^'TION AND DISCOVERT. 287 
 
 the stones, which he minutely describes, he tdtimately 
 succeeded. But this, as all who are acquainted with the 
 art are aware, had no connection with lithography, to 
 the discovery of which the ingenious artist was led as it 
 were blindfold. "As I got on," he observes, "it is 
 more than probable that if my circumstances had im- 
 proved, I should have returned to copper plates, as the 
 thickness and size of the stones rendered their use by 
 no means more convenient;" but a trifling accident 
 brought him suddenly about this time to the discovery 
 of a new art. 
 
 " I had just, ' he continues, " succeeded in my little 
 laboratory in pohshing a stone plate, which I intended 
 to cover with etching ground, in order to continue my 
 exercises in writing backwards, when my mother en- 
 tered the room and desired me to write her a bill for 
 the washerwoman, who was waiting for the linen. I 
 happened not to have even the smallest slip of paper at 
 hand, as my little stock of paper had been entii-ely ex- 
 hausted by taking proof impressions from the stones; 
 nor was there even a drop of ink in the inkstand. As 
 the matter would not admit of delay, and we had nobody 
 in the house to send for a supply of the deficient mate- 
 rials, I resolved to write the list -with my ink prepared 
 with wax, soap, and lampblack on the stone which I had 
 just polished, and from which I could copy it at leisure." 
 It was natural that the etcher should next have thought 
 of applj-ing aquafortis and water by way of experiment 
 to the stone, in the hope that it would leave the writing 
 m sufficient relief for printing from. Once thought of 
 the experiment was easy. It succeeded, and a kind of 
 lithographic di*awing and writing was thus discovered. 
 
288 INVENTION AND DISCOVERY. 
 
 The secret was one of great value ; but Seuefelder 
 was still too poor to take advantage of it. Knowing no 
 better means of obtaining a sum of money for the fur- 
 therance of his projects, he actually enlisted as a private 
 soldier as a substitute for an acquaintance, who promised 
 him a sum of two hundred florins ; but Avhen he arrived 
 with other recruits at Ingolstadt, it was found that he 
 was not a native of Bavaria, and therefore could not 
 serve. At Ingolstadt he found a musical publisher who 
 consented to allow him to turn the new art to account 
 in printing music for hitn. This publisher, whose name 
 was Glaisman, issued several works printed from litho- 
 graphy, and the process was so favourably received that 
 the elector sent the printers a present of one hundred 
 florins, and promised them a patent for the practice of 
 their art in his dominions. 
 
 It might be supposed that Senefelder's troubles were 
 now at an end ; but disappointments and annoj'ances 
 still beset him. A new and more elaborate press, con- 
 structed by him at the cost of all his savings, produced 
 to his great chagrin only blotched and dirty impressions, 
 " It is," he says, " and will be as long as I live, perfectly 
 incomprehensible to mehow I could have been so perplexed 
 as not to discover immediately the cause of this failure ; 
 but it cost me two years of great trouble and anxiety." 
 The cause when discovered proved to be a most trifling 
 circumstance. With great patience and perseverance 
 he then set to work to increase the pressure by means 
 of a lever and a stone of three hundred pounds weight, 
 which descended from a height of ten feet, producing a 
 pressure of moi^e than fifty tons on the stone ; but he 
 was deterred from further improving the press, as on. 
 
INVENTION AND DISCOVERT. 289 
 
 one occasion he had a very narrow escape from being 
 killed by the immense stone -which by an accident fell 
 from its height. " The consideration that the same 
 accident might occur in future to the printers," says 
 the good-hearted Senefelder, " rendered the whole press 
 odious to me, and I was therefore easily induced to 
 pursue another plan." 
 
 ^leanwhile valuable time was lost. The period at 
 which they had engaged to deliver copies of a great 
 work had expired, and Senefelder and his partner were 
 unable to perform their contract. Their new art almost 
 lost its credit and reputation, and even the p^i^•ilege 
 which the Elector had promised was refused them, so 
 that during the lifetime of Charles Theodore they were 
 never able to obtain it. Their little gains were entirely 
 consumed ; debts were incurred, and the ridicule of 
 those Avhom the success of their first trials had rendered 
 jealous, was after years all the fruit they had obtained 
 from their laborious endeavours to promote a new art. 
 Better times, however, came at last. Xumerous im- 
 provements both in the practical art of drawing and 
 writing on stone, and in the machinery for printing, 
 were gradually introduced by the indefatigable Sene- 
 felder, who had the good fortune to obtain patents for 
 his inventions in Bavaria and Austria. Employment 
 flowed in upon him ; and lucrative undertakings were 
 shared by himself and his partner. In England the art 
 ■was introduced earh* in the present century by a Mr. 
 Andre, and subsequently revived by Mr. Ackcrmann, of 
 the Strand. In Berlin, in St. Petersburgh, and even in 
 Philadelphia in the United States, lithography became 
 about the same time successfoiiy practised. " God 
 
 n 
 
290 INVENTION AND DISCOVERY. 
 
 grant," says Senefelder, in the conclusion of his simple 
 narrative, " that lithography may soon spread all over 
 the world ; that it may prove useful to mankind, and 
 contribute to their improvement, and that it may never 
 be abused to any dishonourable or wicked purpose, and 
 [ shall then never cease to bless the hour in which I 
 invented it." 
 
 This ingenious man, who gave birth to a branch of 
 industry which he lived to see employing thousands of 
 persons, and whose discovery gave a high value to the 
 famous Munich stone, now an important article of export 
 from Bavaria, died in 1834, at Munich, where he had 
 superintended to the end of his days the first litho- 
 graphic establishment set up in that country. 
 
 THE FIEST YICTIM OF THE LOCOMOTIVE, 
 
 Those who can remember the introduction of the railway 
 system into this country cannot yet have forgotten the 
 gloom cast over the public mind by the shocking accident 
 which marked the inauguration of the Liverpool and 
 Manchester Railway — the first line constructed in Eng- 
 land — an accident by which one of the most remarkable 
 statesmen, and one of the soundest political economists of 
 that time> was suddenly deprived of life in the presence of 
 the entire British Cabinet, his brother ministers. We 
 refer to the death of Mr. Huskisson, which took place on 
 the 15th of September, 1829. It was on that day that it 
 was determined to open the new hne, and the excite- 
 
INVKNTION AND DISCOVERY. 291 
 
 ment in the public mind was at its highest point. The 
 sanguine liad been daring enough to predict the day 
 when passengers should be carried at not less than 
 twenty miles an hour through tunnels and cuttings, and 
 over embankments and viaducts, spanning busy high 
 roads and murky housetops ; while old adherents of the 
 coaching interest shook their heads, and prophesied that 
 no good would come of so daring an attempt at innova- 
 tion upon the ways of our forefathers. In the town of 
 Liverpool a general holiday was observed, and all were 
 in e.xpectation of the brilliant assemblage who had been 
 invited to the ceremony. At half-past nine in the morn- 
 ing eight locomotives were drawn up at the entrance of 
 the tunnel in Liverpool. The Duke of Wellington 
 arrived at ten, and was received with enthusiasm by the 
 crowd, which was immense. At the moment when the 
 magnificent carriage prepared for the Duke issued from 
 the tunnel a military band played the air entitled " See 
 the conquering hero comes," and the multitude burst 
 forth in joyous huzzas. The cortege left the town at 
 twenty minntes to eleven drawn by the eight locomotives, 
 which, as the venerable progenitors of all passenger 
 engines, deserve honourable mention in the history of 
 that day. There were the j^orthumbrian drawing the 
 Directors and the guests of distinction — the Phoenix, the 
 Star of the North, the Rocket, the Dart, the Comet, the 
 Arrow, and the Meteor, each of which was distinguished 
 by a flag of a different colour. On issuing from the 
 tunnel, the Northumbrian took the road to the right 
 with its three carriages, of which the first carried the 
 musicians, the second the Duke of Wellington, Sir 
 Robert Peel, and the remainder of the ministers and 
 
292 INVENTION AND DISCOVERT. 
 
 other distinguished persons, and the third the directors 
 of the companies. The seven other locomotives then 
 took the way to the left, each drawing four or five 
 carriages, the entire cortege being composed of 772 
 persons. 
 
 The trains moved slowly, alternately accelerating or 
 retarding their progress to permit the party to examine 
 the more remarkable portions of the work. At length 
 they came to a stand at the Parkside Station, to enable 
 the engines to take a fresh supply of water. The joyous 
 and delighted company were far indeed from suspecting 
 the calamity which Avas about to result from this stop- 
 page. Before leaving Liverpool all had been cautioned 
 not to descend from the carriages on to the line, a pre- 
 caution which was unfortunately not so well understood 
 at that time as it would be in these days of universal 
 railway travelling. The caution had even been inserted 
 in the printed programme of the day's festivities, a copy 
 of which had been handed to every guest. IS'otwith- 
 standing this, however, ]\Ir. Huskisson, who then filled 
 the office of Home Secretary in the British Cabinet, 
 accompanied by Mr. William Holmes, a Member of 
 Pfxrliament, and some others of the travellers, ventured 
 to get out of their carriage at the Parkside Station, the 
 two former with the intention of going to exchange 
 some words with the Duke of Wellington, whose carriage 
 occupied the right line of rails. The scene was ob- 
 served with interest by the company, as a coolness had 
 been known to exist between theDuke and Mr. Huskisson, 
 and the cordiality with which the former greeted him 
 was felt to be in harmony with the good auspices of that 
 day. Mr. Huskisson and the Duke were in the act of 
 
INVENTION AND DISCOVERT. 293 
 
 warmly shaking hands at the window of the carriage 
 when, to the alarm of the more cautious of those who 
 were looking on, the Rocket was suddenly observed to 
 continue its progress on the parallel lines. Those who 
 had descended now fled to regain their places. A general 
 cry of " Get in ! get in !" was heard. Some were nimble 
 enough to obey this warning, climbing into the carriages 
 how they could. Others took shelter behind the carriage 
 of the Duke. But there was one, a man already sixty 
 years of age, whose activity was unhappily not so great. 
 This was the unfortunate Mr. Huskisson. For a mo- 
 ment he stood undecided. His first idea appeared to 
 be to cross the line before the Rocket, but the height 
 of the embankment at this point deterred him. Mr. 
 Holmes, who was in the same position, decided more 
 promptly, and pressed his body as closely as possible 
 against the side of the carriage of the Duke. The 
 space between the tvro ways was only four feet, the 
 projection of the Duke's carriage was about two feet, 
 and that of the terrible Rocket six inches only, so that 
 there remained a breadth of eighteen inches, just suf- 
 ficient to make it possible to escape. Mr. Holmes, 
 seeing the unfortunate indecision of the minister, cried 
 to him, " In Heaven's name, Mr. Huskisson, do not 
 stir!" but unfortunately the latter had pulled open the 
 door of the carriage, and was about to eiideavour to 
 pass round it, when the Rocket struck tie door. Mr. 
 Huskisson was struck down, and the engine, which was 
 driven by Mr. Locke, afterwards the celebrated en- 
 gineer, passed over Mr. Huskisson's left leg, smashing 
 the bone. 
 
 The Earl of Wilton, Mr. Holmes, and others rushed 
 
294 INVENTION AND DISCOVERT. 
 
 to the spot and lifted the unfortunate minister, who 
 exclaimed, " I am a dead man ! May God have mercy 
 on my soul !" Mr. Huskisson died the same night at 
 Eccles, where he was removed immediately after the 
 accident by the Northumbrian engine, driven by George 
 Stephenson himself, who conveyed the wounded man 
 the fifteen m.iles in twenty-five minutes, or at the rate 
 of thirty-six miles an hour, a fact which burst upon the 
 public as by far the most marvellous achievement yet 
 heard of in connection with steam. 
 
 Assuredly, if there were any truth in the popular 
 belief in evil omens, men might have taken a gloomy view 
 of the prospects of railway travelling. A consultation 
 was held, at which the Duke, who never afterwards lost 
 his antipathy to railways, strongly urged that the com- 
 pany should return to Liverpool. But the proposition was 
 finally negatived, and it was resolved to proceed with 
 the ceremony for fear of causing alarm and prejudice 
 among the crowds who had flocked from all parts to 
 witness the scene. Mr. Huskisson had been conveyed 
 to the vicarage-house at Eccles, while another of the 
 engines, despatched to Manchester, had brought back 
 the best medical aid which could be obtained. But 
 his recovery was soon perceived to be hopeless. 
 His sufferings were terrible, and amputation of the 
 limb was pronounced impracticable. In the evening 
 of that day the Sacrament was administered to the 
 dying man and to Mrs. Huskisson, when the former 
 said, " The country has had from me all that I was 
 able to give. The short time longer which I hoped to 
 live I do not regret for myself." But he added, grasp- 
 ing the hand of his wife, and looking tenderly upward 
 
INVENTION AND DISCOVERY. 296 
 
 into lier face, " Only for you. Only for those who are 
 dear to me, and whom I leave behind." His sufferings 
 terminated on the following day. 
 
 It is remarkable that the engine which was the cause 
 of this sad ending to the first day of British railroad 
 travelling was that famous " Rocket," which must 
 always be remembered with the name of the illustrious 
 George Stephenson. The work of George, and of his 
 scarcely less famous son Robert, it was the first really 
 successful locomotive, having recently won the prize at 
 the celebrated locomotive trial at Rainhill, where the 
 engines of the other competitors were scarcely worthy 
 of the name of locomotives. The fate of the old 
 Rocket is curious. In 1837, having been superseded 
 by the improved engines afterwards constructed, it was 
 sold, and for five or six years was doomed to the de- 
 grading drudgery of drawing coals from a colliery in 
 the North of England to a neighbouring tovra. Even 
 here, though proved on one occasion to be capable of 
 a speed of sixty miles an hour, it was again doomed to 
 be beaten from the field. The proud victor of Rainhill, 
 which weighed only four tons, was compelled to retire 
 before the more powerful machines weighing three times 
 that weight, which the example of the Rocket itself had 
 taught men to construct. The Rocket was then laid up 
 and forgotten in a yard at Kirkhouse, near Carlisle, 
 until very recently it was fortunately secured for the 
 Patent Museum at South Kensington, where, side by 
 side with its rude progenitor " Puffing Billy," of the 
 Wylam Colliery, this interesting reHc has at length 
 found an honourable asylum. 
 
29G INVENTION AND DISCOVERY, 
 
 THE LABOURS OF NIEPCE AND DAGUEREE. 
 
 About the period when Watt, Wedgv^ood, and the 
 illustrious Davy were prosecuting their fruitless re- 
 searches into the effects of light, in creating images on 
 prepared plates, there lived at Chalons, on the borders 
 of the Saone, in central France, two brothers named 
 Niepce. The elder, Joseph, was the proprietor of a 
 small estate, and on the fruits of this property he con- 
 trived to live, and to amuse himself with experiments in 
 philosophy. Joseph Niepce was a man of little scien- 
 tific education, and, probably, if he had been fully aware 
 of the difficulties which had been encountered by pre- 
 vious inquirers in the particular field which ho selected, 
 he would have shrunk disheartened from many of his 
 experiments. Joseph, however, had a brother who, pos- 
 sessing more knowledge, and being equally blessed with, 
 the leisure which a small income, combined with remark- 
 ably simple habits, secured him, he quickly imbibed 
 kindred tastes, and the two brothers soon devoted them- 
 selves ardently to these studies. The poor peasants of 
 the neighbourhood of Chalons often looked in at the 
 door of the mechanical workshop in the little farm-house 
 where these two ingenious agriculturists were engaged 
 in constructing strange machines, and experimenting on 
 new substances useful in the arts. Here they con- 
 structed as early as 1806 a new locomotive machine, in 
 which rapidly heated air was substituted for steam. This 
 curious machine attracted the attention of the savant 
 Carnot, who made a report upon the subject to the 
 
INVENTION AND DISCOVERT. 297 
 
 Institute. The cultivation of a plant called pastel, in 
 wtich they sometimes engaged, suggested to them the 
 preparation of a vegetable dye from that substance for 
 superseding indigo, a question of great importance at 
 that period, when the foreign vrar deprived the French 
 of colonial productions. Several other ingenious disco- 
 veries were made by these two farmers ; when at length 
 an invention which must always rank among the 
 greatest of our acquisitions in the fine arts, completely 
 altered the direction of the labours of Joseph Niepce. 
 
 The invention of lithography by Senefeldei- had 
 then been lately adopted in France, and the thoughts 
 of the artistic world were greatly occupied with that 
 curious method. Quarries fitted to yield lithographic 
 stones were eagerly sought for in all parts. The busy 
 mind of Joseph Niepce was attracted by the subject. 
 He made a number of attempts at reproduction on some 
 stones of a delicate grain which he found collected to 
 be broken up upon the high road to Lyons. These 
 attempts having failed, the idea struck him to substitute 
 plates of polished metal for stone. Accordingly he tried 
 to reproduce some sketches executed upon a metallic plate 
 with lithographic chalk. One day, when wearied with 
 these labours in his little workshop, a broad bar of sun- 
 light streaming through the open doorway fell upon his 
 face, and produced a reflection of his own image on the 
 polished plate which he was poring over. It was thus 
 that the idea entered his mind that if he could imprint 
 such images by the mere action of the rays of sunlight, 
 he would have secured an invention of far greater im- 
 portance than even the ingenious art of the Munich actor. 
 
 By what scries of m^'sterious transitions Niepce, 
 
298 INVENTION AND DISCOVERT. 
 
 from simple attempts in typography, was led to approach 
 what was, perhaps, the most difficult problem in physi- 
 cal science of his time, is not known. He had no know- 
 ledge of the laborious attempts of Watt, Wedgwood, or 
 Davy, or of the despair with which others scarcely less 
 illustrious had abandoned this object after a fruitless 
 pursuit ; but his uninformed state of mind was probably 
 an advantage, in emboldening him to undertake the 
 task which cost him so many years of persevering re- 
 search, that death surprised him before he had the satis- 
 faction of gaining the legitimate recompence of his 
 labours. 
 
 From that hour Niepce was wholly absorbed in the 
 idea of imprinting images by sunlight. Amid the great 
 wars which devastated his country, he took no heed of 
 anything but his solitary workshop. An eloquent French 
 writer tells us that at the time when his countrymen 
 were solely occupied with the question, " Will to-mor- 
 row's sun shine upon the triumph or the enslavement 
 of our country ?" Niepce's only question was, " Will 
 to-morrow's sun produce any efiect upon the new com- 
 bination which I discovered yesterday?" It was in ihe 
 early part of the year 1814 that success first began to 
 dawn upon his unwearied efforts. Niepce knew that a 
 certain black resinous substance, known in the arts as 
 bitumen of Judea, on being exposed to the sun rapidly 
 became white. He knew, also, a fact which all chemists 
 are aware of, namely, that the greater part of prepara- 
 tions of silver, naturally colourless, blacken by the action 
 of the sun's rays. Acting upon these facts, he attempted 
 in a singular way to reproduce engravings. Having 
 varnished the reverse side of a print in order to render 
 
INVENTION AND DISCOVERT. 299 
 
 it transparent, he placed it immediately upon a leaf of 
 metal coated with the bitumen. The dai-ker portions or 
 the picture obstructed the rays of light, while those 
 which were transparent, or which had not been touched 
 by the graver of the artist, allowed them to pass freely. 
 Thus, the luminous rays, penetrating the transparent 
 portions, turned the bitumen spread upon the metal 
 plate a white colour ; and thus he succeeded in produc- 
 ing a faithful reproduction of the design, in which the 
 lights and shadows preserved their natural position. 
 Then, plunging the leaf of metal into a preparation of 
 essence of lavender, he found, to his delight, the portions 
 of the bitumen which had not been affected by the light 
 were dissolved, and the image was thus disclosed, pro- 
 tected from the ulterior action of the rays. 
 
 This kind of copying of engraving, however, was 
 only an object of secondary interest. The grand pro- 
 blem was, how to fix the beautiful images of the camera 
 obscura ; and in this Niepce finally succeeded in the year 
 1824. His chief agent was still the bitumen spread 
 upon a copper plate silvered over, a troublesome and 
 tedious process, the bitumen requiring a very long time 
 to receive impressions. Not less than ten hours, indeed, 
 were required to produce a picture in this way ; and 
 during this time the sun frequently displaced the lights 
 and shadows before the image was completely taken. 
 Pictur-es so produced by Niepceat this eai-ly period still 
 exist, and are said to be far from imperfect. In fact, 
 though photography had still great steps to take, the art 
 which its inventor called at this time Heliography was 
 in its pr-inciple at least discovered, and its future pro- 
 gress fullv assured. 
 
300 INTENTION AND DISCOVEET. 
 
 It was at this period, when Niepce had just obtained 
 a successful result from his long and solitary labours, 
 that there resided in Paris a man whose peculiar know- 
 ledge and whose ordinary occupations had led him to 
 engage in similar researches. This was Daguerre. As a 
 clever painter he had long been known among artists ; 
 but the public knew him chiefly as the inventor of the 
 diorama, that kind of scenic exhibition which has since 
 become so popular. Several of these dioramas of 
 Dasruerre had been exhibited in Paris with sT-eat suc- 
 cess ; and the special researches which he had thus been 
 compelled to make into the effect of light and shade had 
 naturally suggested to him the idea of endeavouring to 
 fix the beautiful images of the camera obscura. Not- 
 withstanding his persevering experiments, however, it is 
 not proved that Daguerre had hitherto made any dis- 
 covery of importance ; when he suddenly learnt that in 
 an obscure country village, a man scarcely known to 
 science had resolved this difficult problem. Daguerre 
 instantly sought an interview with Niepce, and after 
 some distrust on the part of the country gentleman had 
 been dispelled, a sort of inventing pai'tnership was estab- 
 lished between them. The association proved a fortu- 
 nate one, at least for the interests of science. As soon 
 as he was initiated into the secret of Niepce's discovery, 
 the ingenious Daguerre set himself diligently to improve 
 it. He quickly substituted for the bituminous coating of 
 the original inventor a resin obtained by distilling 
 essence of lavender. Instead of washing the plate in 
 the essence he exposed it to the action of a vapour 
 derived from it, from which he obtained results which 
 showed progress. 
 
INVEJJTION AND DISCOVERT. 301 
 
 The turning point in the history of the discovery of 
 photography was now at hand. All the improvements 
 on Niepce's original idea, which had hitherto been ob- 
 tained, only diminished very slightly the tedious cha- 
 racter of the process. Seven or eight hours were still 
 necessary to obtain an impression. A still more serious 
 inconvenience was the fact, that at the end of a certain 
 time the image became partially efiaced. A fortunate 
 accident at length turned the inquiries in the right 
 du-ection. Before his association with Daguerre, Kiepce 
 had endeavoured to give strength to his impressions by 
 deepening the shades with sulphureous fumes and 
 vapours of iodine. It happened one day that a spoon, 
 left by accident on an iodized silver plate, had left a 
 mark under the influence of light. The indication was 
 not lost. For the resinous substances the inventors 
 quickly substituted iodine, which gives to the silvered 
 plates an exquisite sensibility to the light. Thus were 
 gained the first great steps toAvards the solution of the 
 problem which had cost twenty years of research. But 
 the first inventor was not destined to sec the triumphant 
 accomplishment of those hopes which so long sustained 
 him in his solitary labours, and which since his singular 
 scientific partnership had seemed so near. Niepce died 
 at Chalons on the 5th of July, 18;33, at the age of sixty- 
 three. Poor and unknown, " the author of the most 
 remarkable discovery of our age (says his French bio- 
 grapher) passed away Avithout glory, forgotten by his 
 fellow citizens, Avith the bitter thought present in his 
 dying hours of having consumed twenty years of his 
 laborious career, dissipated his patrimony, and compro- 
 mised the future of his family in the pursuit of an idea." 
 
502 INVENTION AND DISCOVERY. 
 
 Left alone, Daguerre continued his researches with 
 ardour. It was then that he made his great discovery 
 of the influence of the vapour of mercuiy in bringing 
 out the photographic image. The discoveries of Niepce 
 and Daguerre were for the first time made known by the 
 public announcement of Arago at the Academy of 
 Sciences, on the 7th of January, 1839. The news 
 created an extraordinary impression in the scientific 
 world not only of France, but of all Europe. The 
 name of Daguerre immediately acquired an immense 
 celebrity ; that of poor Joseph Niepce was for a time 
 almost forgotten ; but later writers have done justice to 
 his merits, while some of the fruits of his success were 
 fortunately secured to his family. On the 15th of June, 
 1839, only six months after the new inventor had been 
 made known, the French Government presented to the 
 •Chamber of Deputies a law for according a national 
 recompense to the inventor of photography. A pension 
 of 6000 francs per annum was granted to Daguerre, 
 while the son of Niepce received a pension of 4000 
 francs. About a month later M. Arago made a public 
 communication of the secret of the process before the 
 Academy. The occasion is a memorable one in the his- 
 tory of that body. On the seats reserved for the public 
 all the eminent men and women in science, letters, and 
 art were assembled. The enthusiasm of the meeting 
 reached its highest point, when Daguerre hurriedly ap- 
 peared standing beside the great savant, to whom he had 
 relinquished the task of telling the story of the labours 
 of himself and his fellow-inventor. " The next day," 
 says a French writer, " the shops of the opticians in 
 Paris were besieged. It was impossible to procure a 
 
rXVEXTION AXD DISCOVERT. 303 
 
 sufficient number of cameras to satisfy the demands of 
 enthusiastic amateurs. People watched with regret the 
 sun going down in the horizon, and the failure of that 
 light which was the first necessity in their experiments. 
 At early dawn they were seen at their windows, and 
 with the first efiective rays a crowd of eager experimenters 
 were seen endeavouring with every kind of careful pre- 
 caution to obtain upon a prepared plate the image of an 
 opposite window and the perspective of a population 
 of chimneys — often with no other result than the pro- 
 duction of a confused, and bluiTed picture with a sky of 
 the colour of ink, and with walls of a dismal shade ;" 
 but at the end of a few days successful pictures of nearly 
 all the monuments in Paris hanging in the shop windows, 
 testified at once to the success of the new discovery. 
 
 IXGEXriTY IX A NEW CHANNEL. 
 
 The engineer of the Thames Tunnel was remarkable 
 for possessing very flexible joints and muscles, which 
 were the cause of some ingenious but harmless practical 
 jokes, in which he occasionally indulged. His daughter, 
 Lady Hawes, among some interesting anecdotes com- 
 municated concerning her late father, and related by 
 her to Mr. Beamish, gives one or two instances of this. 
 On his first visit to Falmouth he sent for a tailor to take 
 nis measure for a coat. It was to be made in great haste, 
 and ihe man promised to have it ready to be tried on the 
 
304 INVENTION AND DISCOVERT. 
 
 following day. The promise was punctually fulfilled ; 
 but the coat did not fit. The right shoulder was dis- 
 covered to be so much higher than the left, that to adapt 
 it by any trifling alteration was impossible. With many 
 apologies for not having observed the peculiarity, the 
 man promised to correct his mistake Avithout furthei 
 loss of time. The same night the tailor returned, wherv. 
 to his astonishment he found that the peculiarity oi' 
 formation instead of being in the right shoulder was in 
 the left. He was utterly at a loss to account for his 
 blunder ; but it was impossible to doubt, that in his 
 original perplexity he had altogether mistaken the side 
 on which the supposed malformation existed. When 
 in the climax of his bewilderment, Brunei with a laugh 
 undeceived him, by explaining the hoax he had prac- 
 tised, and the practical joker having promised to pay 
 for the extra trouble, the tailor joined heartily in 
 applauding the joke. 
 
 On another occasion this peculiarity was exercised to 
 better account. Brunei's known kindness to real dis- 
 tress brought upon him numerous attempts at imposture. 
 It happened one day that he heard a woman asking for 
 charity at his door, and almost forcing her way into the 
 house, while piteously bemoaning an accident which had 
 entirely deprived her of the use of her thumb, and con- 
 sequently of her needle. It was apparently a case of 
 severe dislocation, which had taken from her altogether 
 the means of earning her livelihood. The manner of 
 the woman, however, aroused Brunei's suspicion, and 
 he asked to be allowed to examine the thumb atten- 
 tively. Confident in a successful result, she unwound 
 the bandages, and presented it. "Ah!" said tbe engi- 
 
INVENTION AND DISCOVERT. 305 
 
 neer. after a slight scrutiny. " Very curious : almost 
 as curious as my thumbs;" and to the astonishment of 
 tne ^voman he exhibited both his OTvn thumbs, exactly in 
 the condition in which she pretended her own to be. The 
 cheat was discovered, and the impostor quitted the house 
 without saying a word. 
 
 DISCOVERr OF PETKOLEUM. 
 
 The existence of petroleum— that mineral oil which has 
 now become of such vast importance as an article of im- 
 port in England— was well known in Europe long before 
 any one in this portion of the world thought of turning 
 it to useful purposes. In the East it had^from an early 
 period been largely consumed as a means of lighting. 
 In Crawfurd's " Embassy to Ava," published nearfy fort°y 
 years since, appeared the following curious account of the 
 complete success which had before that time attended the 
 introduction of petroleum in a barbarous Asiatic coun- 
 try :— "Petroleum wells supply the whole Burman empii-e 
 with oil for lamps, and also for smearing wood, to protect 
 it against insects, and particularly the white ant. Its con- 
 sumption for burning is stated to be universal, until its 
 price reaches that of sesamum oil, the only other kind 
 used for lamps. The wells, which occupy a space of about 
 sixteen square miles, vary in depth from two hundred to 
 two hundred and fifty feet ; the shaft is square, not 
 r^re than four feet each side, and is formed by sinking 
 
306 INVENTION AND DISCOVERY. 
 
 a frame of wood. The oil, on coming up, is about the 
 temperature of 90° Fahr. It is thrown into a large 
 cistern, in the bottom of which are small apertures for 
 the aqueous part to drain oflf, when the oil is left for 
 some time to thicken. It is then put into large earthen 
 jars, placed in rude carts drawn by oxen, and carried to 
 the banks of the river, from whence it is sent by water 
 carriage to every part of the empire. By the number 
 and burden of the boats employed in this trade, and the 
 number of voyages they are supposed to make in the 
 course of a year, the exportation from the wells is esti- 
 mated to amount to 17,568,000 vis, of twenty-six pounds 
 and a halt each. Thirty vis a year is reckoned to be the 
 average consumption of a family of five persons and a 
 half; and about two-thirds of the oil are supposed to 
 be employed for burning." Kotwithstanding this sig- 
 nificant hint to Western enterprise, no one appears to 
 have thought of using petroleum either in Europe or 
 America till many years afterwards, when the discovery 
 of the American oil wells suddenly placed a cheap and 
 brilliant light within the reach of the poorest house- 
 holds in Europe and America. 
 
 The American oil region comprises parts of Lower and 
 Upper Canada, Ohio, Pennsylvania, Kentucky, Virginia, 
 Tennessee, Arkansas, Texas, 'New Mexico, and California, 
 reaching from the 6oth to the 128th degree of longitude 
 west, and there are likewise outlying tracts. The oil is 
 believed to be derived from sllurian, devonian, and car- 
 boniferous rocks, and is conjectured to be a product of 
 the chemical action by which ligneous matter is trans- 
 muted into coal. Dr. Gesner also suggests that in 
 some cases animal matter may have been the source of 
 
INVENTION AND DISCOVERY. 307 
 
 the hydro-carbon. To obtain the petroleum, borings are 
 made through various strata to the depth of 150 to 500 
 feet. As a general rule, these borings pass through 
 clay, with boulders, sandstones, and conglomerates, shale, 
 bituminous shale, and then the oil, underlaid by the oil- 
 beai'ing stratum of fire-clay, containing fragments of 
 stigmaria and other coal-plants. As soon as the oil 
 stratum is reached, there is an escape of carburetted 
 hydrogen gas, often violent enough to blow the boring- 
 rods into the air. When the oil comes it is ejected with 
 much force, sometimes rising to the height of 100 feet. 
 Some wells have at first given 4000 gallons in six hours. 
 The average daily peld of mineral oils in the United 
 States was estimated, two years since, at about 50,000 
 gallons. It is now probably half as much more. In 
 Canada the petroleum is now lai'gely used in making 
 oil-gas. 
 
 Toronto, Niagara, Kingston, and other towns, are 
 now lighted by gas derived from this od, as are also 
 railway carriages, and a great number of private houses. 
 The gas is stated to be of great brilliancy. Six thou- 
 sand cubic feet are obtained from a barrel of oil, and the 
 apparatus for generating it is so simple that it can be 
 managed by a servant with perfect facility. The fact 
 that this abundant natural product has remained, until 
 recently, practically unknown to mankind, is scarcely 
 le.ss remarkable than the rapidity with which its use has 
 spread throughout the world. 
 
308 INVENTION AND DISCOVERT. 
 
 THE LEGEND OF THE TELESCOPE. 
 
 Among the romaiitic episodes of the history of inventions 
 there appears to be none better authenticated than that 
 which ascribed the parentage of those magnificent instru- 
 ments, by which Sir WiUiam Herschel, Lord Rosse, 
 and other astronomers have explored the heavens, 
 to the lucky idea of an uneducated man. The philoso- 
 pher Descartes, in his " Treatise on Dioptrics," says, 
 " To the disgrace of our men of science this invention, 
 so admirable, is due entirely to a fortunate accident. 
 It is now about thirty years since a man named 
 James Metius, a man of no education, although he 
 had a brother a professor of mathematics, took a 
 pleasure in making small mirrors and burning glasses ; 
 and having, therefore, in his possession a number of 
 glasses of different forms, the notion struck him of look- 
 ino- through two of them at the same time, the one 
 being convex, the other concave ; and he applied them 
 so fortunately at the end of a wooden tube that the 
 first telescope ever used in the world was at once dis- 
 covered." 
 
 In addition to this curious account, an old chronicle 
 published in Holland tells us that there were three bro- 
 tlicrs of the Metius family — Adrien, who was a profes- 
 sor at the Univerrity of Ley den ; Anthony, a sailor ; 
 and Jacob, or James, who was a glass-cutter. This 
 latter, says the chronicle, appeared to be of a somewhat 
 dull and heavy intellect. He was so illiterate that he had 
 
INVENTION AND DISCOVERT. 309 
 
 scarcely learned to read. He passed a life extremely 
 retired, engrossed in his own peculiar amusements, and 
 constantly preoccupied with some trifling invention, 
 ■which he perseveringly pursued; or with some attempt 
 at improving an old invention, chiefly in such mathema- 
 tical instruments as his brother, the professor, had need 
 of. Of his successes the most remarkable is his iuhus 
 opticus, that instrument which has enabled Galileo and 
 Kepler to observe so many phcnonema in the heavens. 
 If it had been the fate of Metius to perfect it, or having 
 perfected it, if he had deigned to show it to others, of 
 what transcendent results he might have been the author 
 it is easy to imagine. But this man, filled with a sin- 
 gular sort of pride, determined to bo alone in his know- 
 ledge. He was so jealous of his discoveries that he 
 would scarcely consent to exhibit his optical tube to 
 Prince Maurice himself when the latter came to visit him 
 in person. It was only after much persuasion that he 
 consented at length to show it once only. His brother 
 Anthony, the sailor, obtained this favour more often ; but 
 he refused it altogether to his brother Adrien, whose 
 eye he dreaded as being able at once to detect the secret 
 of the instrument. "When he was dying, a priest named 
 d'Alckmar, who attended him, endeavoured in vain to 
 induce him to bequeath to the world an account of his 
 mode of fabrication, or a sketch which could indicate 
 the secret. But, happily, the secret was not lost. News 
 of the discovery quickly spread through the learned 
 world. Galileo, who was then at Venice, welcomed the 
 intelligence with an ardent interest. He set himself to 
 examine, by the aid of the theory of refractions, what 
 could have been the combination of glasses which prO' 
 
310 INVENTION AND DISCOVERY. 
 
 duced such marvellous results, and, aided by the hints he 
 had obtained, he quickly succeeded. Having furnished 
 the extremities of a tube with two glasses, one convex, 
 the other concave, he turned it towards distant objects, 
 and beheld them at once increased threefold in diameter. 
 This first success encouraged him. He constructed an 
 instrument which multiplied objects eight times, then 
 a third which multiplied thirty times. It was with 
 this instrument that Galileo commenced those series 
 of astronomical discoveries which immortalized his 
 name. 
 
 The legend of the discovery of the telescope has 
 been differently told ; some accounts giving the name 
 of the Dutch inventor as Hans or John Lippershey, 
 and describing him as a spectacle maker ; but on 
 the whole, the story as related by the great Descartes, 
 and the anonymous chronicler, appears to be as well 
 worthy of credit as any other version of this curious 
 anecdote. 
 
 THE LABOTJES OF SIR SAMUEL BENTHAM. 
 
 The curiously-constructed steam-ship, called the " Con- 
 nector," which has recently been exhibited upon the 
 river Thames, appears to be merely a revival of an idea of 
 the late Sir Samuel Bentham, one of the most ingenious 
 men of his time. Bentham travelled in Russia in 1781, 
 on a tour of inspection into the manufactories and public 
 works of that couniry, and, in April of that year, arrived 
 
INVENTION AND DISCOVERY. 311 
 
 at Nijni Tagliil, an iron-factory, the property of Count 
 Demi doff, one hundred and forty versts north of Cathe- 
 rinaburg. To the intendant of those works he had 
 brought a letter of introduction from the count, re- 
 questing that the traveller should be assisted in anything 
 he might require ; and Benthara took advantage of this 
 to order the construction of a new kind of vehicle. He 
 had travelled to this spot on sledges for the winter roads, 
 and he now required a carriage on wheels for travelling 
 in finer weather. At first it was proposed to make him 
 one of the usual construction ; but Bentham saw that 
 sucli a vehicle would be of little utility in the wild region 
 through which he proposed to pass ; and he at once 
 sketched out a novel kind of conveyance, which he con- 
 sidered Avould answer his purpose as a cari"iage on land, 
 a boat on water, and a sledge on ice. This " amphibious 
 carriage," as he called it, he not only planned, but worked 
 on himself, the indolence and apathy of the Russian 
 artificers rendering this necessary. He chalked on the 
 floor the form and dimensions of the boat and the 
 an-angement of its parts. When completed, he described 
 the carriage in a letter as a vehicle hung as usual on 
 springs, and, when intended for land service, suspended 
 on wheels, but with a body of the novel shape of a boat. 
 For service in the latter capacity, easy means were pro- 
 vided for detaching the carriage from the wheels if 
 necessary ; the latter being made so as to be capable of 
 being taken to pieces and stowed away in the body, 
 serving as ballast to what then became a boat. When 
 it was completed, he set out in it for Perme, where it 
 caused much amazement among the people. Being 
 engaged to dine with the governor of the town. 
 
312 INVENTION AND DISCOVERY. 
 
 Bentham, before the appointed hour, sailed up the river 
 in his amphibious vehicle, in sight of the crowded win- 
 dows of the Government House ; and, shortly after- 
 wards, it presented itself at the door in the shape of a 
 carriage upon wheels, drawn by three horses. It is said 
 that the amphibious carriage fully answered the pur- 
 poses for which it was contrived — namely, rapid and 
 certain means of conveyance in a country intersected 
 with rivers, and ill provided with bridges. This inven- 
 tion he subsequently patented, and he afterwards extended 
 the idea to army baggage- waggons, of which Prince 
 Potemkin ordered a large number to be furnished to a 
 regiment at Jassy. In gratitude to Count Demidoff, 
 for the facilities which he had accorded him in con- 
 structing this carriage, the indefatigable Bentham in- 
 vented for the use of the count's factory a wood- planing 
 machine, which was also capable of being used for 
 making mouldings by merely changing the cutting tool. 
 The idea of the latter machine was suggested to his busy 
 mind while his carriage was building, by the slowness 
 and inaccuracy which he observed in the Russian car- 
 penters. 
 
 It was his next invention — a sort of jointed vessel — 
 which appears to have been almost identical with the 
 more modern " Connector." This vessel was specially 
 designed for the conveyance of the Empress Catherine 
 down the Dnieper and its affluents, which were shallow 
 and tortuous, and rendered unsafe by numerous sand- 
 banks and sunken trees. It is described as having been 
 in six links, drawing only six inches of water when 
 laden, and with one hundred and twenty-four men at 
 the oars on board ; for, unfortunately, steam power, as 
 
INVENTION AND DISCOVERT. 313 
 
 applied to the propelling of ships, was as yet unknown. 
 The six links of this curious vessel were so connected 
 together by a peculiar mechanism, that no interval was 
 left between boat and boat greater than the diameter of 
 a small iron pin ; and by this contrivance the vessel 
 could twist itself about as could a worm, for which reason 
 Bentham gave it the name of the " Vermicular." The 
 rowers were placed in the first two and part of the third 
 of the foremost links, seated in such a manner that the 
 stroke of no man could interfere with that of another. 
 The other links Avere devoted to dining-room, drawing- 
 room, and sleeping chambers for the Empress and her 
 attendants. "When the third, fourth, and fifth links were 
 taken out, the remaining three formed a princely rowing- 
 boat. Unfortunately, after completing this vessel for 
 the special service of the Empress on a journey, Bentham 
 arrived two hours too late with it at Kremenchuk, where 
 he found that the Empress, tired of water travelling, had 
 quitted her boats for a land journey. But the inventor 
 navigated the river with the vessel for many days, having 
 aboard the English and French ambassadors, the Count 
 de Segur, and the Emperor Joseph. II. 
 
 The news of these strange contrivances of the 
 young Englishman spread rapidly among the ignorant 
 peasants, who regarded him with a sort of supersti- 
 tious awe ; but perhaps the amphibious carriage was 
 the most successful in exciting their astonishment. 
 While travelling in this strange vehicle, drawn by 
 horses, Bentham rarely stopped on coming to broad or 
 even rapid rivers ; but ordered the peasant driver, who 
 soon obtained confidence in his master's devices, to con- 
 tinue his course. On such occasions, the peasants of 
 
314 INVENTION AND DISCOVERT. 
 
 his train gave a wondering glance at the party, then one 
 of confidence in the superior knowledge of their tem- 
 pornry master, crossed themselves devoutly, drove down 
 the bank, and onwards across the stream. The horses 
 swam, the boat-built carriage floated, its inmates guided 
 it, and on the opposite bank the land journey was re- 
 sumed, all being safe and dry, while the peasant again 
 crossed himself, with a slava JBor/hi ! or "Thank God !" 
 
 Probably few heroes of romance have been represented 
 as taking part in more singular scenes than might 
 be gathered from the life of this eccentric man of 
 genius. He may be said to have been an inventor and 
 discoverer from his cradle. The youngest son of Jeremiah 
 Bentham, and brother of Jeremy, the great moral writer, 
 he was placed, when very young, at a private academy, 
 from whence, at the age of six, he was sent to West- 
 minster school. His father occupied a house in Queen's 
 Square Place, in the stable-yard of which were spacious 
 workshops, let to a carpenter. Here Samuel used to 
 spend all his leisure time, and soon acquired considerable 
 skill in handling tools ; for, when only thirteen years 
 old, he had managed to construct, with his own hands, a 
 carriage for his young friend and playmate. Miss Cordelia 
 Knight, whose autobiography has lately been published. 
 At the age of fourteen he exhibited so strong a taste for 
 naval matters that his father yielded to his wishes, and 
 bound him apprentice to the master shipwright of Wool- 
 wich Dockyard. At that period, the superior officers o* 
 a royal dockyard were exempted from keeping their 
 apprentices at hard labour, so that time might be allowed 
 for general instruction. Samuel, however, soon per- 
 ceived that practical manipulation was no less essential 
 
INVENTION AND DISCOVERT. 315 
 
 than theoretical knowledge ; and used, therefore, to work 
 at the dock side till breakfast time, and devote the rest 
 of the day to scientific acquirements. In time, Samuel and 
 his master were removed from Woolwich to Chatham 
 Dockyard, by which the former was enabled to obtain 
 a practical knowledge of the beha\'iour of vessels at sea ; 
 for he was often permitted to sail in the British Channel, 
 and sometimes extended his voyage further. About this 
 period his brother, Jeremy Bentham, had returned from 
 college, and used to instil into him many of the first ideas 
 of political economy. On these occasions Samuel would 
 take advantage of the Saturday afternoons to walk from 
 Chatham to his brother's chambers in Lincoln's Inn. At 
 the end of his seven years' apprenticeship, Samuel spent 
 another year in the other royal dockyards, and at the 
 Naval College at Portsmouth. He then went to sea as 
 Captain Macbridge's guest, whose ship was one of Lord 
 Keppel's fleet ; and, on this occasion, he suggested 
 sundry improvements in the apparatus of a ship, which 
 were executed in Portsmouth Dockyard. In consequence 
 of the abilities manifested by Bentham, many advan- 
 tageous appointments were offered to him. These were, 
 however, refused ; and, in 1780, he embarked for the 
 Continent, in order to obtain greater experience in the 
 different practices in the art of naval construction.* 
 
 On his arrival in Russia, the Government of that 
 country were not long in discovering the remarkable 
 talents of their visitor, and young Bentham soon ob- 
 tained from the Empress various employments. She 
 determined to fix him for a time at St. Petersburgh, 
 
 * Papers and Practical Illustrations of Public Works. 
 
316 INVENTION AND DISCOVERT. 
 
 and for that purpose appointed him a Conseiller de la 
 Cour, with the rank of Lieutenant-Colonel. She also 
 gave him in charge the works of the great Fontanha 
 Canal, in the course of executing which the young 
 Englishman invented a new pile-driving machine, such 
 as he said, would put an end to the " habitual skulking" 
 of the labourers, and by which, at the same time, the 
 whole weight of the men would act beneficially instead 
 of only employing their muscular force. The machine 
 was a kind of ladder which yielded on every step that the 
 men took on the same principle as the walking wheel ; 
 but his contrivance was much less cumbersome than 
 the wheel, and therefore more easily moved from place 
 to place as the w^ork advanced. 
 
 Bentham was next sent to the Crimea on matters of 
 far greater importance ; but his observant mind was still 
 busy on an infinite variety of things. He found time 
 to make a collection of minerals from parts of Russia 
 then altogether unknown to England, and forwarded 
 to St. Petersburgh, for transmission to this country; 
 three or four thousand pounds' weight of chosen speci- 
 mens collected in the course of excursions of fourteen or 
 fifteen hundred miles on horseback. Stopping one day at 
 great salt mines, from which the Russian Government de- 
 rived a large revenue, he examined the operations carried 
 on in raising the salt water, and for crystallizing the salt 
 from it, and did not leave until he had invented a num- 
 ber of important improvements. He showed the Rus- 
 sian workmen how to confine the fire heat to the boilers 
 instead of losing much of it as they had been doing, 
 and how to employ the heat of the steam for warming 
 a supply of the solution. An entirely novel double 
 
INVENTION AND DISCOVERY. 31? 
 
 sucking-pump for raising the brine, which, he also de- 
 vised, was at once adopted and found to efiect an enor- 
 mous saving. He also suggested to the country people 
 the introduction of potatoes, the making of hemp and 
 linseed oils, so that, besides the profit these articles 
 would afford to them, a still more considerable one 
 would be obtained by fattening cattle with the oil cakes. 
 The great disorder which he observed on visiting 
 the Prince Potemkin's factories at Cricheff induced him 
 to offer his services, in a letter, to the Prince, in which 
 he confidently declared his ability to raise the factories 
 to a high degree of perfection. The offer was accepted, 
 and the Prince's confidence was so great that he declared 
 him at liberty to build any kind of ships, vessels, or 
 boats, whether for war, trade, or pleasure. So little 
 was Bentham restricted in carrying out his favourite 
 schemes, that having one day troubled the Prince about 
 some alterations in a frigate he proposed building, to 
 make a present of it to the Empress, the Prince ended 
 the discussion by telling Bentham that as to the new 
 ship, and the number of its masts and guns, he " might 
 put in it twenty masts and one gun if he thought fit." 
 Bentham now assumed the chief control of a rope- walk 
 where all the cordage was made for Cherson ; a sail- 
 clotli manufactory ; a distillery of spirit from corn, to 
 which was annexed a malt-house and a brewery ; a tan- 
 nery and leather manufactory ; two glass houses, a 
 pottery for making crucibles ; and an establishment of 
 blacksmiths and coppersmiths for making and repairing 
 thetools and utensils required intheseveral fabrics. Mean- 
 while, like his illustrious brother, he never lost sight of the 
 object of promoting, as far as possible, the welfare of the 
 
318 INVENTION AND DISCOVERY. 
 
 many. In one of his letters, written home at this period, 
 he says : " besides directing these establishments with a 
 view to increasing as much as possible the profits of the 
 Prince, I must contrive, as much as may be, to ease the 
 workmen of the oppression they have of late been sub- 
 ject to." Besides these duties he had assumed the com- 
 mand of a battalion ; where his personal attention to the 
 health and comfort of his men was constant, and his 
 inventive ingenuity ever directed towards these objects. 
 It is related that one of the sanitary precautions which 
 he introduced at this time as a part of military disci- 
 pline, was, that at the daily parade the surgeon should 
 pass from man to man examining individually their 
 tongues. '■ Out tongue I" observes Lady Bentham, 
 " may seem an out-of-the-way word of command, but 
 the first symptom of the prevailing disorder was dis- 
 coverable by the appearance of that member ; and when 
 thus detected by the surgeon, the afflicted man was 
 ordered instantly to the hospital, where, in this early 
 stage of the disease, rapid recovery of the patient was 
 almost general." 
 
 One of the greatest difficulties which Bentham en- 
 countered in superintending these numerous factories 
 was that of personal inspection, it being found impos- 
 sible to keep the sluggish Russian workmen attentive 
 to their employment, unless they were convinced that 
 they might be observed by their chief at any moment. 
 To meet this difficulty, he determined to carry on the 
 whole of the works in one vast panopticon building, or 
 inspection house, of his own design, from the centre of 
 which he could command a view of all its parts. This 
 ingenious building was visited by the celebrated Jereiay 
 
INVENTION AND DISCOVERY. 319 
 
 Bentham — Sir Samuel's brother — who induced the Ensr- 
 lish Governnieut to adopt the idea for the coustruction 
 of jails. On the breaking out of a war between Russia 
 and Turkey, Bentham was sent to the South with his 
 battalion, all the soldiers of which had been instructed 
 by him both as sailors and shipwrights. On taking the 
 sole command of the arsenal at Chei'son, he found an 
 immense stock of ordnance ; but so ill had affairs been 
 managed, that the Russians possessed there no navi- 
 gable vessels, except pleasure galleys, Avhich had been 
 used in conveying the Empress on the rivers. There 
 was no time to construct others ; and Bentham deter- 
 mined to make the best of his materials. He reflected 
 that it is not the size of the vessel, but its power of 
 throwing the heaviest weight of metal in a given time, 
 combined with facility in manoeuvring, which secures 
 victory ; and having strengthened his galleys as well as 
 he could, and fitted them with artillery, he determined 
 to take the command of the flotilla himself against an 
 enemy at least twice as numerous and powerful. Under 
 these disadvantages he engaged the Turks on three 
 separate days, returning victorious on all occasions. 
 For these services Bentham received from the Empress 
 the rank of Brigadier-General, a gold-hilted sword, and 
 the Cross of the Order of St. George. Bentham next 
 commanded the Russian army, guarding the eastern 
 frontier of Siberia, bordering on China ; and here he 
 established schools for the soldiers. 
 
 After two years in this employment, Bentham re- 
 turned to England, where his inventive genius and 
 bo'ievolent mind found new employment in C'^njunction 
 with his brother Jeremy. The house of the Benthams^ 
 
320 INVENTION AND DISCOVERY. 
 
 in Queen's Square Place, made famous by Hazlitt's 
 writings, speedily became almost a museum, of contriv- 
 ances for shortening human labour. There might be 
 seen machines for planing and making mouldings ; ap- 
 paratuses for making wheels and window-sash frames ; 
 saws for cutting veneers of extraordinary thinness ; ma- 
 chines for boring, dovetailing, cutting stone, and other 
 things. The fame of this machinery naturally attracted 
 numerous visitors, amongst others Mr. Dundas, a Cabi- 
 net Minister, afterwards Lord Melville, who in his seat 
 in the House of Commons announced that an ingenious 
 young Englishman, who had long been in Russia, had 
 returned with ideas and inventions which were destined 
 to open a new era in the manufacturing prosperity of 
 this country. It was this allusion which led to Ben- 
 tham's being employed permanently by the Admiralty, 
 and the effect was immediately seen in the dockyards 
 and arsenals throughout the kingdom. It was by his 
 direction that the wood mills, metal mills, and mill- 
 wrights' shops were first established at Portsmouth. 
 He also established, in 1800, his steam dredging ma- 
 chine, a powerful apparatus which proved of immense 
 utility. Subsequently he was appointed to the post of 
 Civil Engineer and Architect of the Navy ; but he re- 
 ceived but few substantial benefits for his great services 
 from the British Government. 
 
 After the peace, he retired with his fam.ily to France, 
 for the sake of economy in the expenditure of his smaii 
 income. After thirteen years' absence, during which 
 his name had become almost forgotten, Brigadier- 
 General Bentham returned to England, where he diea m 
 1831, at the age of seventy-four. 
 
INVENTION AXD DISCOVERY. 
 
 ANECDOTES OF THE EDDYSTONE LIGHTHOUSE. 
 
 Sni'ATEU about fourteen miles south-west from the port 
 of Plymouth, and directly in the path of lilnglish vessels 
 returning home heavily-laden from foreign parts, the 
 famous Eddystone rocks were long the scene of many 
 a story of maritime disaster. The great seas brought 
 u}i by the south-westerly winds blowing from the Bay 
 of Biscay and the great Atlantic, broke here with terrific 
 violence, often carrying vessels with irresistible force on 
 to destruction. At other times, during the night or in 
 foggy weathei-, or when the extensive range of these 
 rocks were covered with high water, richl^'-laden vessels, 
 guided even by the most cautious captains, frequently 
 came to sudden shipwreck in these treacherous places. 
 To erect a permanent beacon upon the Eddystone was 
 therefore from the earliest times felt to be highly neces- 
 sary ; but the task which even in these days of scientific 
 engineering would be sufficiently formidable, was two 
 centuries ago considered almost beyond the power of 
 man. It was thought that even upon the highest of the 
 rocks no workmen could long stand to their labour, for 
 so steep was the rise of the surface exposed to the 
 heaviest seas that the waters, meeting a sudden check 
 frequently flew upwards to a height of two hundred feet, 
 and with a violence which it seemed could scarcely fail 
 to sweep away any scaffolding or incomplete structure, 
 with all living creatures engaged upon it. 
 
 At length an ingenious man, but one Avhosc caily 
 
 V 
 
322 INVENTION AND DISCOVERY. 
 
 training could liardly have Ibeen expected to fit him for 
 a great and bold engineering undertaking, was found 
 willing to attempt the task. This was Henry Win- 
 stanley, a retired mercer, and a man of moderate- 
 fortune, who resided at Littlebury, in Essex. Winstanley 
 had long been accustomed to exercise his mechanical 
 ingenuity, but chiefly in the construction of machines 
 for playing practical jokes on the unwary. Smeaton, in 
 his narrative of the construction of Eddystone Light- 
 house, says — " He had distinguished himself in a certain 
 branch of mechanics, the tendency of which is to excite 
 wonder and surprise. He had at his house at Littlebury 
 a set of contrivances such as the following : — Being 
 taken into one particular room of his house, and there 
 observing an old slipper carelessly lying in the middle 
 of the floor, if, as was natural, you gave it a kick with 
 your foot, up started a ghost before you ; if you sat 
 down in a certain chair, a couple of arms avouIcI imme- 
 diately clasp you in, so as to render it impossible for you 
 to disengage yourself till your attendant set you at 
 liberty ; and if you sat down in a certain arbour by the 
 side of a canal, you were forthwith sent out afloat into 
 the middle, from whence it was impossible for you to 
 escape till the manager returned you to your former 
 place." Some of his curious tricks were afterwards ex- 
 hibited by Winstanley in May Eair, where they were 
 known as ' Winstanley 's waier works,' the public of 
 Queen Anne's days eagerly paying one shilling each for 
 admission. 
 
 Winstanley's design was not calculated to give con- 
 fidence in the result of his undertaking. It was a 
 picturesque and fanciful structure of many sides, some- 
 
INVENTION AND DISCOVERY. 323 
 
 what resembliug a Chinese pagoda, with numerous 
 galleries, quaint projections, and fantastic ornaments. 
 Its sides were decorated with numerous pious inscrip- 
 tions in Latin and English ; and in the view of it wliich 
 Winstanley published, he represented himself, with 
 characteristic eccentricity, quietly angling from one of 
 the windows, while the crew of a boat below, moored 
 upon the tranquil sea, were handing provisions to a 
 man upon the rock. But the most ominous part of the 
 design was the announcement thot the whole structure 
 was to be composed of no stronger material than wood. 
 Yet. the result showed that Winstanley's ideas were far 
 hum being so visiouai-y as was supposed. The light- 
 house occupied more than four years in building. Xo 
 woi-ks were attempted except in the summer weather, 
 and even then the sea, though calm elsewhere, would 
 sometimes rage with such \iolence around the rocks 
 that for a whole fortnight together the works would be 
 covered, and all approach to them rendered impossible. 
 
 The first summer was spent in making twelve 
 holes in the rock, and securing twelve large irons, on 
 which Winstanley relied for holding the work. It was 
 not until the second summer that the indefatigable 
 mercer and his brave companions, after being a hundred 
 times forced to fly from their work, succeeded in making 
 a s.il a round pillar, twelve feet high, which for the first 
 time gave the workmen some sort of support and 
 shelter. In the third summer the edifice was raised to 
 the height of eighty feet ; and Winstanley, to his great 
 joy, found his work stand out bravely against the first 
 sturms. "Being all finished (he says), with the lantern 
 and all the rooms that were in it, we ventured to lodge 
 
o24 INVENTION AND DISCOVEKY. 
 
 there soon after ^lidsummer, for the greater despatcb of 
 the work. But the first night tlie weather came bad, 
 and so continued, that it was elev^en days before any 
 boats could come near us again ; and not being ac- 
 quamted with the height of the sea's rising, we were 
 almost drowned with wet, and our provisions in as bad 
 a condition, though we worked niglit and day as much 
 as possible to make shelter for ourselves. In this storm, 
 we lost some of our materials, although we did what we 
 could to save them ; but the boat then returning, we all 
 left the house to be refreshed on shore ; and as soon as 
 the weather did permit, we returned and finished all, 
 and put up the light on the 14th ISTovember, 1698; 
 which being so late in the year, it was three days before 
 Christmas before we had relief to go on shore again, 
 and were almost at the last extremity for want of pro- 
 visions ; but by good Providence, then tAvo boats came 
 with provisions and the family that was to take care of 
 the light, and so ended this year's work." 
 
 The fourth year was spent in strengthening the sup- 
 ports, and so confident did Winstanley feel of the 
 stability of his edifice, that he declared his wish to be in 
 it during the most tremendous storm that could arise. 
 This wish he unfortunately obtained ; for it was his 
 singular fate to perish in it during the dreadful storm 
 on the 27th of November, 170J — made memorable 
 by the inimitable narrative of Defoe. While Winstanley 
 was there with his workmen and light-keepers, the 
 tempest began. It raged most violently on the night of 
 the 2Gth of the month, and appears to have been one of 
 the most tremendous ever experienced in Great Britain. 
 The next morning, at davbreak, the hurricane increased 
 
I.WKXTIOX AND DISCOVKUV. 
 
 to a degree unparalleled; and the lighthouse, no longer 
 able to sustain its fur}-, was swept into the deep, with 
 all its ill-fated inmates. When the storm abated, about 
 the 2r)th, people went off" to see if anything remained, 
 but nothing was left save a few large irons, whereby the 
 work had been so fastened into a clink that it could never 
 afterwards be disengaged, till it was cut out in the year 
 17-50. The lighthouse had not long been destroyed, 
 before the " Winchelsea," a Virginian ship, laden with 
 tobacco, for Plymouth, was wrecked on the Eddystone 
 rocks in the night, and every soul perished. 
 
 Strangely enough, the next person who, undaunted 
 by the ill fate of his predecessor, undertook to execute 
 the task of erecting a permanent lighthouse on the 
 Eddystone rock, was also a silk mercer. His name was 
 John Rudyerd, and he kept a shop on Ludgate Hill. It is 
 reported that Rudyerd's parents were vagrants, and his 
 family notorious as bad characters; but Rudyerd had 
 raised himself to a position of respectability, and by Iiis 
 ingenious turn for mechanics, had won the confidence of 
 one Capt. Lovet, who had obtained a lease of the Eddy- 
 stone rock from the Trinity House for the purpo.se of 
 erecting the light. Rudyerd worked on an entirely 
 original plan, and successfully completed his Avork in 
 three years. Instead of a polygon, like "Winstanley's 
 erection, he chose a perfectly circular form for his buildin^r, 
 and carried up the elevation in that shape ; and instead 
 of mere wood, it was built of granite and solid oak 
 timber, and was, on the whole, a far more weighty 
 structure than the pagoda of the unfortunate Win- 
 stanley. Rudyerd's lighthouse successfully resisted the 
 storms of forty-six years, and was at length destrovcd, 
 
326 INVENTION AND DISCOVERY. 
 
 not bj water, but by tire. In connection with the men 
 Ciiiployed. in the duty of watching in this lonely dwell- 
 ing in the sea, a singular anecdote is related by Snieaton 
 in his " Narrative :" — For many years it was attend^id 
 by two light-keepers only, whose duty it was to keep the 
 windows nf the lantern cle;in, and to watch four hours 
 alternately for the purpose of snuffing and renewing the 
 candles. It was the task of each at tlie conclusion of 
 his watch to call the other, and see him on duty before 
 he went to rest. For this purpose two men were long 
 considered sufficient ; but a tragic incident which oc- 
 curred at this period led to a change in this respect. It 
 happened that one of the watchers in this lonely build- 
 ing was suddenly taken ill, and soon died. The survivor, 
 who had tended his comrade in his sickness without 
 assistance, had now no means of making any one ac- 
 quainted with his situation. When the light-keepers 
 stood in need of anything, it was their custom to hoist 
 a large flag from a staff in the upper gallery, which 
 could be seen in fine weather from the heights on the 
 mainland. A reward of half a guinea was offered to 
 the person who at any time would bring information of 
 this flag being exhibited to the agent at Plymouth ; and 
 on receiving such information, the agent immediately 
 sent a boat, if tlie weather would permit, to ascertain 
 the meaning of the signal. Accordingly, the surviving 
 light-keeper hoisted his flag, which was speedily ob- 
 served on shore ; but, unfortunately, the weather was 
 for a long time so boisterous that it was impossible for 
 any boat to approach the rocks. During this period, as 
 Smeaton relates, the living man found himself in a most 
 awful and distressing situation ; he knew not how to 
 
INVENTION AND DISCOVERT. 327 
 
 dispose of the corpse; for if he threw it into the waves, 
 which was his only means of getting rid of it, he feared 
 that he might be charged with the murder of his com- 
 panion, for stories had frequently been told of quarrels 
 between the men when shut up in their singular prison ; 
 and yet each day that the body remained it was en- 
 dangering his own life by the extremely offensive con- 
 dition to which it was reduced. When, at last, the 
 people from the boat effected a landing, they found the 
 whole building filled with the most insufferable odour, 
 and the dead body in such a state that it was impossible 
 to remove it to Plymouth for interment ; they therefore 
 consigned it to the sea, but it was a long time before the 
 rooms could be purified. 
 
 Tliis circumstance induced the proprietors of the 
 lighthouse to employ a third man, so that, in case of a 
 future accident of the same nature, there might be con- 
 stantly one to sup})ly the place. This regulation afforded 
 I'clief to the light-keepers ; for as soon as three were 
 appointed to the service, a rule was made that in 
 summer each man in his turn should be permitted to 
 go on shore, and spend a month with his friends and 
 acquaintances. 
 
 An anecdote is also related in connection with Rud- 
 yerd's lighthouse, which shows the strong feeling which 
 existed of the utility of the work to the world. While 
 the workmen were engaged in constructing it, a French 
 privateer suddenly appeared off the rocks, and, seizing 
 the men with their tools and apparatus, carried them to 
 France. While Rudyerd's men lay in prison, the facts 
 reached the ears of the French King, Louis XIV., 
 who not only ordered their release, but restored all their 
 
VjlS INVENTION AND DISCOVERY, 
 
 tools, and sent them back to their work with presents, 
 at the same time declaring that although he was at war 
 witli England, he was not at war with niaiikind. 
 
 Rud^-erd's work probably would have stood for a 
 much longer period than forty-six years if it had not been 
 accidentally destroyed by fire. This unfortunate circum- 
 stance happened on the 2nd of December, 17-35. The 
 Hre broke out an the lantern at the top of the lighthouse, 
 and the three men who now formed the complement of 
 watchers, after persevering attempts to extinguish the 
 flames, were compelled to retire downwards, from 
 chamber to chamber, as the fire crept on its vray. Fortu- 
 nately, early in the morning some fishermen perceived 
 the strange light in the tower, and intelligence was 
 given of the perilous situation of the poor light-keepers, 
 but the fire had been burning no less than eiglit hours 
 before assistance finally reached them. The fre(iuent 
 falling of red-hot iron, molten lead, and burning tim- 
 bers, had not only driven the men from the rooms and 
 staircases, but had compelled them to take refuge in a 
 hole in the rock, where they were found almost stupe- 
 fied ; and whence, the sui^f being very high, they were 
 only got off by throwing to them a coil of rope, which 
 they had fortunately just sufficient energy to tie round 
 Yheir bodies before jumping into the sea. It is a curious 
 ^ircumstance, related by Smeaton, that no sooner were 
 these men put ashore than one of them disappeared, and 
 was never afterwards heard of. But for the improba- 
 bility of any man voluntarily subjecting himself to the 
 dangers which the lighthouse men had incurred, it 
 might have been suspected that this man had himself 
 originated the fire. " But I would rather (says Smea- 
 
INVENTION AND DISCOVERY. ',]-20 
 
 ton) impute liis sudtleu flight to that kind of panic 
 which sometimes on important occasions seizes Avealc 
 minds, making them to act without reason, and in so 
 doing commit actions wliose tendency is the very reverse 
 ol what they desire." Another ot" tlie men e.xperienccd 
 a singuhxr fate. He persisted in saying thrt as he was 
 • in an upper story of the h'ghthouse, throwing buckets of 
 water at the fire, and looking up to see the effect of his 
 efforts, a ((uantity of molten lead had fallen upon his 
 lie.ul, face, and shoulders, and that some portion of this 
 lead Iiad actually gone down his throat, causing him great 
 l)ani. It appeared to the surgeon who attended him 
 that it was impossible that he could have lived through 
 the hardships and fatigues he had endured if he had 
 really received molten lead into the stomach; but sub- 
 sequent investigation proved that the man's story was 
 correct. On the twelfth day after the accident he was 
 seized with cold sweats and spasms, and soon afterwards 
 expired; and on opening his stomach. Dr. Spry, an emi- 
 nent surgeon, and member ot the Royal Society, dis- 
 covered in his stomach a solid piece of lead, of a flat, 
 oval form, which actually weighed upwards of seven 
 ounces, and was found with a part of the coat of the 
 stomach firmly adhering to it. 
 
 An engineer, pre-eminently fitted to undertake the 
 task of rebuilding the Eddystone Lighthouse, Avas soon 
 found. This was John Smeaton, one of the greatest, as 
 well as one of the earliest, of our civil engineers. Like 
 Watt, Smeaton begun life as a mathematical instrument 
 maker ; but his hiahly inventive and original mind led 
 him to undertake works of more importance, and finally 
 rendered him famous as the architect and engineer of 
 
330 INVKNTION AND DISCOVERY. 
 
 some of the most important -undertakings in the king- 
 dom. Smeaton having been selected for the work by 
 the Earl of Macclesfield, President of the Royal Society, 
 soon devoted his whole thoughts to the object of making 
 the new building durable. lie determined that it 
 should be built of stone ; and as the lower blocks were 
 to be ingeniously bonded and dovetailed, on a plan 
 peculiar to himself, he believed that the strength of the 
 building must necessarily be far greater than that of 
 either of the previous erections. After many inspec- 
 tions and laborious preparations, Smeaton himself fixed 
 the centre, and laid down the lines on the 3rd of August, 
 175G, and continued his personal superintendence, in 
 spite of numerous accidents, till it was completed. The 
 light was first exhibited on the l(5th of October, 1759. 
 The lighthouse rose to a height of seventy feet, the last 
 work of the mason being to cut the words " Laus Deo," 
 or "Praise be to God," over the last stone placed over 
 the door of the lantern. Three years after its comple- 
 tion a storm, scarcely less in its fury than that terrible 
 tempest which had swept the unhappy Winstanley and 
 his companions, with all their work, into the sea, raged 
 throughout our. coasts; but when the storm had sub- 
 sided, the stone lighthouse of Smeaton still stood, as it 
 stands to this day, an enduring monument of its de- 
 signer's energy and genius. 
 
INVENTION AND DISCOVERY, 331 
 
 TWO INVENTORS OF EXPLOSIVE COMPOUNDS. 
 
 About the end of the last century two inventors in Paris 
 spent their time in the pursuit of certain new explosive 
 compounds, which each believed destined to effect a 
 revolution in the art of war. The first of these was 
 ChevuUier, an ingenious machinist and engineer; tlie 
 second the celebrated chemist Berthollet. Chevallier 
 sought with all the ardour of an alchymist in search 
 of a means of transmuting worthless substances into 
 gold— to discover the lost secret of the ancient Greek 
 fire ; Berthollet the solution of the important question 
 of a substitute for saltpetre in the manufacture of gun- 
 powder, that substance sometimes so difficult to procure 
 in times of blockade. Chevallier at length succeeded in 
 preparing fusees which would burn in water, and the 
 effects of which were said to be as sure as they were 
 terrible. J]xperiments made during certain pyrotechnic 
 displays in 1797, in the presence of distinguished naval 
 officers in the French service, showed that these fusees 
 did actually produce some of the effects commonly 
 attributed to the ancient compound. Chevallier was 
 busily engaged in perfecting his favourite idea, when 
 he fell a victim to an unfortunate chain of circumstances. 
 He had been known as an ardent republican, aijd had 
 been arrested as the suspected agent of a Jacobin plot. 
 Denounced to the police in 1800 as constantly engaged 
 in preparing destructive inventions of a new kind, he 
 was at once suspected of being engaged in a plot against 
 
INVENTION AND DISCOVERY. 
 
 the life of the first consul. The groundlessness of this 
 charge was satisfactorily shown ; and Chevallier was 
 about to leave his prison, when an attempt upon the 
 life of Bonaparte by means of an infernal mfichine 
 brought suspicion once more upon him. To be sus- 
 pected, at that period, was almost synonymous with 
 guilt. Though. Chevallier had manifestly no connection 
 with the horrible plot, the unfoi"tunate inventor Avas in 
 a few days brought to Vincennes, hurriedly tried by a 
 military tribunal, and condemned to death, the sentence 
 being immediately carried out in the fosse of the fortress. 
 The researches of Berthollet, though less unfortunate 
 in tlieir results for himself, proved even more disastrous 
 to those with whom he came in contact. Berthollet dis- 
 covered that, on rapidly grinding in a bronze mortar a 
 mixture of chlorate of potash, sulphur, and charcoal, a 
 succession of detonations were produced, while purple 
 flames were seen to rise out of the vessel. These facts 
 suggested to him the substitution of chlorate of potash 
 for saltpetre in the manufacture of gunpowder. The 
 experiments which he undertook with this view appear-ed 
 to produce the most successful results. A mixture of 
 sulphur, charcoal, and chlorate of potash, in the usual 
 proportions of the ingredients of gunpowder, was found 
 to possess an explosive force so great that projectiles 
 were cast by it three times the distance which could 
 be reached with equal quantities of ordinary powder. 
 Encoi^i^-aged by this extraordinary result, Berthollet 
 appealed to the government for the means of carrying 
 on the manufacture on a much larger scale, and the 
 government gunpowder manufactory of Essones was at 
 once placed at his disposal. Here the enterprise, how- 
 
IXV£XTIO\ AND DISCOVEKY. 333 
 
 ever, speedily came to a terrible end. M. Letort, the 
 manager of the manufactory at Essones, was filled with 
 confidence in the success of BerthoUet's experiments, 
 and in the future triumph of the new compound. He 
 went so far as to assure even the inventor that there 
 was nothing dangerous in the process of manufacture, 
 the mixture being, according to him, identical in this 
 respect with the ordinary powder. On the day when 
 the manufacture commenced, he invited Berthollet 
 to dinner, after which he descended with his guest into 
 the workshops. Here they found the mixture being 
 manufactured as usual in mortars with wooden pestles, 
 and through the medmm of water, intended to avoid the 
 heat occasioned by friction. M. Letort asserted that 
 the use of the Avater was a needless precaution, and that 
 the composition might with impunity be ground while 
 dry. To prove this he approached one of the mortars, 
 and with the end of his walking-stick began to rub ofl 
 a small quantity of the composition which lay dry 
 upon the edge. Instantly a terrible explosion was 
 heard. The house was blown down, and among the 
 ruins were found the bodies of M. Letort, his daughter, 
 and four workmen. Berthollet was preserved by a 
 miraculous accident. 
 
 Notwithstanding this check, so important was the 
 object of BerthoUet's researches that, four years after- 
 wards, the French Government authorized a further 
 trial. Precautions against accidents were multiplied, 
 and the inventor was still sanguine of success. But all 
 was useless. Scarcely had the operation commenced, 
 when another explosion blew the factory, with three 
 unfortunate workmen, into the air, spreading destruction 
 
334 INVENTION AND DISCOVERY. 
 
 around. Henceforth the experiment was abandoned ; 
 and it is now known that the objections to chlorate of 
 potash must for ever forbid its use. So dangerous is it 
 that even tlio movement of the vehicle in which it is 
 carried will cause it to explode ; while its sudden action, 
 not only against the projectile, but against the sides of 
 the cannon almost always leads to the bursting of the 
 arm. 
 
 MACADAM'S IMPROVEMENTS OF HIGHWAYS. 
 
 At the beginning of tlie present century the commonest 
 kind of carriage-way in the cities of England was a 
 rough pavement formed of flints or ill-shapen stones, 
 called " rubble ;" but in places where gravel abounded 
 rounded stones were used, called " boulders." These 
 materials never consolidated, and therefore were always 
 uneven ; and, as the art of carriage-building was then 
 in a comparatively rude state, a constant and most un- 
 easy motion was experienced by all who, from their 
 business, or by reason of their i^ank, were compelled 
 to ride. 
 
 One of the earliest of our reformers in this field was 
 Mr. Macadam, whose name, having been given to the 
 kind of road-making which he introduced, has become 
 familiar to all both in England and on the Continent. 
 Macadam, who was a Scotchman, was for some time one 
 of the trustees of the roads in Ayrshire, a fact which 
 led him to think upon the subject of our highways. 
 Coming to England, he obtained the appointment of 
 
INVENTION AND DISCOVERY. 335 
 
 government agent for victualling the navy in the 
 "West of England, an employment which had little 
 connection with road-making ; but his busy and ob- 
 servant mind was still occupied with the subject. To 
 secure the two conditions of road-making — a firm-set- 
 ting and lasting substance, and a comparatively smooth 
 surface — was to his mind of far more importance than 
 to pass the solemn enactments about the bi-eadth of the 
 fellies of wheels which the legislature had hitherto 
 relied on for keeping up the great highways. The evils 
 of the existing system had become so notorious as to be 
 the subject of a parliamentary inquiry. !Mr. Macadam, 
 although he had little practical experience to point to, 
 immediately stai-ted for London, and one morning pre- 
 sented himself before the Committee of the House of 
 Commons. He stated that he had ideas on the subject 
 which he believed to be of importance, and the cbm- 
 mittee immediately gave him a hearing. He told them 
 ill his broad Scottish accent that their roads never could 
 be better while they made them of gravel and round 
 stones, which, having no points of contact, never settled 
 into a firm bed. The continual breaking up of roads, 
 by which so many fatal coach accidents annually occurred, 
 were, he said, no fault of the materials, which were not 
 worn out, but only out of their proper place. His 
 remedy was simple enough. Some of his views have 
 been proved to be over sanguine, but his plaii has 
 too long competed successfully with other systems for 
 us to have any doubts of its men'ts. He told the 
 committee, that, on his plan, the maximum depth of the 
 hard road material need be no more than ten inches ; 
 that freestone would make as gcod a road as any other 
 
336 INVENTION AND DISCOVERY. 
 
 kind of stone , and that it did not matter wliether the 
 substratum was soft or hard. When he explained that 
 his plan was simply to break up blocks of granite into 
 pieces of about the weight of six ounces, and lay theni 
 on a convex roadway, soft or hard, taking care by 
 constant raking to keep the roadway free from ruts, 
 until the materials were consolidated into a road, which, 
 according to Macadam, would then last for years, the 
 old-fashioned roadmakcrs who had assembled to give 
 evidence laughed heartily at the presumption of the 
 amateur roadmaker who had come all the way fi'oni a 
 Scottish country town to teach them their business. 
 But the manifest eai-nestness of the witness prevailed. 
 The bumping to wliich the aristocratic members of the 
 ommittec had so long been subjected when travelling 
 post on the highways or riding about town, made them 
 readily give car to a proposition for their ease and 
 comfort from a man who, at all events, had faith in his 
 own theories. It was determined that an experiment 
 should be immediately made. The expermient appeared 
 to succeed, notwithstanding the serious disadvantage of 
 the dust created by the wearing off of the particles of 
 granite by the friction of carriage-wheels, and the system 
 spread with extraordinary rapidity. Straightway the 
 paving-stones were torn up, broken to pieces, and spread 
 over the streets of London. The change was easily 
 effected. Tn most cases the stones Avere already there, 
 and nothing but labour was required. The cities and 
 towns followed the example of the metropolis, the 
 villages and hamlets followed the towns, and gradually 
 all England rr.ay be said to have become macadamized. 
 From this period the enthusiastic Macadam aban- 
 
INVENTIO.N AND DISCOVERY. J)37 
 
 cloned his old employment, and devoted himself entire!^ 
 to his favourite occupation of road-improvement. ±ie 
 obtained the appointment of Surveyor- General of tlie 
 Bristol roads, where he was fully at liberty to carry 
 out his notions ; but, like most enthusiastic improvers. 
 Macadam f\xiled to make his schemes profitable to him- 
 self in a pecuniary sense. He had spent in experimentmcr 
 and puttincr his method in execution some thousands of 
 pounds of his own money, a fact which was fully estab- 
 lished before a Parliamentary Committee. As a result, 
 the amount thus sunk by him was returned by Parlia- 
 ment, who also presented him with a sum of two 
 thousand pounds in recognition of his services. Mac- 
 adam had said that, if he died poor, he would at least 
 die an honest man ; and both these anticipations were 
 realized. The originality of his system has been denied, 
 a smiilar plan having, according to some writers, long 
 been in use in Sweden and Switzerland ; but, even if 
 this were true, the world owes much to Macadam for 
 that activity of mind and perseverance to which 
 we are indebted for the great difference between the 
 highways of our time and those over which our fore- 
 fathers were contented to jolt and rumble throughout 
 the kinjjdom. 
 
 CHLOROFORM AND ITS FORERUNNERS. 
 
 The idea of abohshing or diminishing the pain of sur- 
 gical operations is as old as surgery itself. It has, in 
 liact, occupied the minds of men of science at all periods. 
 
 z 
 
'So6 INVEMiON AND DKSCUVKKY. 
 
 The use of opium, cold applications, freezing witu ice, 
 compression, and even intoxication by alcohol have been 
 in turns the subject of experiments. The famous Mesmer 
 gravely announced instances in which painless opera- 
 tions had, as he alleged, been peribrrued on patients 
 when in a state of coma produced by aniraal magnetism, 
 but the facts of mesmerism have never received recog- 
 nition by the scientific world. After a great number ot 
 useless efforts, the abolition of paiu in surgical opera- 
 tions became regarded among surgeons pretty much as 
 the search for the philosopher's stone was regarded 
 among natural philosophers. In 1828 an English phy- 
 sician, named Hickman, despairing, we presume, of 
 obtaining a hearing on this subject among his profes- 
 sional brethren at home, addressed a letter to the 
 French king, Charles X., assuring him that he had dis- 
 covered the means of procuring insensibility among 
 surgical patients. The letter was referred by the king 
 to the Academy of Medicine in Paiis, where the recep- 
 tion it obtained strongly evidenced the opinion then 
 prevailing of the hopelessness of any fui'ther pursuit 
 of this long-cherished dream of science. The Baron 
 Larrey, the celebrated surgeon, alone advocated the pro- 
 priety of giving the Englishman a hearing. The rest of 
 the members formally opposed the proposition for pro- 
 ceeding in the matter, which thus fell to the ground. 
 In a well-known treatise on surgery, published in 1831', 
 the writer observes: "The idea of putting an end to 
 pain in surgical operations is a (;lumera which sober 
 science in these days has ceased to pursue. The sur- 
 gical instrument and physical suffering are two iileas 
 which are inseparable in the minds of sufferers, and 
 
INVENTION AND DISCOVKKY. 330 
 
 ■which we must necessarily admit must always be asso- 
 ciated together." Such was the attitude of science 
 towards this question when, in 1840, wluit is called the 
 anesthetic method suddenly burst upon the attention of 
 the medical world. 
 
 The experiments of Davy upon the effects of the 
 respiration of nitrous oxyd first led the way to really 
 scientific inquiry in this field. Davy said that pain was 
 always diminished after the first four or five inspirations, 
 and he added that, as this gas appeared to enjoy, among 
 other properties, that of inducing insensibility to pain, 
 it might probably be employed to advantage in surgical 
 operations not occasioning any great efi'usion of blood 
 This suggestion attracted but little attention in England, 
 where the public were chiefly interested by the more 
 romantic side of Davy's discoveries — the singular efiects 
 of the gas upon the intellectual faculties. It happened, 
 however, that a poor dentist in the United States, a man 
 of little scientific information, on reading Davy's singular 
 narrative, was struck more particularly by this idea. 
 This was Horace Wells, of Hartford, a little town in 
 the State of Connecticut. Wells first essayed upon 
 himself the effects of the gas. While under its influence, 
 he had arranged with one of his family to extract a 
 tooth from which he had suffered. The experiment was 
 made with success. He felt no pain in the operation, 
 and he subsequently continued his experiments upon 
 other persons. Extending his inquiries into the effects 
 of other agents, he employed sulphuric ether with the 
 same results ; but being advised, as he states, by a Dr. 
 Marcy not to usp this compound on account of its some- 
 what violent action, he linally returned to the use of tl e 
 
340 INVENTIOX AXD DISCOVERY. 
 
 laug-hing-gas. Wells had been in business, in partner- 
 ship with another dentist, named "William jMorton, in 
 Boston, where he had failed and been compelled to 
 relinquish his practice. He now determined to i-eturn 
 to Boston to announce his important discovery to a more 
 scientific audience. Arrived in that city, he called on 
 his old partner Morton, and also upon Dr. Jackson, an 
 eminent surgeon, to inform them of the facts of his 
 discovery. Professor Hay ward and Charles Warren, 
 eminent medical practitioners, were also consulted ; and 
 it was agreed that it was important that a public de- 
 monstration of the discoveiy should be made. No 
 operations being about to take place at the hospital for 
 a few days, it was determined to try a simple experi- 
 ment at once upon some medical students, who were 
 about to assemble that evening at the lecture-room 
 to amuse themselves with the elfects of the laughing- 
 gas. 
 
 The evening being come, Horace Wells, on the plat- 
 form of the lecture-room, administered the gas to a 
 patient, who asked to have a too^h extracted. The 
 marvellous results to be expected had been announced 
 to the audience ; but, in consequence of the uncertain 
 action of the gas, or probably of its unskilful prepara- 
 tion, it produced no result. The patient roared with 
 the pain of the operation exactly as dental patients have 
 done at all times. The spectators laughed, hisses began 
 to be heard, and the scene ended with the retirement in 
 confusion of the unfortunate operator. AVells was a 
 man of a naturally despondent turn of mind. On the 
 morrow he handed over his instruments to his old partner 
 Morton, and retired again to his obscurity in Hartford. 
 
IWEXTION A\D DISCOVERY. 341 
 
 The disappointment he had experienced caused him a 
 severe illness, and when he recovered he abandoned his 
 business of a dentist and his favourite researches in 
 surgerv, and for awhile endeavoured to set his livin"- 
 as the proprietor of an exhibition of birds. 
 
 The ideas of Horace Wells, however, were not for- 
 gotten by Dr. Jackson, who, two 3-ears later, applied 
 himself seriously to the study of the subject. Jackson 
 satisfied himself that the laughinsr-gas of Davy and the 
 sulphuric ether, also tried by Wells, really possessed the 
 properties attributed to them, and these facts he estab- 
 lished with far greater precision than was possible witk 
 the half-informed dentist, to whom the discovery, how- 
 ever, was due. It was still difficult to obtain patients 
 willing to submit to experiments, and caution was 
 necessary for fear of unexpected results. 
 
 Jackson suggested to l^forton, the dentist, to continue 
 the use of the new agent in the comparatively simple 
 operations of his branch of surgery. Morton is stated 
 to have been so ignorant as scarcely to have known the 
 name of sulphuric ether, but he had the merit of quickly 
 adopting the suggestion. He tried it, according to his 
 own statement, first upon himself; but he undoubtedly 
 tried it, and with success, upon his patients. Morton, 
 who soon afterwards claimed the merit of the discovery, 
 and actually obtained a patent for the new method in 
 the United States, now induced Dr. Wai'ren to give a 
 public exhibition of its effects in the presence of the 
 students of the Faculty of Medicine and a great number 
 of practitioners of Boston. The operation to be per- 
 formed was the removal of a large tumour from the neck 
 of a sufferer, who, on recovering from the effects of 
 
342 INVENTION AND DISCOVERY. 
 
 the inhalation, declared to the spectators that he had felt 
 no pain whatever during the operation, but only a kind 
 of scratching. The audience, who had now forgotten 
 the ill-starred exhibition of the dentist Horace Wells, 
 broke forth in loud applause, and the meeting ended in 
 great excitement. 
 
 The new method, notwithstanding grave objections 
 to which it was open, spread rapidly through the United 
 States, and in Europe the names of Jackson and Morton 
 received universal homage, with expressions of public 
 gratitude as benefactors of the human race. Mean- 
 while the unfortunate Horace Wells was entirely 
 forgotten. A more complete scientific education, or a 
 conjunction of circumstances more favourable, might 
 easily have led the poor dentist to the full development 
 of the important discoveries to which he had shown the 
 way ; but after bis public failure at Boston, disgusted with 
 the unlucky results of his experiments, he had altogether 
 renounced his researches. He was leading at Hartford 
 a miserable existence, when news of the extraordinary 
 success of the adopters of his ideas reached him to 
 torture him with regrets for his lack of perseverance. 
 But he determined by some means to get to Europe, to 
 produce evidence of his claims to priority in the new 
 discovery. The history of the affair, however, was at 
 that period very obscure, and he had with him few 
 documents in support of his claims. In London he Avas 
 everywhere received coldly. In Paris, where he passed 
 tlie winter of 1847, he could obtain no hearing from 
 tliose whose influence could procure him justice. Em- 
 bittered with disappointment, and plunged in poverty^ 
 he finally returned to the United States, where he soon 
 
INVENTION AND DISCOTEUY. 343 
 
 afterwards put au cud to bis existence. The circum- 
 stances of his death were peculiarly mouniful. Having 
 entered a warm bath, and opened one of his veins with 
 a surgical instrument, lie inhaled a quantity of the 
 ether whose properties he had been the first to demon- 
 strate, and so losing consciousness, gradually bled to 
 death, where he was found by the attendants. While 
 Horace "Wells thus perished miserably, says a French 
 writer, whose investigations have established these facts 
 b}' documentary evidence, Jackson received the Monthyon 
 prize fi-om the Institute of France, while Morton enjoyed 
 the large profits which he derived from the sale of his 
 patent rights. 
 
 The spirit of inquiry aroused in Europe by this dis- 
 covery was not long in producing new li'uits. It was 
 soon found that the vapoui-s of a great number of liquids 
 were possessed of properties similar to those of nitrous 
 oxyd and sulphuric ether. It was in the course of 
 researches of this nature that Dr. Simpson, of Edin- 
 burgi), ari'ived at the discovery which has since rendered 
 his name famous. This eminent sui'geon had experi- 
 mented successfully upon a great number of agents 
 calculated to supply the place of ether. Finally he 
 experimented upon chloroform. Although the stupefy- 
 ing qualities of this agent were well known, no surgeon 
 had hitherto thought of it in connection with these 
 experiments, and the announcement of Mr. Simpson 
 of its marvellous effects in 1847, excited great surprise 
 in the medical world. The advantages of chloroform 
 over ether were enormous. The English newspapers 
 spread rapidly the news that henceforth pain was abo- 
 lished, and the most terrible operations n-duced to a 
 
344 INVENTION AND DISCOVERY. 
 
 mere trifle. Chloroform became quickly the subject of 
 experiments in all the hospitals of Europe, and ever}'- 
 where with striking results. Slowly, however, the un- 
 welcome truth dawned upon the public that the labours of 
 science in this direction were yet some distance removed 
 from complete success. Statistics proved with unan- 
 swerable logic that hundreds were saved from death by 
 its use in dangerous operations. In tlie terrible operation 
 of amputation of the thigh, in the hospitals of France, 
 Scotland, and England, from thirty-eight to sixty-two 
 in a hundred of the patients had died before chloroform 
 was employed ; while, after the use of that beneficial 
 agent, only twenty-five in a hundred cases terminated 
 fatally. In less dangerous operations the results were 
 still more striking. In fact, pain is itself destructive of 
 human life if prolonged, it being a recognized maxim. 
 that painful surgical operations cannot be expected 
 to result in saving the lives of patients if extended 
 over more than three-quarters of an hour. So far the 
 discovery of Dr. Simpson is of the highest importance 
 to humanity ; but numerous instances have shown that 
 the employment of chloroform is attended with danger. 
 Science, which has already effected so much, however 
 never stands still ; and it may reasonably be expected 
 that the enthusiastic hopes with which the world re- 
 ceived the news of the power of chloroform may yet 
 be realized, and pain, at least in surgical oj)erations, 
 be for ever abolished. 
 
INVENTION AND DISCOVERY. 345 
 
 REPEATING CROSS-BOWS. 
 
 Among the arms captured at the Taku forts, in our last 
 war with the Chiuese, were some cross-bows, capable of 
 discharging a dozen bolts, or arrows, in rapid succes- 
 sion, and bearing the same relation to an ordinary bow 
 that Colt's revolver does to a common pistol. 
 
 The specimens of these curious weapons wliicli have 
 been brought to Europe seem to be of quite recent 
 manufacture ; but the date of tbe invention has, so far 
 as we know, not been traced, and is very likely to 
 be old. 
 
 The stock of the repeating bow is made of Avood, and 
 bears some resemblance to the European pattern. At 
 tbe handle end of the stock is a cross piece of wood, and 
 about two-thirds down is a large wooden peg. When 
 the instrument is used, the left hand grasps the peg, 
 and the cross piece at the end of the stock is pressed 
 firmly against the thigh, or some other support. With 
 his right hand the archer seizes ahandlc which works up 
 and down like that of a pump. The lower part of this 
 handle is attached by a pivot to the bow stock, and a 
 few inches behind this pivot is another one, by which 
 the handle in united to a hopper ; which requires special 
 description, for herein consists the merit of the contriv- 
 ance. The reader must imagine a very narrow wooden 
 trough, just wide enough to admit one bolt, and deep 
 enough to carry a dozen, one on the top of the other. 
 Just above the bottom of this trough is a slit in which 
 the string of the cross-bow can play. 
 
346 INVENTION AND DISCOVERY. 
 
 We must now suppose the hopper filled with bolts, and 
 the handle thrown forwards. By this action the hopper is 
 made to glide forwards over the bow stock, and over the 
 bow-string, which slips in the groove. When this motion 
 has been continued as far as the adjustment allows, the 
 bow-string falls into a notch, and is held fast. As soon 
 us the bow-string falls into the notch, one arrow drops 
 to the level which the string previously occupied. The 
 handle is then pulled back, carrying the string with it 
 in the notch, and stretching the bow. As soon as the 
 handle is sufficiently retracted, the notch is drawn below 
 the string, and the bow discharged, the arrow escaping 
 through a tubular hole. The same actions, which can 
 be repeated with great rapidity, shoot forth twelve 
 arrows in rapid succession. The bow is composed of 
 several flat pieces of thick bamboo, and the string is of 
 gut, like a lathe band. 
 
 The bolts, or arrows, are of light wood, tipped with 
 iron, and furnished with feathers, that project very 
 slightly above the surface. Accurate aiming would 
 probably be difficult with such a machine, but it is easy 
 to throw a succession of arrows tolerably near a mark 
 titty yards off; and with a little practice on the part of 
 the archer, an enemy would find himself very unsafe at 
 that distance. 
 
 It is remarkable that in the same forts, side by side 
 with these mediaeval looking weapons, were finely-cast 
 cannon, copied from the best models of smooth-bore 
 guns. 
 
'NVENTiO^ AND D1SC0V£RY. 347 
 
 WONDERFUL CALCULATOES. 
 
 The possibility of the development of extraordinary 
 powers of calculation in young persons is a fact of 
 which we liave now so many instances that it is scarcely 
 possible to be sceptical on the subject. The marvellous 
 stories of the powers of Jedediah Buxton, Zer»h 
 Colborne, Mr. Bidder, and more recently of the French 
 shepherd boy, Henri Mondeux, have placed beyond 
 a doubt that even the most illiterate condition is not 
 always incompatible with a skill in calculating and 
 working out intricate problems, which even learned 
 mathematicians may envy. Few of these prodigies in 
 mathematics, however, have been sufBciently instructed 
 to give a rational account of the process of self-education 
 which, however great their natural powers may have 
 been, they must have passed through. Mr. Bidder, who 
 was originally known to the public as the " Extraordi- 
 nary Calculating Boy," is, perhaps, the only exception 
 to this remark. 
 
 Among other interesting anecdotes of his early life, 
 Mr. Bidder has recently told us, in simple, intelligible 
 words, how it was that, while a boy, and the son of 
 a working mason, he cultivated those powers of mental 
 calculation which hiive contributed to raise him to his pre- 
 sent position of eminence as a civil engineer. " As nearly 
 as I can recollect," says Mr. Bidder, " it was at about the 
 age of six years that I was first introduced to the science 
 of figures. My father was a working man, and my elder 
 brother pursued the same calling. My first and only 
 
o-tS INVENTION AND DISCOVERY. 
 
 instructor in figures was that elder brother ; the in- 
 struction he gave me commenced by teaching me to 
 count up to ]0. Having accomplished this, he induced me 
 to go on to 100, and there he stopped. Having acquired, 
 a certain knowledge of numbers by counting up to 100. 
 I amused myself by repeating the process, and found, 
 that by stopping at 10, and repeating that every time, 
 1 counted up to 100 much quicker than by going 
 straight through the series. I counted up to 10, then 
 to 10 again, making 20, 3 times 10 = oO, 4 times 10 — 40, 
 and so on. This may appear a simple process, but I 
 attach the utmost importance to it, because it made me 
 perfectly familiar with numbers up to 100 ; they became, 
 as it were, my friends, and I knew all their relations and 
 acquaintances. You must bear in mind that at this 
 time I did not know one written or printed figure from 
 another, and my knowledge of language was so restricted 
 that I did not know there was such a word as multiply ; 
 but having acquired the power of counting up to 100 by 
 10 and by 5, I set about, in ray own way, to acquire 
 the multiplication table. This I arrived at by getting peas 
 or marbles, and at last I obtained a treasure in a small 
 bag of shot. I used to arrange them into squares of 
 eight on each side, and then, on counting them through- 
 out 1 found that the whole number amounted to 04 ; 
 and that fact, once established, has remained there un- 
 disturbed until this day, and I dare say it will remain 
 so to the end of my days." 
 
 " At the period referred to," continued Mr. Bidder in 
 Lis address delivered to the Institute of Civil Engineers, 
 from which we extract these anecdotes, " there resided in 
 a house opposite to my father's an aged blacksmith, a kird 
 
INVENTION' AND DISCOVERY. 349 
 
 old man, wlio, not having: any children, had taken a nephew 
 as his apprentice. With this old gentleman I struck up 
 an early acquaintance, and was allowed the privilege of 
 mianing about his workshop. As my strength increased 
 I was raised to the dignity of being permitted to blow 
 the bellows for him ; and on Avintcr evenings I was 
 allowed to perch myself on his forge-hearth, listening 
 to his stories. On one of these occasions somebody 
 by chance mentioned a sum — whether it was times 9, 
 or what it was, I do not now recollect ; but whatever 
 it was, I gave the answer correctly. This occasioned 
 some little astonishment ; they then asked mc other 
 questions, which I answered with equal facility. They 
 then went on to ask me up to two places of figures — 
 13 times 17, for instance. That was rather beyond me 
 at the time ; but I had been accustomed to reason on 
 figures, and I said, 13 times 17 means 10 times 10, plus 
 10 times 7, plus 10 times 3, and 3 times 7. I said 10 
 times 10 are K'O, 10 times 7 are 70, 10 times 3 are 30, 
 and 3 times 7 aie "21 ; w-hich, added together, give the 
 result 221. Of course I did not do it then as »apidly as 
 afterwards ; but I gave the answer correctly, as was 
 verified by the old gentleman's nephew, who began 
 chalking it up to see if it was right. As a natural con- 
 sequence, this increased my iame still more, and, what 
 was better, it eventually caused halfpence to flow into 
 my pocket, which, 1 need not say, had the effect of 
 attaching me still more to the science of arithmetic ; 
 and thus by degrees I got on, until the multiple arrived 
 at thousands. Then, of course, my powers of numera- 
 tion bad to be increased, and it was explained to me 
 that ten hundreds meant one thousand. Numeration 
 
350 INVENTION AND DISCOVERY, 
 
 beyond that point is very simple in its features ; 1000 
 rapidly gets up to 10,000 and 20,000, as it is simply ten 
 or twenty repeated over again, with thousands at the 
 end instead of nothing. So, by degrees, I became 
 familiar with the numeration table, up to a million. 
 From two places of figures I got to three places ; then 
 to four places of figures, which took me up, of course, 
 to tens of millions ; then I ventured to five and six 
 places of figures, which I could eventually treat with 
 great facility ; and on one occasion I went through the 
 task of multiplying twelve places of figures by twelve 
 figures, but it was a great and distressing effort." 
 
 It is curious that Mr. Bidder is of opinion that the 
 secret of the extraordinary powers of calculation, ex- 
 hibited in cases like his own, lies rather in the method 
 of cultivating this particular faculty than in any original 
 faculty in the mind peculiarly fitting it for the purpose. 
 In one of his interesting addi'esses to the Institute of Civil 
 Engineers, he declared that he could detect in himself no 
 particular turn of mind beyond a predilection for figures ; 
 and added — " I do not mean to assert that all minds are 
 alike constituted to succeed in mental computations ; 
 but I do say that, so far as I can judge, there may be 
 as large a number of successful mental calculators as 
 there are who attain to eminence in any other branch of 
 learning." 
 
 The extraordinaiy " calculating boy" was for some 
 time exhibited in London as a prodigy ; but, fortunately 
 for him, he soon obtained an opportunity of entering 
 life in a less intoxicating atmosphere. Having obtained 
 a situation as a clerk in an insurance office, a post for 
 which his powers particularly fitted him, he passed from 
 
INVENTION AND DISCOVERT 351 
 
 thence into the office of the late Mr. H. R. Palmer, the 
 engineer, where he quickly distinguished himself, and 
 tinally commenced practice for himself in the profession 
 in which he now enjoys a high reputation. 
 
 MECHAMCAL SPIES. 
 
 The great importance of strict punctuality and vigilance 
 in the night police employed on the French railways sug- 
 gested a few years ago to a French gentleman, M. Aresa, 
 the idea of constructing a "tell-tale clock'" — a very 
 inseuious mechanical contrivance, which enables the 
 superintendent of the guard to detect with certainty any 
 neglect of duty in the men under his orders. The duty 
 of the guard, or policeman, being to pass particulai' spots 
 at exact intervals during his night patrol, a kind of 
 table dial is placed at such places, and at the times indi- 
 cated it becomes the duty of the watchman to press his 
 finger upon a small button, or stud, no other part of the 
 apparatus being within his control. On the following 
 day, when the clock is opened, a circular card is found 
 to be pierced with holes, made by the guard at each of 
 his visits, and this card shows at a glance the exact 
 moment of the night when each hole was pierced. The 
 mechanism is stated to be very simple. The circular 
 card is made to revolve by means of the hour wheel of 
 the clock, and the stud which is pressed by the watch- 
 man acts on a sharp needle which perforates the cjird. 
 
352 INVENTION AND DISCOVEKY. 
 
 Of course, if the card be pierced in a Avrong place it 
 affords incontestible evidence that a neg-lect of duty has 
 taken place, by which the lives of I'ailway travellers have 
 been endangered. The employment of these ingenious 
 mechanical spies has proved highly successful. The 
 temptation to sleep, so natural in night watchers, but 
 often so disastrous in its consequences, is of course 
 greatly diminished where the slightest neglect is certain 
 to be detected, 
 
 Messrs. Smith's detector clock, employed in some of 
 our prisons, appears to be similar in principle to M. 
 Aresa's instrument. This apparatus consists of a re^ 
 volving frame fitted with pins. As on the French 
 railways, the watchman is required at stated periods of 
 the night to touch the little knob, winch leaves an in- 
 fallible evidence of his watchfulness while the other 
 inmates of the prison are wrapped in slumber. 
 
 MR. KASMYTH AND THE STEAM HAMMER. 
 
 The inventor of the steam-hammer — that marvellous 
 application of steam power which during the last twenty 
 years has played so important a part in our mechan ical and 
 engineering enterprises — has recently related some anec- 
 dotes of his early labours, which are in the highest de- 
 gree instructive and interesting. Mr. Nasmyth, who 
 was the son of Alexander Nasmyth, the Scottish land- 
 scape painter, owed his original fondness for mechanical 
 
INVENTION AND DISCOVERT. 353 
 
 experiments to Ins father, -who, when not engaged in 
 painting, delighted to amuse himself witli lathe turning, 
 or making mechanical models ; but his chief good for- 
 tune was in having for a school companion the son of a 
 small iron founder. In company with this lad, James 
 Nasmyth, when only twelve years old, delighted to 
 spend his half-holidays in the little foundry at Edin- 
 burgh ; and here, by intently watching the workmen afc 
 their labours, he quickly learnt to turn out a number of 
 ingenious articles in wood, brass, iron, and steel. In 
 working the latter material, he tells us that at the early 
 age of eleven or twelve he had already acquired con- 
 siderable proficiency. At fifteen he made his first essay 
 at constructing a miniature steam-engine. It had a 
 cylinder of only one inch and three-quarters diameter, 
 but it was really a working steam-engine, and performed 
 useful service in grinding up the oil colours which the 
 elder Tsasmyth used in his painting. Subsequently he 
 made other such working models for sale, and with the 
 proceeds was enabled to pay the price of tickets of 
 admission to the lectures on Natural Philosophy and 
 Chemistry, delivered in the University of Edinburgh. 
 
 The boy did not want for friends. Professor Leslie, 
 of Edinburgh, employed him in making apparatus for 
 his lectures, and some other friends gave him the mc;ivs 
 of carrying out his devices on a larger scale. About t !.o 
 years 1827 and 1828 the subject of steam carriages for 
 common roads occupied much of the attention of tlie 
 public. Many tried to solve the problem ; and at length 
 young Nasmyth was furnished with the sura of sixty 
 pounds, with which he finished a complete steam 
 carriage, which, in the autumn of 1828, ran, he says, 
 
 A A 
 
354 INVENTION AND DISCOVERT. 
 
 "many a mile, with, eight persons in it." "After 
 keeping it in action two months (says Mr. Nasmyth) to 
 the full satisfaction of all who were interested in it, my 
 friends allowed me to dispose of it, and I sold it a great 
 bargain, to be used as an engine to drive a small fac- 
 tory. I may name that I employed the waste steam of 
 the engine to cause draught by discharge up the chim- 
 ney. This important use of the waste steam had been 
 done by George Stephenson some years before, but un- 
 known to me." 
 
 His subsequent struggles to obtaia a proper field for 
 the exercise of his mechanical and inventive faculty, and 
 his first interview with Henry Maudslay, and his cheer- 
 ful endurance of privations for the sake of indulging his 
 passion for inventing, are also related by Mr. Nasmyth 
 in the modest and simple narrative addressed to a friend,* 
 from which we quote these particulars : — 
 
 " The earnest desire to get forward in the real 
 business of life (he continues) turned my attention to 
 obtaining employment in some of the great engineering 
 establishments of the day, at the head of which, both in 
 reality as well as in my fancy, stood that of Henry Mauds- 
 lay, of London. It was the summit of my ambition to 
 get work in that establishment ; but as my father had 
 not the means to pay any premium, I determined to try 
 what I could do to attain my object by submitting to 
 Mr. Maudslay actual specimens of my capability as a 
 young workman and draughtsman ; so to this end I set 
 
 * J. Hick, Esq., civil engineer, of Bolton. Mr. Hick incorpo- 
 rated these anecdotes of the inventor of tlie steam hammer in an 
 interesting lecture, entitled " Self Help," dehvered by him in 1862, 
 at Bolton, before an audience of working men. 
 
nrrexTiON axd discovery. 355 
 
 to work and made a small steam-engine, every part of 
 whicli was the result of my own handiwork, including 
 the casting and forging of the parts. This I turned out 
 in such a style as I should be proud to own now. My 
 sample drawings were, I may say, highly respectable. 
 Armed with such means of obtaining the good feeling 
 of the great Henry Maudslay, I sailed on the 19th of 
 May, 1829, to London, in a Leith smack, and, after an 
 eight days' voyage, saw London for the first time. I 
 made bold to call on Mr. Maudslay, and told him my 
 simple tale. He desired me to bring my models for him 
 to look at ; I did so, and when he came to me I could 
 see by the expression of his cheerful well-remembered 
 countenance that I had attained my great object. He 
 then and there appointed me to be his own private 
 workman, to assist him in his little paradise of a work- 
 shop, with the models of improved machinery and 
 engineering tools of which he is the great originator. In 
 the true practical sense, Henry Maudslay was the author 
 of the chief of those engineering tools which are now by 
 their results giving the distinguishing character to the 
 age we are so happy to live in. He left me to an-ange 
 as to wages with his chief cashier, Mr. Robert Young ; 
 and on the first Saturday evening I made bold to go to 
 the counting-house and speak to Mr. Young as to wages- 
 He asked me what would satisfy me. I, knowing the 
 vast value of the situation I had obtained, and Laving a 
 very modest notion of my worthiness to occupy it, said, 
 if he would not consider 10s. per week too much, I 
 thought I could do well with that. He little knew that 1 
 had determined not to cost my father another farthing 
 when I left home to begin the world on my own ac- 
 
356 INVENTION AND DISCOVERY. 
 
 count ; SO I suppose he imagined I had means ' forbye ' 
 the 10s. per week. Well do I remember the pride and 
 delight I felt when I carried to my three-shilling per week 
 lodging that night my first wages. Ample they were in 
 my idea, as I knew how little I could live on, and that by 
 strict economy I could live quite within the 10s. per 
 week. To this end I contrived a small cooking appa- 
 ratus, that I forthwith got made by a tinsmith in Lam- 
 beth, and which cost Gs., and by its aid I managed to 
 keep the eating and drinking part of my private account 
 within 3s. 6d. per week, or 4s. at the outside. I had 
 three meat dinners in the week, and generally four rice 
 and milk dinnei'S, all of which were cooked by my little 
 apparatus, which I set in action after breakfast, placing 
 a small lamp in the situation near it. The oil cost 
 not quite a halfpenny per day ; the meat dinners con- 
 sisted of a stew of leg of beef, the meat costing 3|d. 
 per pound, which, with sliced potatoes and a little onion, 
 and as much water as just covered all, with a sprinkle 
 of salt and black pepper, by the time I returned to 
 dinner at half-past six, I found a repast in every respect 
 as good as my appetite. The stew was done to perfec- 
 tion, and a right savoury mess it was. About half or 
 three-quarters of a pound of such meat yielded, with the 
 potatoes, etc., a most ample dinner. For breakfast I 
 had coffee and a due proportion of a quartern loaf— a real 
 quartern, for it was always weighed, and when it did 
 not turn the scale the full weight was made up by the 
 addition of a cut from another loaf. I am the more par- 
 ticular in all this, to show you that I was a thrifty 
 housekeeper, although only a lodger in a three-shilling 
 room. My cooking apparatus, when at work, stood on 
 
IXYENTIOX AND DISCOVERT. 357 
 
 the liob of the grate, and when I returned home at even- 
 ing tlie flavour of the stew told that it was a rijrht 
 savoury mess ; and so it was in very deed and truth, I 
 have the apparatus by me yet, and I shall have another 
 dinner out of it ere I am a year older, out of regard to 
 days that were full of the real romance of life." Such 
 was the rough school in which one of the most eminent of 
 our mechanical inventors contrived to develop his genius. 
 
 It was not until 1834, and when twenty-six years of 
 age, that Mr. Nasmjth was enabled to start in business 
 for himself in a humble way in Manchester — the city 
 which has now so good reason to be proud of his name. 
 All his engineering tools for commencing business were 
 constructed by himself in Edinburgh, wliere his father 
 was too poor to give him much assistance. It is re- 
 lated that on one occasion, being altogether without the 
 means of obtaining material for making a brass wheel 
 for a planing machine, he cast his eye upon a glistening 
 vow of antique candlesticks made of this metal, which 
 stood in orderly arrangement upon the mantelpiece of 
 the kitchen in his father's house. They were of good 
 metal, and were just the thing for his purpose ; but to 
 hint at melting them down was to propose a sort of 
 sacrilege, for Alexander Nasmyth had had, as he said, 
 "many a crack" with the poet Burns while these 
 family candlesticks had stood upon the table. At the 
 mother's request, however, the sacrifice was consented 
 to ; the candlesticks were carried off at once to the 
 little workship, and recast into the wheel of the plan- 
 ing machine, which was recently still to be seen in one 
 of the workshops of Mr, Nasmyth in Manchester. 
 
 The idea of the steam hammer — which has been 
 
358 INTENTION AND DISCOVERT, 
 
 designated "one of the most perfect of artificial ma- 
 chines, and noblest triumphs of mind over matter that 
 modem English engineers have yet developed " — was 
 suggested by a practical difficulty which arose during 
 the construction of the " Great Western " steamship, in 
 1837. Originally designed for a paddle-wheel steamer, 
 it was found necessary to forge a wrought-iron shaft 
 of thirty inches diameter. This undertaking would 
 now be considered comparatively trifling, but scarcely 
 more than twenty years since it was found that there 
 was not in Great Britain a forge hammer capable 
 of accomplishing such a work. Every firm to which 
 the engineer of the company applied, declined the 
 undertaking as impossible ; and in the despair of 
 the projectors, they were about to resort to the danger- 
 ous substitute of cast iron, when it was determined to 
 consult Mr. Nasmyth. The impossibility of the task 
 with the existing mechanical contrivances was obvious ; 
 but he was not easily daunted. He saw at once 
 why it was that existing machines failed ; and it is 
 said that on the same day in which he received the 
 application from the engineer of the company, he 
 sketched out and forwarded the plan of the steam 
 hammer which has since become so famous. Like most 
 of the important inventions for saving labour, it was 
 extremely simple. It consisted, indeed, merely of an 
 inverted cylinder, to the piston of which the enormous 
 block of iron constituting the hammer was attached. 
 The rush of steam into the cylinder was so directed as 
 to raise it, and consequently the hammer, to a height 
 whence the escape of steam which was provided for, 
 permitted the enormous mass to fall upon the anvil. 
 
INVENTION AND DISCOVERY. 359 
 
 The immense value of this idea lias since been 
 placed beyond a doubt ; but it was slow in being 
 adopted. A sudden determination to construct the 
 vessel on the principle of the " screw," then coming 
 into use, dispensed with the necessity for so great an 
 employment of power ; and Mr. Nasmyth in vain urged 
 upon the great engineering firms to take up the in- 
 vention as superior to every other tool for work- 
 ing iron into all kinds of forge work. Mr. Nasmyth 
 was still too poor to obtain a patent for it, and he 
 openly ofiered it to the public, though for a long time 
 in vain; till visiting one day an engineering work- 
 shop, belonging to M. Bourdon, at Creusot, in France, 
 he was astonished to find the shaft of a crank foro-ed. 
 in one piece, and of so enormous a size that he knew 
 that no English workshop could have accomplished it. 
 "How did you forge that shaft ?" inquired the English- 
 man, eagerly. " With your hammer," replied the 
 French engineer. In fact, at a time when N'asmyth 
 himself had never seen his own design except in the 
 drawing which he had made for the engineer of the 
 " Great Western," a Frenchman, struck with the idea 
 of which he had heard, had successfully put it in exe- 
 cution. On reaching England, Mr. Nasmyth's partner, 
 and their friends, stimulated by this j^ractical illustration 
 of the value of his invention, hastened to obtain a patent 
 at a cost of £280. From that time its use rapidly 
 spread, effecting a revolution in the prices of all kinds 
 of heavy mechanical work. The price of anchors is said to 
 have fallen immediately one half ; and an infinite variety 
 of applications of its gigantic power, which even the in- 
 ventor himself had not dreamed of, were quickly devised. 
 
360 INVENTION AND DISCOVERT. 
 
 The steam hammer, however, is not by any means 
 the sole basis of Mr. Nasmyth's fame as an inventor. 
 His steam-engine, on a plan similar to that of the 
 hammer, " Nasmyth's steam-arm," and his circular 
 cutter for toothed wheels, are scarcely less famous. It 
 is satisfactory to learn that the profits of his inventions, 
 and of the business which they brought him, rapidly 
 raised Mr. Nasmyth from the straitened circumstances 
 which had so long cramped his genius. He I'etired 
 from his engineering business at the end of 185(3, since 
 which time he has devoted himself ardently to his 
 favourite pursuit of astronomical studies. Recently his 
 name has again become famous for his discovery of the 
 mature of the sun's surface, of which Sir John Herschel 
 has published an enthusiastic account. 
 
 THE WONDERS OF SPECTRUM ANALYSIS. 
 
 No discovery has of late awakened more interest among 
 men of science than that which is known as the spec- 
 trum analysis, by which the philosopher is able to ascer-- 
 tain the nature of substances though separated from him 
 by incalculable distances. The discoveries of Newton 
 paved the way to this as to so many other brilliant results. 
 He admitted a sunbeam through a small hole into a dark 
 room, and caused it to be sent out of its path by passing 
 through a glass prism, and thus separated from each 
 other the different coloured lights which in their ordinary 
 
IWEXTIOX AND DISCOVERT. 3G1 
 
 combination affect us as white light. "NVollaston, tr^-ino- 
 the same experiment with light admitted through a 
 very narrow slit, so as to diminish the glare, found that 
 not only are there colours in common sunlight, but the 
 whole of the sunbeam when spread out is found to be 
 full of black lines. In 181-5, Frauenhofer published a 
 kind of map of this analysed sunbeam, in which six 
 handred of these bars are shown in the definite groups, 
 shades, and thicknesses in which they invariably 
 appeared, distinguishing the principal ones by letters of 
 the alphabet. These lines have been shown by Kirch- 
 hoff to be spaces of darkness where the bright lines have 
 been intercepted in their passage by some unknown 
 medium. Since then men of science have examined 
 other lights than that of the sun, and it has been found 
 that when the light from metallic flames is analysed 
 in the same way, each metallic flame will be seen to 
 have its characteristic bars by which the presence of the 
 particular metal is indicated. The light from sodium, 
 for instance, has a yellow bar or line, and this split in 
 two. "When thus examined, .says Mr. Huggins, " the 
 appearance of each metallic flame is as peculiarly dis- 
 tinctive as each man's countenance is unlike his fellow's, 
 and fixes his identity." So delicate is this analysis that 
 it is stated that less than a two-miUionth part of a grain 
 of sodium will exhibit the well-known yellow band, the 
 unmistakeable indicator of the presence of that metal. 
 Other metals, existing in other substances only in infi- 
 nitesimal (juantities, and which no ordinary analysis 
 could, therefore, ever have discovered, have revealed 
 themselves at once by this new test. Thus have been 
 discovered caesium and rubidium, the latter a metal 
 
362 INVENTION AND DISCOVERY. 
 
 existing in tobacco, in tea, in coffee, and in grapes. 
 More recently Mr. Crookes, in England, and M. Lamy, 
 in France, have, by the same method, and without com- 
 munication with each other, added one more to our 
 list of metals, by the discovery of thallium by this 
 test. 
 
 Not only does this wonderful key to the components 
 of matter detect traces of metals of inconceivable 
 minuteness, but it permits unlimited distance to sepa- 
 rate the experimentalist from the substance he examines. 
 As every ray of our sunlight has travelled from the sun 
 to this planet so does it surely bring with it intelligence 
 of the substances which compose that distant orb. No 
 scientific men who have interested themselves in those 
 discoveries now doubt that we are able to determine 
 that nickel, cobalt, aluminium, and other metals familiar 
 on this earth, form portions of the body of the sun. Two 
 inquirers in our day, Mr. .W. Huggins and Professor 
 W. A. Miller, have been the first who have undertaken 
 experiments on this system for determining the consti- 
 tution of the fixed stars. They have shown that the 
 fixed stars have been created on the same general plan 
 as our sun, but with varieties in the grouping of the 
 elements composing each. By the aid of an instrument 
 contrived by them for the purpose, which they designate 
 a spectroscope, they have recently completely examined 
 between forty and fifty of the fixed stars, and have con- 
 structed tables of the measures of lines peculiar to each, 
 showing clearly that the elementary bodies familiar on this 
 eai'th, also in varying proportions, form the constituents 
 of these distant worlds. Among other curious results 
 of the researches of Messrs. Huggins and Miller we have 
 
INVENTION AND DISCOVERT. 363 
 
 their explanation of the different colours of the stars, 
 •which they attribute to the difference of their atmos- 
 pheres, which absorb particular portions of the pure 
 light of those bodies. 
 
 THE EEAPIXG MACHINE. 
 
 About sixty years ago a reward was voted by Parliament 
 to the inventor of what was then considered a machine 
 of the utmost importance to agricultural industry. This 
 was a reaping machine, which was generally regarded, 
 even by farmers, as successful. The new machine began 
 to be employed both in England and abroad ; but in a 
 short time practical men were found to discard it, and 
 return to the ancient system of the reaper and the sickle. 
 The fact was that, although extremely ingenious, the 
 implement for which the House of Commons had voted 
 a reward was much too intricate for real work. It was 
 continually getting out of order ; and when out of order, 
 its repair was a task far beyond the powers of country 
 blacksmiths. Many years afterwards another reaping ma- 
 chine was devised in one of our colonies, wliich cut off 
 the heads of the com and left the straw standing — a 
 fatal objection to its use in thds coimtry. It is not to be 
 wondered at, therefore, if farmers begun to be distrustful 
 of new implements for dispensing with human labour in 
 cutting their com. 
 
 !Mr. McCormick, the son of an American farmer, was 
 the first to bring into use a really successful machine of 
 
3G4 INVENTION AND DISCOVERY. 
 
 this kind, and one whicli has been described as " in 
 agricultui'e as important as a labour-saving device as 
 the spinning jenny and the power loom in manufac- 
 tories." This machine vs^as the result of a perseverance 
 and patience in overcoming difficulties which can be 
 understood by those who are familiar with agricultural 
 operations. Besides other difficulties which all inventors 
 experience, its inventor found that his machine could 
 only be tested during two or three weeks in each year. 
 When a defect was discovered, before the remedy could 
 be applied to the instrument the harvest was over, and 
 the improved machine had then to wait a whole year for 
 a trial, when probably some new failure required another 
 year's delay. Mr. McCormick, in his narrative of these 
 trials, says : — 
 
 " My father was a farmer in the county of Rock- 
 bridge, State of Virginia, United States. He made an 
 experiment in cutting grain, in the year 1816, by a 
 number of cylinders standing perpendicularly. Another 
 experiment of the same kind was made by mj father in 
 the harvest of 1831, which satisfied him to abandon it. 
 Thereupon my attention was directed to the subject, 
 and the same harvest I invented and put in operation, 
 in cutting late oats on the farm of John Steele, adjoin- 
 ing my father's, those parts of my j^resent reaper called 
 the platform for receiving the corn, a straight blade 
 taking effect on the corn, supported by stationary fingers 
 over the edge, and a reel to gather the corn, which, last, 
 however, I found had been used before, though not in 
 the same combination. 
 
 " Although these parts constituted the foundation of 
 the present machine, I found in practice innumerable 
 
IXYEXTION AND DISCOVERY. 365 
 
 difficulties, being limited also to a few weeks in each 
 year, during the harvest, for experimenting, so that my 
 first patent for the reaper was granted June 24th, 1834. 
 During this interval I was often advised by my father and 
 family to abandon it and pursue my regular business, as 
 likely to be more profitable, he having given me a farm. 
 No machines were sold until 1840, and I may say that 
 they were not of much practical value until the improve- 
 ments of my second patent, 1845. 
 
 " These improvements consist in reversing the angle 
 of the sickle-teeth alternately, the improved form of the 
 fingei*s to hold up thecoiTi, etc., an iron case to preserve 
 the sickle from clogging, and a better mode of separating 
 the standing corn to be cut. Up to this period nothing 
 but loss of time and money resulted from my efforts. 
 The sale has since steadily increased, and is now more 
 than a thousand yearly." 
 
 This valuable machine was first exhibited in this 
 country in 1851. English fai-mers saw with astonish- 
 ment an American implement hitherto unknown, which 
 not only reaped their wheat, but performed the work 
 with the utmost neatness and precision ; and a grave 
 official report on the trial of its powers declared that 
 " its novelty of action reminded one of seeing the first 
 engine run on the Liverpool and ^Manchester Railway, 
 in this country." 
 
 A curious circumstance is related in connection with 
 the first trials of the American reaping machines ia 
 England. "Wliile the experiments were in progress, iMr. 
 Bell, a Scotch gentleman, came forward with a reaping 
 machine, which he was enabled to prove had been con- 
 structed by him many years before, and which was 
 
366 INVENTION AND DISCOVERT. 
 
 found to be generally little inferior to the best of the 
 American inventions, while in some respects it was con- 
 sidered to surpass them. The general discouragement 
 thrown upon all such inventions by our farmers, after 
 the failures already noticed, had been sufficient to dis- 
 hearten its ingenious inventor, and Mr. Bell had given 
 up all efforts to bring it into use. Its very existence 
 had almost passed out of his mind, when the public at- 
 tention being directed to the subject, he was induced to 
 take from a lumber room the machine which, but for 
 the apathy of agricultarists, might already have effected 
 an enormous saving to the country. 
 
 THE DISCOVEEERS OF ELECTRO-METALLURaY. 
 
 Electro-Metallurgy, or the working in metals by elec- 
 trical agency, had the singular destiny of being dis- 
 covered at the same moment by two inquirers at the 
 two extremities of Europe. There appears no reason to 
 doubt that the English chemist, Mr. Thomas Spencer, 
 and the Russian professor, Jacobi, were, in the year 
 1837, pursuing, without any knowledge of each other's 
 labours, separate paths of scientific experiment, which 
 led them, almost simultaneously, not only to the disco- 
 very of this important secret of nature, but, also, to 
 some of its most delicate applications. 
 
 Volta had but just discovered, at the beginning of 
 the present century, the electric pile, when he observed 
 one of its most remarkable properties, that is to say, the 
 
DTVENTION AND DISCOVERT. 367 
 
 chemical decomposition effected by the process in sub- 
 stances submitted to its action. This celebrated phi- 
 losopher demonstrated, as early as the commencement 
 of the present century, the curious fact that a solution of 
 a metallic salt under the influence of the pile became 
 immediately reduced to its elements in such a way that 
 the metal was deposited at the negative pole. This 
 phenomenon became afterwards the subject of a number 
 of experiments which largely contributed to extend our 
 knowledge of the laws of electricity ; but as yet nothing 
 indicated that the precipitation of the metal by the elec- 
 tric fluid could be made to serve useful purposes in 
 the arts. In fact, the substance deposited had few of 
 the characteristics of a metal, being generally a sort of 
 black or grey powder, without coherence and without 
 anything like the brightness of a metallic surface. 
 
 It was in the month of September, 1837, that a 
 young English chemist, Mr. Spencer, was occupied in 
 testing the alleged results of some recent experiments 
 upon the artificial formation of minerals by the aid of 
 feeble electric currents, and it was in the course of these 
 experiments that accident led to the discovery of the 
 principles which gave rise to electro-metallurgy. While 
 experimenting with the simple electrical apparatus, con- 
 sisting of a disk of copper united by a wire to a disk of 
 zinc, Mr. Spencer observed that in covering the wire a8 
 usual with sealing-wax some drops of the wax had hap- 
 pened to fall upon the disk of copper. The process of 
 obtaining the weak current of electricity requiring him 
 to steep this disk in a solution of sulphate of copper, 
 'Mr. Spencer, on removing it, found, to his surprise, that 
 the particles of copper had been deposited on the edges 
 
3G8 INVENTION AND DISCOVERY. 
 
 of the little spots of wax referred to. He saw, with 
 eao-er curiosity, that the metal thus precipitated had all 
 the coherence and the brightness of copper after fusion. 
 Mr. Spencer, as he states in his narrative, saw at once 
 that he had the power to direct at his will the deposit of 
 copper. Further experiments confirmed this impres- 
 sion, when, fortunately, another accident led him to still 
 further developments of his discovery. One day when 
 engaged in these inquiries, having no copper disk at 
 hand, he substituted a copper coin, which he connected 
 with a piece of wire to a circlet of zinc. The copper 
 piece was then steeped in the solution as usual, but 
 after some hours, the process not appearing to go on 
 favourably, he removed the apparatus, and began to take 
 off piece by piece the copper precipitated upon the metal. 
 He was scarcely surprised to find on examining them 
 that the figures in relief on the coin and all the finest 
 details of the piece were reproduced with remarkable 
 fidelity in a kind of mould fitted for making a casting 
 of the coin. To reverse the process, and to obtain from 
 a mould a I'eproduction of the penny piece, was simple. 
 Early in 1838, copies produced in this way wei-e exhi- 
 bited in Liverpool, and some having been submitted to 
 an experienced medallist at Birmingham, he declared 
 his opinion that they had been struck, merely remark- 
 ing that the reverse appeared to have been somewhat 
 modified by the employment of acids. The practical 
 medallist added charitably that he advised Mr. Spencer 
 not to endanger his reputation by attempting to pass off 
 any farther mystifications of the kind. 
 
 Meanwhile Dr. Jacobi at Dorpat in Russia had, 
 in the month of February of the same year, discovered 
 
IXVEXTION AND DISCOVERT. 369 
 
 that plastic character of copper under the conditions 
 referred to, which was the origin of his labours in electro- 
 chemistr}-. By the employment of the vreak currents 
 exactly as Mr. Spencer had done, he ultimately succeeded 
 in producing in relief an exact impression of a desi^-n 
 engraved by himself in the mould made for the jjurpose. 
 This impression, the first satisfactory result of his 
 researches, was presented to the Academy of Sciences at 
 St. Petersburg on the ITth of October, 1838. The 
 Minister of Public Insti'uction presented it to the Em- 
 peror, who immediately furnished to Jacobi the funds 
 necessary for continuing his researches. The discovery 
 of Jacobi caused great excitement in Russia. The metal 
 dome of St. Isaac's Cathedral at St. Petersburg, which 
 weighs nearly two thousand tons, was soon afterwards 
 electro-gilded with two hundred and seveuLy-four pounds 
 of ducat gold, and many other applications of the pro- 
 cess were made in public works. 
 
 MR. GOLDSWORTHY GURXEl" AND THE BURN'IN'G 
 AVASTE OF CLACKMANNAN. 
 
 About forty years ago a gang of illicit distillers — such as 
 were common in Scotland— exercised their unlawful trade 
 in the neighboui-hood of the town of Stirling. Com- 
 pelled to seek shelter for their apparatus in waste and 
 solitary places, they found, after many changes, what 
 appeared to them a spot admirably adapted for carrying 
 on their secret manufacture. This was a lonely part of 
 the estate of the South Sauchie Colliery. Originally 
 
 u R 
 
370 INVENTION AND DISCOVERY. 
 
 the owners of those mines had been accustomed to 
 work their mineral riches at this spot, but the old pit 
 had long been abandoned, while shrubs and underwood 
 had overgrown almost every trace of the once busy 
 industry there established. The old workings— rarely 
 now visited by any human being — were the very thing 
 for concealing the illicit whiskey still ; and having let 
 themselves down into the pit, the whiskey makers soon 
 erected their rude apparatus, and, with caution, long 
 continued there to prosecute their secret trade. An 
 accident, however, altogether independent of revenue 
 ofl&cers, and one which they had little foreseen, finally 
 compelled them to seek for other quarters. One day they 
 discovered that their fiirnace operating on the sides of 
 the old subterranean passage in which they worked had 
 caused a smouldering fire in the almost exhausted seam 
 of coal. Failing to extinguish it, they were soon com- 
 pelled by the smoke to abandon their tools and stock, 
 and fly from the place. 
 
 After their departure the fire in the old pit continued 
 to smoulder, until the flames issuing forth were observed 
 at night from distant places. A visit to the spot soon 
 showed that a serious calamity had occurred. The fire^ 
 which had now reached a point which baffled all efi'orts 
 to extinguish it, burnt on from year to year until a seam 
 of coal, twenty-six acres in extent, became embraced in 
 it, and the district became known to the people as the 
 " burning waste of Clackmannan." All efforts to ex- 
 tinguish the fire having long been abandoned as hope- 
 less, the Earl of Mansfield, the proprietor of the mine, 
 determined, on the advice of engineers, to build a wall 
 of mud completely round the burning mass, so as to- 
 
IXVEXTION A3CD DISCOVERT. 371 
 
 deprive it, as far as possible, of air. Five years were 
 employed in this work, and no less than sixteen thou- 
 sand pounds expended. The workmen had to keep up a 
 constant struggle with the terrible element, being driven 
 further and farther away as the fire spread. Subse- 
 quently many thousands of pounds additional were 
 spent, while the value of the coal in this portion of the 
 property was lost to the proprietors. In spite of the 
 efforts of the workmen, some air was always able to find 
 a passage to the fire, which maintained a smouldering 
 combustion, occasionally breaking forth into a more 
 serious fire through cracks in the ground. 
 
 For thirty yeai-s this immense subterranean fire con- 
 tinued to rage, spreading alarm through the neighbourhood, 
 when ^Ir. Goldsworthy Gurney, a gentleman well known 
 in connection -with attempts to adapt locomotives to com- 
 mon roads, and other ingenious schemes, undertook to 
 extinguish the burning waste of Clackmannan, and put an 
 end to the evil which had so long afflicted the neigh- 
 bourhood. Mr. Gumey had already been successful in 
 extinguishing a fire of less importance at the Astley 
 Collieries in Yorkshire ; and a parliamentary inquiiy 
 into colliery accidents having again di-awn attention to 
 the subject, Mr. Gumey was induced to offer his services 
 to Liord Mansfield. His plan is described as having 
 " consisted in pouring down into the mine an immense 
 body of choke-damp, forced in by a high-pressure jet of 
 steam ; the quantity to be sufficient to extinguish the fire, 
 the temperature low enough to cool the coaly mass, and 
 the pressure intense enougn to Keep out all external air." 
 A furnace was constructed above ground capable of 
 burning coal and coke ; a boiler was ercctrd to supply 
 
372 INYENTIOK AND DISCOVERT. 
 
 steam ; flues and pipes were so placed as to convey the 
 gas and steam to one of the old working shafts of the 
 mine, and a hole w^as broken through the mud vv^all 
 below to establish a communication with the smoulder- 
 ing mass. The fire was lighted ; the choke-damp (a 
 mixture of carbonic acid and nitrogen) was generated ; 
 the steam was brought up to a high pressure ; and a 
 jet of steam being admitted into the pipe which con- 
 veyed the choke-damp, forced it irresistibly along and 
 into the mine. For several hours was this flood of gas 
 poured in, until the mine contained eight million cubic 
 feet ; it was completely filled, and remained so for three 
 weeks. The absence of free oxygen in choke-damp 
 (continues the account of these operations) " put out the 
 fire, and a subsequent stream at a lower temperature 
 cooled the mass ; then fresh but damp air was admitted, 
 and was forced for some weeks through all the vacui- 
 ties of the mine, by which it was found that the tempe- 
 rature lowered a little every day, and at length, on 
 fairly opening the mine, the fire was found to be utterly 
 extinguished." It was not until some time afterwards that 
 the true cause of this singular accident was revealed by a 
 story told in a Scottish newspaper, but unfortunately 
 too late to bring to justice the authors of what was per- 
 haps the greatest fire, as it was certainly the longest in 
 duration, which was ever known. 
 
INVENTION AND DISCOVERY. 373 
 
 THE ELECTRO-MAGNET. 
 
 In 1838, Messrs. Morse and Smith, American gentlemen, 
 proprietors of the Morse patent, went to Europe to take 
 out letters patent for the apparatus. Mr. Smith relates 
 a curious circumstance in relation to this visit, leading 
 to the discovery of the intensity magnet in operation 
 at Paris — a discovery of moi-e value to them than the 
 obtaining of patents from every government in Europe. 
 
 The electro-magnet — the most vital part of the 
 Morse apparatus — which they took with them, weighed 
 no less than one hundred and sixty pounds. As this 
 immense nistrument was carried about in England and 
 France, and guarded with great care, the people, and 
 particularly the officials on the Continent, everywhere 
 eyed it with suspicion, evidently imagining it to be 
 an infernal machine, destined to create some awful 
 destruction. 
 
 Happening one day, while in Paris, to enter a public 
 institution, they saw a coil of the same form as their 
 ponderous apparatus, but weighing less than a hundredth 
 part as much, performing the same operation that their 
 apparatus was designed for. Simultaneously with their 
 own invention, in fact, a Frenchman had carried out the 
 same idea ; but with more success in the details. They 
 were, of coui'se, amazed, and Mr. Smith, turning to Mr. 
 Morse, remarked, " Here is the essence of your magnet 
 distilled, and presented in suitable proportions." Upon 
 examining the construction of the coil, they found it to 
 consist of a vast number of convolutions of very fine 
 
374 INVENTION AND DISCOVERT. 
 
 copper wire wound witti silk, the wire being, instead of 
 the large size used by Mr. Morse, which was one-sixteenth 
 of an inch, only a hundredth part of an inch in diameter, 
 thus giving the magnet a vast and intense power in a 
 small compass. 
 
 This modification of the electro-magnet was at once 
 adopted, and is the form used upon all the electro- 
 magnetic telegraphs in the world. 
 
 A BALLOON EOMANCE. 
 
 For some years after the invention of balloons by the 
 brothers Montgolfier, aerostatic amusements formed an 
 invariable feature in the public fetes at Paris, the man- 
 agement of this portion of the programme being in- 
 variably entrusted to Garnerin, the celebrated aeronaut, 
 whose enthusiasm for ballooning led him continually to 
 devise novel exhibitions of this kind. The last of the 
 occasions on which Garnerin officiated in this way was 
 attended by circumstances so curious that it was long 
 remembered by the French people. It was on the day 
 of the coronation of the Emperor I^apoleon, who had 
 placed at the disposal of Garnerin a sum of 30,000 
 francs to defray the expense of constructing a balloon of 
 colossal dimensions, to be launched into the air, but 
 without conveying any persons in the car. Accordingly, 
 on the IGth of December in that year, at eleven o'clock 
 at night, and at the moment when a grand display of 
 
DfVEXTION AND DISCOVERT. 375 
 
 fireworks came to its aid, the balloon constructed bj 
 Garnerin rose from the appointed spot in the Place 
 IsTotre Dame. Three thousand coloured lamps illumi- 
 nated the globe, which was surmounted bj an Imperial 
 crown, richly gilt, and bore, traced in letters of gold, 
 on its circumference the inscription, in the style of the 
 revolutionary calendar, " Paris, 2oth Frimaire, year 13," 
 and the words, " Coronation of the Emperor Xapoleon 
 by his holiness Pius YII." The immense structure rose 
 majestically from the entrance of the cathedral at Xotre 
 Dame, in which the imposing ceremony of the corona- 
 tion had that day taken place, and, rising far above its 
 venerable towers, rapidly disappeared amidst the ap- 
 plause of the Parisian populace. 
 
 Where the great balloon, left to pursue its own way, 
 would finally alight was a subject of speculation with 
 the idlers in the throng ; but it was not until many 
 days later that intelligence was received of its strange 
 career. It was then learnt that a little before daybreak, 
 after the spectacle in Paris, some inhabitants of Rome 
 had perceived a small luminous object shining in the 
 heavens above the cupola of St. Peter's and the Vatican. 
 At first scarcely visible, it increased rapidly, and finally 
 a huge illuminated globe was seen hovering majestically 
 over the seven-hilled city. It remained some time as if 
 stationary, when a slight wind springing up, it again 
 moved away and disappeared in the direction of the 
 south. This was the great balloon of Garnerin, While 
 the unfortunate Pope had been carried off to Paris to 
 submit to the humiliation of cro-miing the successful 
 soldier of the Republic, the huge balloon, which bore 
 the news of the ceremony, had, by a singular chance. 
 
376 INVENTION AND DISCOVERY, 
 
 been carried bj the wind in, the direction of Italy, and 
 had actually crossed the city of Rome only a few hours 
 after its ascent. 
 
 The superstitious might well read in this strange 
 event good or bad omens, according to their bias , but 
 other facts, scarcely less singular, marked the conclu- 
 sion of this balloon romance. The great construction 
 continued its way, but soon descended to earth, and 
 mounted again more than once, finally falling upon the 
 waters of the Lake Bracciano, The people hastened 
 to draw the buge machine out of the water and read 
 the inscription which told its history. Thus Garnerin's 
 balloon, visiting within a few hours these two far-distant 
 capitals, announced at Rome the coronation of the 
 Emperor at the moment when the Pope was in Paris, 
 and while Napoleon was preparing to place upon his 
 head the crown of Italy. Interpreted by the new Court 
 of the Emperor, such facts might have been construed 
 as of happy augury ; but they were attended by circum- 
 stances which rendered the whole affair far from pleasing 
 to Napoleon. It happened that in touching the ground 
 in the Compagna Romana the cords of the balloon be- 
 came entangled for a while in the ruins of an antique 
 monument. For a few moments it appeared as if its 
 course must terminate here ; but the wind having sud- 
 denly lifted it again, it once more tore away, leaving 
 nothing behind but a portion of the representation of 
 the Imperial crown, which was found hanging, tattered 
 and soiled, to an angle of the monument. This monu- 
 ment was no other than the ancient tomb of Nero. 
 
 It may be supposed that this latter fact gave rise, 
 both among the superstitious people of Italy and their 
 
INVEXTION AND DISCOVERY. 377 
 
 more enlightened neighbours, to all kind of reflections 
 and comments. Many dissatisfied persons did not 
 scruple to make sinister allusions to that Imperial 
 crown, the gaudy image of which had been torn to 
 pieces on the tomb of the famous tyrant of ancient 
 times. All these things finally came to the ears of 
 Napoleon, Avho did not conceal his annoyance and ill- 
 humour. He forbade any one to speak to him again of 
 Garnerin or his balloons ; and from that day the un- 
 fortunate aeronaut ceased to be employed. 
 
 Meanwhile the unlucky balloon, the cause of all these 
 rumours, was preserved and suspended at Rome to the 
 roof of the Vatican, Avhere it remained until the down- 
 fall of ^Napoleon, in 181-i- 
 
 COLOUR-BLINDNESS, AND JOHN DALTON. 
 
 In the year 1704, John Dal ton, the eminent chemist, 
 became a member of the Literary and Philosophical 
 Society of Manchester, and in the same year read a 
 paper before that body entitled '' E.xtraordinary Facts 
 relating to the Vision of Colours." The strange state- 
 ments of this essay were received with astonishment by 
 the scientific world to whom they were then altogether 
 new. He told his hearers that he had discovered in his 
 own vision, not otherwi.se defective, a singular incapa- 
 city for distinguishing certain colours, such as scarlet 
 and green, which he designated by the name of colour- 
 
378 INVENTION AND DISCOVERT. 
 
 blindness ; and he related to liis audience an anecdote 
 showing how he first became aware of this curious pecu- 
 liarity. "When a boy he had gone to see a review of 
 troops, and hearing the crowd around him speak of the 
 L,'orgeous effect of the military uniforms in the masses 
 of soldiers manoeuvring before them, he asked, in good 
 faith and simplicity, what was the difference between the 
 soldiers' coats and the grass they were walking on, a 
 question which his companions received with derisive 
 laughter and exclamations of wonder. Dalton showed 
 that so far from this defect being peculiar to himself it 
 had probably always existed, and he described the cases 
 of more than twenty persons similarly constituted. 
 Since then, colour-blindness has taken a recognized place 
 among the ills that human beings are " heir to." 
 
 The life of Dalton added another name to the long 
 list of men who have risen by their own exertions from 
 poverty and obscurity to scientific eminence. His 
 atomic theory, long resisted, but finally accepted by Sir 
 Humphry Davy, efi'ected for chemistry what the dis- 
 covery of the law of gravitation effected for physics. 
 Dalton was born at a little village in Cumberland, and 
 was the son of a poor weaver of common woollen goods. 
 He attended a village school till eleven years old, by 
 which time he acquired some knowledge of mensuration, 
 surveying, and navigation ; but as early as twelve years 
 of age he had to get his living partly as a teacher at a 
 school and partly as a labourer on a small farm, which 
 his father had fortunately inherited. Teaching subse- 
 quently became his chief occupation. It was at IMan- 
 chester that lie first attracted attention ; and chiefly by 
 the remarkable series of philosophical papers of which 
 
INVENTION AND DISCOVERY. 379 
 
 that on colour-blindness was the forerunner. Dr. Ano-us 
 Smith thus describes Dal ton's life, while living in 
 George Street, Manchester, in the family of the Rev. 
 W. Johns : — " He rose at about eight o'clock in the 
 morning, if in winter, went with his lantern in his 
 hand to his laboratory, lighted the fire, and come over 
 to breakfast when the family had nearly done. Went 
 to the laboratory, and stayed till dinner time, coming 
 in a hurrj'- when it was nearly over, eating moderately 
 and drinking water only. Went out again, and returned 
 about five o'clock to tea, still in a hurry, when the rest 
 were finishing. Again to his laborator}^ till nine o'clock, 
 when he returned to supper, after whicli he and Mr. 
 Johns smoked a pipe, and the whole family seems much 
 to have enjoyed this time of conversation and recreation 
 after the busy day." Such was the homely life of one 
 of the greatest of English, men of science. 
 
 Though making from time to time contributions to 
 scientific knowledge of the highest importance, Dalton 
 continued even in later life to gain his living as a profe.s- 
 sional chemist, and teacher of mathematics. At length, 
 in 1883, it was announced by Professor Sedgewick, at the 
 meeting of the TJristol Association at Cambridge, that 
 the king had conferred on him a pension of £150 per 
 annum, which was increased in 1836 to £300. Dalton 's 
 brother, dying about the same time, the small farm 
 which the father had inherited descended to him, and he 
 passed the brief remainder of his days in what to a man 
 of his simple habits appeared to be affluence. Dalton 
 sustained an attack of paralysis in 1837, from which he 
 never completely recovered, but as late as 1^40 he con- 
 tinued to give evidences of the unimpaired vigour of his 
 
380 INVENTION AND DISCOVERY. 
 
 original mind by the publication in that year of four 
 essays, " On tlie Phosphates and Arseniates," " Micro- 
 cosmic Salt," " Acid Bases and "Water," and a new and 
 easy method of analysing sugar. A second and third 
 attack of paralysis having supervened, this distinguished 
 philosopher died in 1844 in his seventy-eighth year. 
 
 JOHN PALMEE AND THE FIEST MAIL COACHES. 
 
 Little more than eighty years have elapsed since the 
 proprietor and manager of a Bath theatre — a gentleman 
 in no Avay connected with the British post-office — was 
 led to reflect upon the absurdities of the system then 
 prevailing for carrying letters throughout the kingdom. 
 This gentleman, who had devoted the fortune which he 
 had amassed as a brewer in that city to theatrical specu- 
 lations, was continually annoyed by the delays which he 
 experienced in writing by the post to the ladies and 
 gentlemen who formed the stars of his theatrical com- 
 pany. There were stage coaches even at that period 
 which left Bath on one afternoon, and arrived in London 
 on the following morning. But the post-oflBce autho- 
 rities of those days refused to avail themselves of such 
 conveyances. They preferred to entrust their letter-bags 
 — exactly as the postmasters of King Charles II. 's days 
 had done — to idle postboys without character, mounted 
 upon worn-out hacks, who were not only unable, as 
 
INVENTION AND DISCOVERY. 381 
 
 Palmer said, to defend their trust from highway robbers, 
 but were frequently in league with them. Owing to this 
 S3'stem, the Bath manager found that his letters, besides 
 being continually lost, were nearly four days on the 
 road to London. 
 
 Vexed and fretted through a long course of years by 
 annoyances of this kind, Mr, Palmer finally determined 
 to take in hand the reformation of the postal system. 
 If a brewer could successfully manage a theatre, why 
 not a post-office ? Satisfied by this reflection, he set 
 himself patiently to work to study the details of the 
 exi.^ting system as far as a stranger to the post-office 
 could ascertain them ; and finally he paid a visit to Mr, 
 Pitt, the Prime Minister, with a full developed scheme, 
 so complete in the knowledge of the subject which it 
 displayed, that officials were astonished. It may seem 
 strange at this day that the chief point in Mr. Palmer's 
 proposals was the carriage of letters, not by postboys, 
 but by regularly appointed mail coaches, carrying 
 guards well armed and accoutred, and conve\-ing the 
 letters at as least as high a speed as was daily accom- 
 plished by the Bath stage. 
 
 Mr. Lewins, in his historical account of the post- 
 office, has grouped together an amusing account of the 
 obstacles that beset the path of the theatrical manager 
 who had thus ventured to deal with these manifest 
 evils. It was in vain that he undertook, through his 
 system, to bring more money to the revenue than had 
 been obtained from the old one. The " oldest and 
 ablest officers " in the post-office repi'escnted the pro- 
 posed changes as not only impracticable but dangerous 
 to commerce and the revenue. One of the most 
 
382 INVENTION AND DISCOVERY. 
 
 eminent of these ofi&cers declared that a postal system 
 which did not include mail coaches was " admirably 
 connected in all its parts, well regulated, and not to be 
 improved by any person unacquainted with the whole." 
 This gentleman declared himself and his brother officials 
 " amazed that any dissatisfaction, any desire for change 
 should exist." The post-office, he said, was " almost as 
 perfect as it could be." Another, a Mr. Draper, ob- 
 jected that the post " cannot travel with the expedition 
 of stage coaches." As to the armed guard, it was 
 gravely prophesied that he would be a nuisance, and 
 that he would inevitably " have to be waited for at every 
 ale house the coach passed." With regard to the high- 
 way robbers who were continually performing the feat 
 of stopping His Majesty's mails, one of the gentlemen 
 to whom the Prime Minister had referred this important 
 matter, coolly laid down the doctrine that it was useless 
 to oppose them. There were no means (they said) of 
 preventing robbery with effect, as the strongest cart or 
 coach that could be made, lined and bound with iron, 
 might easily be broken into by determined robbers," 
 adding that any further attempt to prevent their de- 
 predations would simply lead to worse results than 
 mere plundering, as " when once desperate fellows had 
 determined on robbery, resistance would lead to 
 murder." 
 
 Such was the sort of advice which the young Prime 
 Minister received from his subordinates on the subject 
 of Mr. Palmer's scheme. But Mr. Pitt was a man of 
 original views. The proposals of the Bath stage-manager 
 struck his active mind as both feasible and desirable ; 
 and on the 24th of July. 1784', the Postmaster General 
 
INVENTION AND DISCOVERY. 383 
 
 was directed to announce to the public that the Govem- 
 meut " being inclined to make an oxperimeut for the 
 more expeditious conveyance of mails of letters by stage 
 coaches, machines, etc., have been pleased to order that 
 a trial shall be made upon the road between London 
 and Bristol, to commence at each place on Monday the 
 2nd of August next." 
 
 The experiment, however, was not tried until the 
 8th of August, on which day the first mail coach 
 ever seen in this country left London at eight o'clock 
 in the morning, and arrived at Bristol the same 
 night. The distance between London and Bath occu- 
 pied fourteen hours. The consternation of the objectors 
 to the theory may be imagined when the Bath brewer 
 and theatrical manager was actually installed at the 
 post-office on the day of the change, with the title of 
 Comptroller-General, and with a liberal salary and per 
 centage upon the prospective profits of his system. 
 Though his plans spread rapidly, aud the new im- 
 provements which he was now enabled to introduce 
 were everywhere hailed with approbation by the public, 
 it was long before opposition finally died out. Lawyers 
 going on circuit were warned not to travel in Palmer's 
 mail coaches, on account of the fearful rate at which 
 they fieAv, terrible instances being quoted of passengers 
 who were believed to have died suddenly of apoplexy 
 from the rapidity of the motion. 
 
 Unfortunately the persecution which Mr. Palmer 
 encountered from his first installation in office does not 
 appear to have been altogether without efiect. In spite 
 of the great success of his reforms, he was compelled by 
 circumstances to surrender his appointment, and retire 
 
)84 INVENTION AND DISCOVERY. 
 
 on a pension of £3000 a-year. This sura proved to fall 
 far short of what Mr. Palmer w^as entitled to under the 
 original arrangement v^^ith the Government ; but fortu- 
 nately he lived to obtain a more just settlement of his 
 claims, which were undeniable. Before his improve- 
 ments the post office revenue, notwithstanding the ex- 
 traordinary increase of commerce, had for many years 
 experienced no increase whatever, except what it derived 
 from certain acts of Parliament limiting the system of 
 franks on the one hand, and raising the sum charged for 
 letters on the other. Indeed, for nine years antecedent 
 to the adoption of Mr. Palmer's plans it had decreased 
 by between thu'teen and fourteen thousand pounds per 
 annum. But under Mr. Palmer's management it rose 
 from £150,000, at which it had stood in 1783, to 
 £600,000 ni 1798, and this with an amazing increase in 
 the circulation of newspapers, which of course added 
 greatly to the stamp duties. To these advantages may 
 be added the fact that mail robberies, of old so fatal in 
 their effects, and so expensive in point of prosecution, 
 from that moment were unknown. 
 
 After a long struggle, in 1813, his son, Major 
 General Palmer, induced the House of Commons to 
 acknowledge the claims of his father by a vote of 
 £50,000. Mr. Palmer, who may be regarded as the 
 father of our postal system as it existed up to the time 
 of the inauguration of the penny post, died in 1818 ,. 
 
INTENTION AND DISCOVERY, 385 
 
 THE EAEL OF ROSSE'S GEEAT TELESCOPE. 
 
 Nearly two centuries Lave elapsed since Sir Isaac 
 Newton constructed, with his own hands, the first re- 
 flecting telescope — a small instrument of little power, 
 less than a foot in length, and with a speculum of only 
 one inch in diameter. This relic of the great philo- 
 sopher, which may still be seen in the rooms of the 
 Royal Society, at Burlington House, Piccadilly, though 
 of little practical use even in the early period at which 
 it was invented, is the undoubted parent of that giant 
 tube, through which Herschel first saw Saturn shining 
 in the midst of her satellites ; and of those still more 
 marvellous instruments for which science is indebted to 
 the skill, and energy, and inexhaustible perseverance of 
 the Earl of Rosse. 
 
 The great reflecting telescope of Herschel, completei 
 by him in the year 1789, had kept its place for more 
 than half a century as the most powerful telescope yet 
 constructed. The enormous difiiculties of casting and 
 polishing the metallic speculum for instruments of so 
 great a size, the infinite variety of accidents to which 
 the process is exposed, and the great cost of every 
 failure, had long deterred astronomers even from 
 attempting to imitate it, when, about the year 1827, 
 Lord Oxmantown, a young Irish nobleman, who subse- 
 quently succeeded his father as Earl of Rosse, deter- 
 mined to devote himself to the object of constructing a 
 reflecting telescope of even greater power than that 
 
 c c 
 
386 INTENTION AND DISCOVERT. 
 
 famous " optic tube." Born in the first year of the 
 present century, Lord Oxmantown had distinguished 
 himself at Oxford for his devotion to mathematical 
 studies. After a brief career in Parliament, he finally 
 retired from political life, determined to dedicate his life 
 and fortune almost exclusively to philosophical labours. 
 The astronomer who embarks in this pursuit must 
 depend almost entirely on himself. Skilled workmen 
 capable of rendering him aid cannot be found ; the arts 
 which he employs are little known, and the whole pro- 
 cess of his labours must be almost entirely experi- 
 mental. All this Lord Oxmantown well knew, but the 
 difficulties which lay before him only served to awaken 
 enthusiasm. Looking around him in his own neigh- 
 bourhood, he determined to select his workmen, and to 
 instruct them himself in the work which they ^'^ere to 
 aid him in accomplishing. All of them, says Mr. Weld, 
 were Irishmen, taken from common hedge schools, and 
 selected in consequence of their giving evidence of me- 
 chanical skill ; and so well did their master succeed in 
 instructing them, that the foreman, as stated by Lord 
 Oxmantown himself, ultimately became able to execute, 
 unaided, portions of the work which even the genius of 
 Herschel had not succeeded in accomplishing. 
 
 It is well known that the chief obstacle to the con- 
 structing of these instruments lies in the difficulty of 
 casting and polishing the enormous metal specula or 
 mirrors, which serve to reflect the rays proceeding from 
 the object to be observed to the eye. So great was this 
 difficulty, that even Sir William Herschel, at the com- 
 mencement of his career, polished four hundred of such 
 mirrori, of different dimensions, content if he could 
 
INVENTION AND DISCOVERT. 387 
 
 only procure one tolerably good one out of so great a 
 numbei'. From that period up to the time when Lord 
 Oxmantown commenced his labours, no improvements 
 had been discovered in any part of the process. Mean- 
 while, the great improvements which had taken place 
 on the Continent in the art of making optical glass had 
 brought men to the belief that the old refracting tele- 
 scope had once more taken the chief place as an astro- 
 nomical instrument, and that all attempts to improve 
 the reflector were useless. Nothing daunted by this 
 opinion, the young Irish nobleman set to work to con- 
 sider what were the causes which had hitherto led to 
 failure. He saw that the reflecting telescope had capa- 
 bilities far beyond those of its rival ; while its chief fault, 
 known as " spherical aberration," was common to both. 
 His first object, therefore, was to diminish this fault, in 
 which, — after many ingenious attempts, on a method 
 peculiar to himself, of constructing the mirror originally 
 in three portions, which were afterwards cemented to- 
 gether, and ground and polished into one — he ultimately 
 succeeded. This plan was suggested to him from his 
 having been in the habit of amusing himself in painting 
 on glass. In this latter art the glass is made red hot, 
 and subsequently annealed ; and it was while superin- 
 tending this process that it occurred to him that the 
 precautions employed in this kind of glass manuf^xcture 
 m.ight, with advantage, be transferred to the making of 
 the metallic mirrors. 
 
 Aided by his newly-trained band of workmen. Lord 
 Oxmantown then applied himself to the improvement of 
 the process of grinding and polishing. Scientific men 
 among his contemporaries, of considerable reputation, 
 
obS INVEXTIOX AITD DISCOVERY. 
 
 -were of opinion that machinery would bo useleps for 
 this purpose. He was assured that he could not argue 
 from the manner in which common lenses are manufac- 
 tured, because with glass, if you made no progress in 
 polishing, you at any rate did no harm ; but that it was 
 otherwise with metal, where the Avorker is often in- 
 debted only to the sense of touch for information, which 
 might otherwise come too late to prevent the spoiling of 
 the work. The motto of the Irish nobleman, however, 
 was " Try," and he did tiy, and moreover succeeded. 
 He conceived the idea of employing a steam-engine of 
 two-horse power for the purpose, and he invented an 
 entirely novel machine of great ingenuity for accom- 
 plishing the difficult process of grinding and polishing, 
 with which, in the course of a few years, metallic mirrors 
 were finished many hundreds of times with a perfection 
 altogether unattainable by hand labour. 
 
 Some communications which had been made, from 
 time to time, by Lord Oxmantown to the " Edinburgh 
 Journal of Science" of the results of these labours, soon 
 began to excite the interest of the learned world, who 
 looked eagerly for the results of these persevering ex- 
 periments. To describe the large number of minor 
 improvements introduced by Lord Oxmantown in the 
 process would be impossible in this sketch. His lord- 
 ship erected his first great telescope, the result of these 
 labours, on the lawn of his seat at Birr Castle, in Ireland, 
 and, although its speculum was only three feet, while 
 that of Herschel was four feet in diameter, it was not 
 long before scientific men pronounced it to be the first 
 instrument in the world. Such was the perfection of 
 its workmanship, that Dr. Robinson, who made obser- 
 
IXVEXTION' AND DISCOVERY. 389 
 
 vations with it in 1840 with the assistance of Sir James 
 South, declared that a large building would be easily 
 visible with it on the surface of the moon, while, in his 
 formal report on the subject, he observes, " It is scarcely 
 possible to preserve the necessary sobriety of language in 
 speaking of the moon's appearance with this instrument, 
 which discovers a multitude of new objects at every point 
 of its surface." Its superiority to Sir John Herschel's 
 famous telescope was fully demonstrated by the manner 
 in which it resolved nebulte into stars, and put an end 
 to the favourite theory with astronomers of the gradual 
 condensation of nebulous matter into suns and planets, 
 by showing that the supposed globular-shaped nebuloe 
 upon which the theory was founded were no nebula? at 
 all, but clusters of stars so far remote that theii* true 
 nature was now only for the first time made known. 
 
 In describing this renowned telescope in 1840, its' 
 constructor spoke of the possibility of a telescope being 
 constructed with a speculum of six feet in diameter, or 
 twice the size of that with which he had just astonished 
 the world. The project was considered as little better 
 than a chimera by tliose who were unacquainted with 
 the secrets of the laboratory at Birr Castle. Many 
 denied the practicability of the project, and gave reasons 
 ■why the attempt must be a failure ; but the idea had no 
 sooner occurred to Lord Rosse, than he determined to 
 put it to the test by designing a magnificent instrument, 
 with a metallic speculum of sis feet, or considerably 
 more than twice the area of surface of Herschel's great 
 telescope. All being ready, the casting of the speculum 
 took place on the loth of Api-il, 1842, at nine o'clock in 
 the eveninor. The crucibles were ten hours heatinjr in 
 
390 INVENTION AND DISCOVERT. 
 
 the furnaces before the metal was introduced, which in 
 about ten hours more was sufficiently fluid to be poured. 
 When the oven was opened, the vast metallic mirror, 
 weighing three tons, was fortunately found as perfect as 
 when it entered. Lord Rosse shortly afterwards cast 
 another speculum in the same way of four tons, which 
 was the one ultimately used. This was removed to the 
 grinding-machine, where it underwent that process, as 
 well as polishing, without any accident having occurred. 
 Finally, in October, 1844, the enormous tube, being 
 about forty feet in length and eight feet in diameter, 
 was completed. It is stated that the Dean of Ely 
 walked through the tube with an umbrella up. It was 
 subsequently set up between two lofty walls of castel- 
 lated architecture, as may be seen in the engraviag 
 accompanying this sketch, the elaborate and compK- 
 cated machinery for moving it — also the work of its 
 constructor — being scarcely less original and ingenious 
 than the telescope itself. Sir David Brewster, who, as 
 editor of the " Edinburgh Journal of Science," wae the 
 first to make Lord Rosse' s labours known to the world, 
 says, in an eloquent passage, " We have in the mornings 
 walked again and again, and ever with new delight^ 
 along this mystic tube, and at midnight, with its dis- 
 tinguished architect, pondered over the marvellous 
 sights which it discloses. The satellites, and belts, and 
 rings of Saturn ; the old and new ring, which is ad- 
 vancing with its crest of waters to the body of the 
 planet; the rocks, and mountains, and valleys, and 
 extinct volcanoes of the moon ; the crescent of Venus, 
 with its mountainous outline ; the systems of double 
 and triple stars ; the nebulae and starry clusters of every 
 
INVENTION AND DISCOVERY. 391 
 
 variety of shape, and those spiral nebular formations 
 which baffle human comprehension, and constitute the 
 greatest achievement in modern discovery." The whole 
 weight of the instrument was twelve tons, and its cost 
 to the constructor was estimated at not less than twelve 
 thousand pounds. 
 
 Lord Rosse was elected, in 1849, president of the 
 Royal Society, of which he had long been a member, a 
 post which he held for the usual term of five years. 
 
 SIR EOWLAND HILL AND THE POST OFFICE. 
 
 The numerous stories which were current before the 
 great reforms of Sir Rowland Hill of the ingenious 
 evasions which were resorted to in order to avoid pay- 
 ment of the old absurdly high rates of postage, were un- 
 doubtedly gi'eatly instrumental in inducing the legisla- 
 ture to listen to proposals for improvement. These 
 stories were indeed among the earliest things to attract 
 the attention of Sir Rowland Hill himself — then Mr. 
 Hill — to the subject. In his original pamphlet on the 
 Post Office, published in 1837, he tells some anecdotes on 
 this subject, which are significant of the evils of the 
 system then existing. " Some years ago," he says, " when 
 it was the practice to write the name of a member of 
 Parliament for the purpose of franking a newspaper, a 
 friend of mine previous to starting on a tour into Scot- 
 land, arranged with his family apian of informing them 
 
392 INVENTION AND DISCOVERT. 
 
 of his progress and state of health without putting them 
 to the expense of postage. It was managed thus. He 
 carried with him a number of old newspapers, one of 
 which he put into the post daily. The post-mark, with 
 the date, showed his progress, and the state of his 
 health was evinced by the selection of a name from a list 
 previously agreed upon, with which the newspaper was 
 franked — ' Sir Francis Burdett,' I recollect, denoted 
 vigorous health." 
 
 The story of the Poet Coleridge, which has 'some- 
 times been attributed to Rowland Hill himself, is better 
 known. Once, during one of the poet's visits to his 
 friends, Southey and "Wordsworth, in the lake district, 
 ]ie halted at the door of a wayside inn, at the moment 
 Avhen the rural postman was delivering a letter to ihe 
 barmaid of the place. Upon receiving it she turned it 
 over and over in her hand, and then asked the postage 
 of it. The postman demanded a shilling. Sighing 
 deeply, however, the girl handed the letter back, saying 
 she was too poor to pay the required sum. The poet at 
 once offered to pay the postage, though this was at a time 
 when, as he tells us, shillings were not abundant in his 
 purse, and in spite of resistance, nods, and winks on 
 the part of the girl, who seemed under some restraint 
 from the postman's presence, he did so. The man had 
 scarcely left the place when the young barmaid con- 
 fessed that she had learned all that she was ever likely 
 to learn from the letter, and that she had only been prac- 
 tising a preconcerted trick, she and her brother having 
 Agreed that a few hieroglyphics on the back of the letter 
 should tell all she wanted to know, whilst the letter, 
 which she had nothing to do but to refuse, should con- 
 
INVEKTION AND DISCOVERT, 393 
 
 tain no -writincr. '* "We are so poor," added the girl, 
 *' that we have thought of this way of hearing from one 
 another, and franking our letters." 
 
 It was facts like these showing to what almost frau- 
 dulent devices poor persons were driven to obtain news 
 of distant relatives and friends, which not only set Mr. 
 Hill thinking of the evils of the system, but determined 
 him to inquire into them. He soon discovered that 
 they were of far greater variety and extent than he 
 had dreamed of ; while the anomalies of the system were 
 such as only long habit could have tolerated. He found 
 that while the caiTiage of a letter to Edinburgh actually 
 cost the Government only the ninth part of a farthing, 
 the public were charged a shilling and three half-pence 
 for it, while letters to places like Louth, where the 
 traffic was so small that every letter costs fifty times as 
 much as a letter to Edinburgh, were charged tenpence. 
 So far from being dependent on distance, he found that 
 the cost of each letter carried bore scarcely any relation 
 to it ; and under these circumstances he boldly proposed, 
 in a pamphlet remarkable for its originality and grasp 
 of the subject, that the postage should be made a uni- 
 form penny for all parts of Great Britain. This, though 
 the chief feature in his scheme, was far from being the 
 only one ; his plan proposing numerous reforms, as 
 greater speed in the delivery of letters, more frequent 
 despatches, simpliiication in the opei'ations of the Post 
 Office, and other improvements. 
 
 As with !Mr. Palmer's proposals, the chief officers 
 of the Post Office had stood aghast at the idea of the 
 introduction of mail coaches, so did they receive with 
 astonishment the daring propositions of this unautho- 
 
394 INVENTION AND DISCOVERY. 
 
 rized intruder. Mr. Hill was but little known at that 
 time. Born in 1795, the son of a schoolmaster near 
 Birmingham, he began life as a teacher in his 
 father's school. Subsequently he had obtained the post 
 of Secretary to the Commissioners for the Colonization 
 of South Australia, where his talents for " organization" 
 had been discovered and acknowledged by the Commis- 
 sioners, but of the Post Office he knew nothing but what 
 could be learnt by one of the public. " The first thing 
 I did," he says, in a modest account of his labours, 
 " was to read very carefully all the reports on Post 
 Office subjects. I then put myself in communication 
 with the member for Greenock, who kindly afforded me 
 much assistance. I then applied to the Post Office for 
 information, which Lord Lichfield was so good as to 
 supply me." This we may be assured was not informa- 
 tion of a private character. " These," says Mr. Hill, 
 *' were the means I took to make myself acquainted with 
 the subject." Such a determination was not easily 
 daunted. When the Post Master- General declared in 
 Parliament that, " Of all the wild and visionary schemes 
 he had ever heard of this was the most extravagant," 
 Mr. Hill persevered in circulating his pamphlet, till at 
 length an interest was excited on the subject among the 
 public, which ultimately secured the success of his 
 scheme. On the 12th of November, 1839, the postage 
 of all inland letters was reduced to a uniform rate of 
 fourpence, and on the 10th of January following, a Trea- 
 sury Minute announced the complete adoption of Mr. 
 Hill's scheme, and the penny post was from that time 
 one of the institutions of our country. 
 
 After filling an appointment for a short time in the 
 
INVENTION AND DISCOVERY. 3'J5 
 
 Treasury, Mr. Hill, like his prototype, Palmer, was 
 finally installed in the Post Office to attend to the carry- 
 ing out of his own plans. Appointed in 1846 as Secre- 
 tary to the Post Master- General, he obtained in 1854 
 the office of Secretary to the Post Office, the highest 
 fixed appointment in the office, which he filled until his 
 retirement on account of failing health in 1864. The 
 results of the new system soon justified the most san- 
 guine expectations of its author. Mr. Lewins says, 
 " The publisher of a Polyglot Bible, in twenty-four lan- 
 guages, stated to Mr. Hill that the revision which he 
 was just giving to his work as it was passing through 
 the press, would on the old system have cost him £1-500 
 in postage alone, and that the Bible could not have been 
 printed but for the penny post. Secretaries of diSerent 
 benevolent and literary societies wrote to say how much 
 their machinery had been improved ; conductors of 
 educational establishments, how people were everywhere 
 learning to write for the first time, in order to enjoy the 
 benefits of a free corresjiondence, and how night 
 classes for teaching writing to adults were springing up 
 in all large towns for the same object." In the first year 
 of the new system, the number of letters sent increased 
 threefold ; but the development of letter-writing subse- 
 quently increased beyond anything which the most san- 
 guine Lad expected. The number of letters rose from 
 seventy-six millions in 1838 to the enormous number of 
 six hundred and forty-two millions in 1863, while the 
 Post Office returns showed tliat instead of losing by 
 carrying letters for a penny instead of tenpence and a 
 shilling, the Government had actually gained. In fact, 
 while all ihe advantages of cheap and expeditious 
 
39G INVENTION AND DISCOVERY. 
 
 postage had been secured to the people, the gross returns 
 of the Post Office had risen from £2,346,000 to about 
 £3,870,000, while the clear profit had risen from 
 £1,660,000 to about £1,790,000. 
 
 JOHN METCALF, THE BLIND ROAD-MAKEE. 
 
 How the people of Yorkshire and adjoining counties 
 owed the first improvement of their roads and bridges 
 to a poor unlettered blind man, is related in the singular 
 " Life of John Metcalf," commonly known as the blind 
 road-maker, published early in the present century. 
 Metcalf, whom the country people familiarly called 
 "Blind Jack of Knaresborough," was long an object of 
 wonderment both to the learned and unlearned in the 
 Northern counties, where his labours were considered, 
 even at the time of his death, which took place within 
 the present century, as not inferior to those of expe- 
 rienced engineers. 
 
 Metcalf was born at Knaresborough in 1717. When 
 four years old he was put to school by his parents, who 
 were labourers, and he continued at school two years. 
 He was then seized with the smallpox, which rendered 
 him totally blind. Metcalf, however, notwithstanding 
 his affliction, soon displayed remarkable shrewdness. 
 He became an expert swimmer and diver, and during 
 the great floods in his neighbourhood was often em- 
 ployed to recover property sunk in the river or carried 
 
INVENTION AND DISCOVEKY. 3^^" 
 
 away by the waters. He then taught himself to play 
 the violin, and obtained employment as a musician at 
 Harrogate Assembly-rooms, where he soon became 
 leader of the band. Subsequently he acquired a passion 
 for riding, which he contrived to indulge in without 
 injury to himself; and he saved sufficient money to buy 
 race horses which successfully competed for prizes. 
 "When the rebellion broke out in 174"), Metcalf joined 
 General AVade's army, and accompanied them into Scot- 
 land with his violin and hautboy. While with the army, 
 and after a variety of adventures, Metcalf contrived to 
 trade in various articles, and to amass a sum of money, 
 with which, in 1751, he commenced a new employment. 
 He started a stage waggon, with a team of horses, be- 
 tween York and Knaresborough, being the first ever 
 established on that road, where the traffic had been 
 previously conducted by the ancient system of pack- 
 horses. The blind carrier constantly conducted this 
 waggon himself twice a week in the summer season and 
 once in winter; the distance between the two towns 
 being about eighteen milesj and this business, together 
 with the occasional conveyance of army baggage, en- 
 tirely occupied his time until a new occupation again 
 induced him to dispose of his waggon and horses. 
 
 In going to and fro on his monotonous journey be- 
 tween York and Knaresborough, the blind carrier, ever 
 and anon encouraging his favourite horses with their 
 jingling bells, to struggle onwards tlu-ough the rutty 
 roads — had meditated rjiany a time upon the subject of 
 the miserable highways which then formed the only 
 communication between our largest cities. It was not 
 only by choice that John Metcalf'i- predecessors had 
 
398 INVENTION AND DISCOVERT. 
 
 clung to the old system of pack-horses. This he knew 
 by many a disaster to wheel and axle, as his ponderous 
 vehicle bumped and jolted in the muddy hollow places 
 left by wintry rains. What our roads might be if men 
 would mend them, was a question which the solitary 
 waggon-master found a delight in pondering on ; and 
 many a time he longed to be allowed to try his inge- 
 nuity in the art of road-making. Coming along the road 
 one day in this way, he met with a man who knew him 
 — for most people in those parts knew the blind carrier 
 — and who lent a ready ear to Metcalf 's talk on this, 
 his favourite theme. This was Mr. Ostler, of Farnham, 
 near Knaresborongh, a man of some ability as a sur- 
 veyor. Mr. Ostler told the carrier that an Act of Par- 
 liament had just been obtained to make a turnpike road 
 from Harrogate to Boroughbridge, and that he had been 
 appointed to undertake the work. Here was the oppor- 
 tunity that the blind waggoner had so long hoped for. 
 Struck by Metcalf's earnestness, and having confidence 
 in his abilities, Mr. Ostler finally consented to allow the 
 amateur road-maker to undertake three miles of the new 
 highway ; and Metcalf, abandoning his carrying trade 
 and all its vexations and annoyances, joyfully betook 
 himself to his new employment. " The materials," says 
 the " Life of Metcalf," " were to be procured from one 
 gravel pit for the whole length. He, therefore, pro- 
 vided deal boards and erected a temporary house at the 
 pit, took a dozen horses to the place, fixed racks and 
 mangers, and hired a house for his men at Minskip, 
 which was distant about three-quarters of a mile." He 
 always joined his men by six o'clock in the morning, 
 and by the originality of his whole method of conducting 
 
INVENTION AND DISCOVERT. 399 
 
 the work, he completed it much sooner than was ex- 
 pected, and to the entire satisfaction of the surveyors 
 and trustees. During his leisure hours he studied 
 measurement in a way of his own ; and when certain of 
 the girth and length of any piece of timber, he was soon 
 able to reduce its contents to feet and inches, and could 
 also bring the dimensions of any building into yards and 
 feet. 
 
 " Near the time of his finishing this road," says the 
 writer of the " Life," " the building of a bridge was 
 advertized to be contracted for at Boroughbridge, and 
 a number of gentlemen met for that purpose at the 
 Crown Inn there. Metcalf, amongst others, went also. 
 The masons varied considerably in their estimates. 
 Metcalf's friend. Ostler, was again appointed to survey 
 the bridge ; and Metcalf told him that he wished to 
 undertake it, though he had never done anything of the 
 kind before. The surveyor, on this, acquainted the 
 trustees with what Metcalf proposed. When the latter 
 was sent for and asked what he knew about brido-e- 
 making, he told the trustees that he could readily de- 
 scribe the structure required if they would take down 
 his words in writing, and he immediately dictated the 
 following statement: "The span of the arch 1*-^ feet, 
 being a semi-circle, makes 27; the arch stones must be 
 a foot deep, which if multiplied by 27, will be 48G ; and 
 the bases will be 72 feet more. This for the aixn. 
 will require good backing, for which purpose there aic 
 proper stones in the old Roman wall at Aldborough, 
 which may be bought if you please to give directions to 
 that effect." The readiness of this statement deter- 
 mined them to employ him, and the blind road-maker 
 
400 INVENTION AND DISCOVERY. 
 
 proved again successful in a new kind of industry. Met- 
 calf 's reputation now rapidly increased until he became 
 one of the most important road and bridge contractors 
 then living. He made tha roads between Harrogate 
 and Harewood Bridge, between Skipton and Colne, in 
 Lancashire, between Wakefield and Austerland, Chapel- 
 le-Firth and Macclesfield, and numerous other places in 
 Yorkshire, Lancashire, Derbyshire, Chcsliii-e, and other 
 counties. Among other of his occupations he opened 
 new stone quarries, built toll-gate houses, and under- 
 took numerous other works indirectly connected with 
 his new profession. In none of his surveys did he use 
 any implement but his long staff, with which he felt 
 his way over hill and dale, determining the quality of 
 the soil and other particulars. For all these labours 
 Metcalf received large sums of money, and with few 
 exceptions, made profits from his contracts. 
 
 This singular man had married early in life, and had 
 a daughter married to a cotton manufacturer who lived 
 in Cheshire. Those were the days of Arkwright and 
 Crompton, and the rumours of large sums of money 
 made in this business, induced the blind road-maker 
 again to turn his attention to new ventures. But this 
 time he appears to have been less fortunate. His bio- 
 grapher tells us that he got six jennies and a carding 
 engine made, with other utensils proper for the busi- 
 ness, and bought a quantity of cotton, and spun yarn for 
 sale, as others did in that county. But it cost him 
 much trouble and expense to get his machinery fixed. 
 The speculation failed, and a time came when no yarn 
 could be sold without loss. Nothing daunted, Metcalf 
 then got looms and other implements proper for weav- 
 
IKVENTION AND DISCOVERY. 401 
 
 ing calicoes, jeans, and velveteens ; for having made the 
 cotton maniifacture an object of particulai* attention, he 
 had become -well acquainted with its various branches. 
 " He got," continues the author of the '* Life," " a quan- 
 tity of calicoes whitened and printed, his velveteens cut, 
 dyed, etc., and having spun all his cotton he set off with 
 the finished goods to sell them in Yorkshire, which he 
 did at Knaresborough and in the neighbourhood. His 
 son-in-law was to employ his jennies until he came 
 back." But his passion for his late occupation was too 
 strong to be subdued. It is related that on his return 
 from this journey, coming to Marsden, near Hudders- 
 field, where he had made a road some years before, he 
 found that there was to be a meeting to let the making 
 of a mile and a half of road and the building of a bridge 
 over the river which runs by the town, so as to leave 
 the former road in order to avoid the steepness of the 
 hill. Metcalf determined to stay till the meeting, and 
 he agreed witli the trustees to undertake the work. The 
 narrator of this anecdote adds, " The bridge was to be 
 twelve yards in the span and nine yards in breadth. 
 These, too, he completed, and received a thousand 
 pounds ; but the season being wet, and the ground over 
 which he had to bring liis materials very swampy, and 
 at a distance from the road, he lost considerably by it." 
 In the year 17G2 Metcalf returned to Yorkshire, and 
 having now retired from his profession, he occasionally 
 purchased hay from the farmers to sell again, measur- 
 ing the stacks with his arras, and ha^-ing learnt the 
 height, it is said that he could readily tell what number 
 of square yards were contained, from five to one hun- 
 dred pounds' value. 
 
 D D 
 
402 INVENTION AND DISCOVERY. 
 
 Metcalf 's biograplier tells us that this extraordinary 
 man enjoyed the perfect possession of his mental facul- 
 ties, and could converse with ease and propriety, still 
 enjoying the company of his numerous friends, until 
 April, 1810, on the 27th of which month he finished his 
 busy career, in the ninety -third year of his age, eighty- 
 seven years of which had been passed in total darkness- 
 The " Gentleman's Magazine" for that year, in record- 
 ing his death, adds that his living descendants were then 
 " four children, twenty grandchildren, and ninety great 
 and great-gi*eat-grandchildren." 
 
 DR. AENOTT AND THE WATEE BED. 
 
 Among modern men of science to whom the w^orld is 
 indebted for useful inventions tending to promote com- 
 fort, or diminish human suffering, none are more deserving 
 of mention than Dr. Arnott, who has successively thrown 
 open to the public all his ingenious devices, generously 
 determining to take out no patent for any one. This 
 ingenious physician has given an interesting account of 
 the circumstances which some years ago led him to 
 construct his hydrostatic bed. All persons who have 
 suffered from a wasting illness, which has long confined 
 them to a bed, are aware of the misery wliich the 
 pressure even of the softest bed causes to invahds under 
 such circumstances. The case of a lady patient whom 
 Dr. Arnott attended, and who complained daily of her 
 
INVENTION AND DISCOVERY. 403 
 
 Bufferings in this respect, first suggested to liim his 
 ingenious means of mitigating the evil. The lady's 
 suH'erings had become so severe as to be almost intoler- 
 able. " Under these circumstances," says Dr. Arnott, 
 '• the ide-a, of the hydrostatic bed occurred to me. Even 
 the pressure of an air pillow had killed her flesh, and it 
 was evident that persons in such a condition could not 
 be saved, unless they could be supported without 
 sensible inequality of pressure. I then reflected, that 
 the support of water to a floating body is so uniformly 
 difl'used, that every thousandth of an inch of the inferior 
 surface, has, as it were, its own separate liquid pillar, 
 and no one part bears the load of its neighbour ; that a 
 person resting in a bath is neai"ly thus supported ; that 
 this patient might be laid upon the surface of a bath, 
 over which a large sheet of the waterproof india-rubber 
 cloth had been previously thrown, she being rendered 
 sufiiciently buoyant by a soft mattress placed beneath 
 her ; thus would she repose on the face of the water, 
 like a swan on its plumage, without sensible pressure 
 anywhere, and almost as if the weight of her body were 
 annihilated." 
 
 Having communicated his ideas to a practical 
 machinist, an appai'atus was soon completed under the 
 direction of the doctor, who had the satisfaction of 
 seeing it completely successful. The lady gained 
 immediate relief, and ultimately recovered from her 
 malady. Scarcely thirty years ago this contrivance was 
 ■wholly unknown ; at the present day its practical uses 
 are familiar not only in our great hospitals, but among 
 private medical practitioners in England and on the 
 Continent. 
 
404 INVENTION AND DISCOVERY. 
 
 THE DISCOVERY OF THE PLANET NEPTUNE. 
 
 Early in the month of October, 1845, a young student 
 of the University of Cambridge presented himself at the 
 house of the Astronomer Royal in Greenwich Park, and 
 desired to speak with that gentleman. Being informed 
 that Mr. Airy was at that moment in Paris, the young 
 student departed, promising shortly to return. Punc- 
 tually to his engagement, the stranger soon afterwards 
 again presented himself at the Royal Observatory, but 
 Mr. Airy was still absent. Beginning now probably 
 to suspect that Royal Astronomers are difficult of 
 access, Mr. Adams, for such was the name of the young 
 student, asked for paper, and pen, and ink, and pro- 
 ceeded to put in writing a statement of the object of his 
 visit. 
 
 When the note which the stranger had left was 
 placed in the hands of the Astronomer Royal, he might 
 Tvell have been excused if he read it with an incredulous 
 smile. Ifc announced the writer as the discoverer of a 
 sort of hypothetical planet. It professed to be able to 
 state exactly the mean longitude of this accession to our 
 planetary system on a certain day ; it even stated its 
 size as three times that of Uranus, and equal to a star 
 of the ninth magnitude. The writer, however, did not 
 profess to have actually seen his planet ; he had simply 
 made a series of calculations by which he had satisfied 
 himself not only of the existence of this planet which 
 had hitherto escaped the observation of astronomers, 
 but also enabled himself to state all these and other of 
 
INVEXTION AND DISCOVERT. 405 
 
 its characteristics; finally, not having himself the means 
 of carrying on practical observations, he requested the 
 Astronomer Royal to proceed upon these data to make 
 a search for this interesting stranger in the solar 
 system. 
 
 Without some evidences of scientific attainments in 
 the writer, sucli a letter would probably have obtained 
 no attention ; but the Astronomer Royal's coiTcspondent 
 had reasons to give for his view, and his communica- 
 tion Avas that of a man of science. Still it did not 
 appear to awaken faith in Mr. Airy : he caused no 
 observations to be made in accordance with the sug- 
 gestion, but merely answered the letter by suggesting 
 some objection to the theory. Here the matter rested 
 until the 1st of June in the following year, when M. 
 Leverrier, a young French astronomer, announced 
 pubiicly to the Academy of Sciences in Paris that he 
 had been engaged in a long course of calculations, which 
 were found to have conducted him to conclusions almost 
 exactly identical with those of Mr. Adams. 
 
 It is well known that the law of Kepler enables 
 astronomers to determine beforehand the orbit or path 
 of any planet round the sun, when its positions in the 
 heavens at various periods have been ascertained ; but 
 the laws of Kepler are not absolutely exact : all that 
 can be said is that they are exact, if we suppose the 
 planets to be acted on by no other attractive power than 
 that of tlie sun. But the law of gravitation is universal ; 
 and the planets are constantly disturbed in the course 
 which they would naturally take, by the atti-action of 
 other planets, like themselves compelled to move for 
 ever around the distant centre of our solar system. 
 
406 INVENTION AND DISCOVERY. 
 
 These slight irregularities in the movements of the 
 planets are w^ell known to astronomers under the name 
 of planetary perturbations. They are frequently only 
 to be detected by the most delicate operations, and the 
 nicest calculations ; but the perfection to which the 
 systems of observation have been brought since the 
 time of Kepler, renders them easily appreciable. Thus 
 the efiects of the planets upon the orbit of the new 
 planet Uranus, discovered by Herschel were fully 
 ascertained ; but in spite of all calculations, Uranus 
 continued to depart in an inexplicable manner from the 
 path which theory assigned it. The error in the 
 calculations became more and more manifest as from 
 year to year of our time the progress of Uranus in its 
 long journey round the sun became more developed. 
 The " rebel planet " as men of science had learned to 
 call it, had not yet terminated one complete revolution 
 since the time of its discovery by Herschel, when the 
 astronomers had begun to lose all hope of reconciling 
 its movements by those tables which were of such 
 unfailing certainty in all other calculations. 
 
 In this dilemma, it is scarcely surprising that the 
 minds of scientific men were busy in inventing theories 
 for explaining the facts. To the imaginations of some, 
 a comet, undiscernible to our eye must be wandering 
 in the neighbourhood of Herschel's new world ; accord- 
 ing to others, some fluid or other, of an unknown kind, 
 surrounded it, clogging its movements ; others again 
 imagined a large satellite which disturbed its path ; 
 while one at least had suggested the bold hypothesis, 
 that somewhere beyond the orbit of Uranus another 
 planet, w^hich had hitherto escaped the observation of 
 
INVENTION AND DISCO /ERT. ' 407 
 
 astronomers, produced a disturbing influence, "wliich 
 might yet be reduced to fixed rules. 
 
 This was the hypothesis on which M. Leverrier had 
 proceeded. With extraordinary industry and patience 
 this young man of science, who occupied only the hum- 
 ble post of teacher of astronomy in the Polytechnic 
 School in Paris, had set himself to verify and correct 
 the whole of the extensive calculations of Bouvard in 
 his famous work designed for the assistance of astrono- 
 mers in similar labours. Like Mr. Adams he proceeded 
 to the solution of the question of the distui'bances in the 
 path of Uranus purely in a hypothetical way. Satis- 
 fied that they could only proceed from the action of some 
 hitherto undiscovered member of our solar system, he too 
 inferred the distance of this unknown planet from a cer- 
 tain uniformity obsei'vable in the distances from the sun 
 of other planets. He assumed that it would be 
 found that as Uranus is twice the distance of Saturn, 
 so the new planet would be twice the distance of Ura- 
 nus. Ordinarily in calculations of this kind the astrono- 
 mer knows the position, and the density of the disturb- 
 ing planet, and from these data determines its influence, 
 but here the method of investigation was exactly the 
 reverse. The perturbations were known ; the cause 
 was unknown. Nevertheless, M. Leverrier proceeded 
 in his laborious course, and finally, on the 1st of June 
 he addressed the members of the Academy of Sciences 
 with the remarkable words — " The planet which dis- 
 turbs Uranus exists. Its longitude on the 1st of January, 
 1847, will be 325 degrees, and it is impossible that there 
 can be an error of more than ten degi-ees in that calcu- 
 lation." A subsequent and more careful investigation 
 
408 INVENTION AND DISCOVERY. 
 
 enabled him to indicate more exactly the characteristics 
 of this still undiscovered Avorld. He announced that 
 its density would exceed that of Uranus ; that its ap- 
 parent diameter and its brilliancy would be only a little 
 less, so that not only would it be discoverable by a good 
 instrument, but it would be distinguished without diffi- 
 culty from its neighbouring fixed stars, from the fact 
 that its disk-like form must be apparent, while the 
 fixed stars even in the strongest telescope appear but 
 as points of light. Finally, he announced that to find it 
 the search must be conducted at a time named, at about 
 five degrees to the west of a certain star in the constel- 
 lation Capricorn. 
 
 Nothing can give a more imposing idea of the exact- 
 ness of astronomical science than the fact that these bold 
 predictions were not only identical in their most impor- 
 tant points with the conclusions of the young English 
 astronomer, which had not yet been given to the world, 
 but were in the end found to be almost exactly correct. 
 For some time no attempt was made to find the planet 
 thus distinctly pointed out ; and it must ever remain a 
 slur upon French astronomers that the correctness of this 
 ingenious hypothesis was finally determined not by the 
 Observatory at Paris, but by the Royal Observatory of 
 Berlin. On the 31st of August, 1846, the exact position 
 of the planet was announced; and on the 13th of Sep- 
 tember the facts were communicated to M. Galle, the 
 Prussian astronomer, who on the very evening on which 
 he had received the request to look for it, was so fortu- 
 nate as to discover it as a star of the eighth magnitude. 
 The difierences between its position and other charac- 
 teristics, and those predicted were so trifling as to place 
 
INVENTION AND DISCOVERY. 409 
 
 beyond a doubt the fact that its existence had been 
 proved before any astronomer had seen it, or, at least, 
 before any one had distingiiished it from the fixed stars 
 which surround it. " The honour of havinj^ made this 
 discovery," says Sir David Brewster, " belongs equally to 
 Adams and Leverrier. It is the greatest intellectual 
 achievement in the annals of astronomy, and the noblest 
 triumph of the Newtonian Philosophy." 
 
 At first it was proposed to give to the new planet 
 the name of Leverrier, but ultimately it was determined 
 to preserve the uniformity in the classical names of 
 the heavenly bodies, by giving it the title of Neptune, 
 by which it is now recognized throughout the learned 
 world. Neptune is thirty times further from the 
 sun than this world, and performs its journey around 
 that luminary in 17"2 of our years. By its discoveiy 
 alone our solar system was ascertained to extend one 
 thousand millions of miles beyond the limits which had 
 been previously known. 
 
 THE INYEXTIOX OP THE SCEEW PEOPELLER. 
 
 Mh. Hick, the engineer, of Bolton, in a lecture delivered 
 by him before an audience of working men in that town, 
 has recently thus told how the idea of the steam pro- 
 peller was suggested to his late brother, an mgenious 
 inventor of more than one important improvement in 
 machinery : " It was a spirit of observation," said the 
 lecturer, " which led a clever young man of this town, 
 
410 mYENTION AND DISCOVERT. 
 
 now no more, to invent a screw propeller for vessels, 
 and it happened in tins manner : In taking a stroll one 
 autumn evening in the country, he observed the seeds 
 falling from a sj-camore tree, and noticed that they 
 acquu-ed a rotary motion before reaching the ground. 
 This led him at once to inquire into the cause, and tak- 
 ing one up he found that the two wings were slightly 
 turned in opposite directions, which caused them to 
 revolve in falling, and the idea at ouce struck him of 
 making a screw propeller on this principle." 
 
 The lecturer exhibited an interesting model of the 
 propeller referred to ; but it must be remarked that the 
 powers of the screw itself have been known from remote 
 antiquity ; while the merit of having been the first to 
 practically apply it to the propulsion of vessels, un- 
 doubtedly belongs to Mr. Francis Pettit Smith, originally 
 a grazing farmer, who turned his cattle to feed in the 
 broad marshes about Romney, in Kent. Smith was the 
 son of the postmaster at Hythe ; neither his own profes- 
 sion nor that of his father, therefore, were likely to direct 
 his mind either to shipbuilding or mechanics in general ; 
 but he had, from a boy, been fond of amusing himself 
 with making models of boats, and had contrived various 
 modes of moving them in the water. It was in 1834 
 that he had at length constructed a model of a boat 
 propelled by a screw driven by a spring, which an- 
 swered so well that he determined that this would be 
 a better mode of propulsion for steamboats than the 
 paddle, which was then universally employed. Mr. 
 Smith was at this time following his business of a cattle 
 grazier, at a farm which he rented at Hendon, in Middle- 
 sex, and on a horsepond at this spot he tried, in 1835, a 
 
IXTENTION AND DISCOVERT. 411 
 
 Dumber of experiments with a model screw-steamboat 
 of his own making. Some experiments were also con- 
 ducted by him at the Adelaide Gallery, near Charing 
 Cross ; and finally, in 1836, he took a patent for his new 
 application of the screw to the purpose of propelling 
 "vessels. In that year, a small practical steam vessel of 
 about ten tons' burden was built by him, and was tried 
 on the Paddington Canal and also on the Thames, with 
 satisfactory results. This tiny vessel actually put to sea 
 in 1837. and visited Folkestone, Dover, and other ports, 
 encountering occasionally very severe weather, by which 
 it was finally demonstrated — in spite of the warnings of 
 professional critics — that the screw would work equally 
 well in rough or smooth water. 
 
 In 1838 this novelty in steamboat construction was 
 visited by the Lords of the Admiralty, who undertook 
 to try the invention in the navy ; but before doing so 
 they desired to have it tried by Mr. Smith in a larger 
 vessel. To meet this request, the celebrated "Archi- 
 medes " was built — a vessel of 237 tons burden and 
 ninety-horse power, and in October, 1838, she Avas 
 launched on the Thames at Millwall. So valuable was 
 the principle considered by the Admiralty, that it was 
 agreed that her trial trip should be considered satis- 
 factory if she realized a speed of five miles an hour ; but 
 nearly twice that speed was attained. The remarkable 
 success of the " Archimedes" took the engineering world 
 by surprise. In 1839 and 1840 the " Archimedes" 
 visited every principal port in Great Britain, and crossed 
 the Bay of Biscay to Oporto, everywhere exciting uni- 
 versal admiration. A number of vessels were now laid 
 down on the screw principle ; and by 1850 nearly a hun- 
 
412 INVENTION AND DISCOVERY. 
 
 dred screw steamships had been built or ordered to be 
 built. 
 
 The history of Mr. Smith's career as an inventor 
 again presents ns with the old story of disappointment 
 and injustice. In 18-50 his fourteen years' patent had 
 expired, and although an extension of live years had 
 been granted, he had incurred expenses so heavy that 
 the result to the inventor himself was nothing but loss. 
 To add to his troubles, no sooner was the invention of 
 which nobody had augured well in its early stages, a 
 declared success, than a number of persons sprang up 
 to lay claim to it, or to pretend that the idea was an old 
 one, and the patent void. As in the case of Watt, con- 
 tinual litigation was necessary to support his right ; and 
 law costs made still further deductions from what should 
 have been the inventor's profits. Mr. Smith has ob- 
 tained a pension from the civil list, and the leading 
 engineers of the country some time since subscribed a 
 considei-able memorial fund to mark their sense of his 
 merits. Only ten years after the first adoption of the 
 screw in our navy it was calculated that if the old 
 paddlewheel had up to that time continued to be in 
 exclusive use, engines of nearly one hundred thousand- 
 horse power additional would have been required than 
 was then necessary ; the cost of which would have been 
 five or six millions sterling. In the mercantile navy 
 the saving by the application of the screw is still more 
 important. 
 
IN'VEXTIOK AND DISCOVERY. 413 
 
 THE CHILDHOOD OF DR. THOMAS YOUXG. 
 
 Dr. Thomas Young, -whose discoveries on the theorj' of 
 light -would, according to Sir John Herschel, '• have 
 sufficed to place their author in the highest rank of 
 scientific immortality," has left an interesting account 
 of his studies up to his fourteenth year-, which shows 
 Low slight are sometimes the circumstances which have 
 directed the minds of our most eminent discoverers to 
 the studies which have made them famous. 
 
 Though not born in so poor a station as the present 
 philosopher Fei'guson, Young was not less remarkable 
 for the early development of his powers. He was 
 brought up by his gi-andfather, a merchant at Minehead, 
 in Somersetshire. At two years of age he had learnt 
 to read with fluency; at six he leai-nt by heart the 
 ■whole of Goldsmith's poem, " The Deserted Village," 
 which was the work of six weeks, during the hours of 
 his absence from school. Having been placed, soon 
 after this, at what he calls a "miserable boarding- 
 school " at Stapleton, near Bristol, kept by a master 
 who was cxtremel)' morose and severe, and, moreover 
 ignorant of the things he undertook to teach, the lad 
 now in his ninth year, was kept for six months entirely 
 at home. It was during this time that he first imbibed 
 a liking for philosophical subjects. " My father," he 
 says, " had a neighbour of the name of Kingdon, a man 
 of great ingenuity, who, though originally a tailor, had 
 raised himself, by his talents and good conduct, to a 
 
414 INVENTION AND DISCOVERY. 
 
 respectable position in life, being at that time a land- 
 surveyor, and also land-steward to several gentlemen in 
 the neighbourhood. His daughters had always treated 
 me, when a child, with great kindness, and 1 was in 
 consequence very fond of going to his house, where I 
 found many books relating to science, and particularly 
 a ' Dictionary of Arts and Sciences,' in three folio 
 volumes, which I began to read with the most intense 
 interest and delight. At his house I also found several 
 mathematical and philosophical instruments, the use of 
 many of which I learnt, with the assistance of his 
 daughters and his nephew." Soon after this the child 
 philosopher was sent to the school of Mr. Thompson, at 
 Compton, in Dorsetshire, where he made progress ic. 
 the study of the classics and of mathematics. "The 
 usher of this school," he continues, " was a very in- 
 genious young man, of the name of Josiali Jeffrey, who 
 was in the habit of lending me books, and amongst 
 them Benjamin Martin's ' Lectures on Natural Philo- 
 sophy,' and Ry land's ' Introduction to the Kewtonian 
 Philosophy.' " This appears to have been the turning 
 point in his early education, and he records the delight 
 which he experienced in reading the optical part of 
 Martin's work, containing, as it does, many detailed 
 rules for the practical construction of instruments. 
 
 In the usher Jeffrey the boy was fortunate in finding 
 a congenial mind. " Mr. Jeffrey," he continues, " was 
 a good mechanic, and it was from him that I acquired 
 my fondness for turning and for making telescopes. He 
 also made an electrical machine, which I very frequently 
 used. I was in the habit of grinding and preparing 
 various kinds of colours for him, which he used to sell 
 
INTENTION AND DISCOVERT. 415 
 
 to the boys and others He was also a bookbinder, 
 
 an occupation in which I assisted him." After Jeffrey 
 left the school, Young succeeded to some of his employ- 
 ments and perquisites, and was thus enabled to save 
 money to buy Greek and Latin books, and also Mon- 
 tanus's Hebrew Bible, for he was at that time enamoured 
 of Oriental literature. But philosophy was his chief 
 delight. " In the intervals of my residence at this 
 school," he says, " during my occasional visits to my 
 grandfather at Minehead, I became acquainted with a 
 saddler of the name of Atkins, a person of considerable 
 mechanical skill and ingenuity, whose journal of the 
 heights of the barometer and thermometer, of the state 
 of the weather, and the direction of the wind for three 
 times a day during the whole of the year 1782, is pub- 
 blished in the ' Philosophical Transactions.' " Amongst 
 many other instruments possessed by this learned 
 saddler was a quadrant which he lent to his boy ac- 
 quaintance, who made it the constant companion of his 
 ■walks, and attempted to measure with it the heights of 
 the principal eminences in the neighbourhood. He had 
 imbibed also a wish to study botany, from a conversa- 
 tion which he had had with a gentleman of learning in 
 this field, and he longed to construct a microscope from 
 Benjamin Martin's description, in order to examine the 
 minute organs of plants. For this purpose he procured 
 a lathe, and succeeded in getting the requisite materials. 
 His zeal for botany during these operations was re- 
 placed by his fondness for optics, and subsequently by 
 that for turning. 
 
 " I well recollect," adds Dr. Young in the conclusion 
 of this interesting fragment of autobiography, " that. 
 
416 INVENTION AND DISCOVERT. 
 
 Laving seen a demonstration in Martin wliicli exhibited, 
 although unnecessary, some fluxional symbols, I never 
 felt satisfied until I had read, a year or two afterwards, 
 a ' Short Introduction to the Method of Fluxions.' My 
 iather had purchased at an auction a volume of ' Priestly 
 on Air,' the reading of which delighted me greatly, and 
 first turned my attention to making chemical experi- 
 ments. I was in the habit of rising an hour sooner 
 than my schoolfellows in summer, and of going to bed 
 an hour or two later in winter, for the purpose of 
 mastering my lessons for the day. My school business 
 was thus soon finished. . . . Upon my return home, after 
 finally leaving Compton school, I devoted myself almost 
 entirely to the study of Hebrew, and to the practice of 
 turning and telescope-making." 
 
 Such a childhood could hardly fail to lead to dis- 
 tinction in later life. Having chosen the medical pro- 
 fession, in conformity with the wish of his uncle, ])r. 
 Brocklesby, he had scarcely begun life as a jDhysiciau, 
 when, by the death of the former, he inherited a con- 
 siderable fortune. From that period his time was in a 
 great degree devoted to philosophy. In 1797 he pub- 
 lished his " Outlines and ]<]xperiments respecting Sound 
 and Light," the first of his long series of important 
 contributions to natural philosophy. Amongst his more 
 celebrated labours were his researches into hierogly- 
 phical literature and Egyptian antiquities, the results 
 (jf which were embodied in a curious work published 
 iibout forty years since. 
 
INVENTION AND DISCOVERT. 417 
 
 THE ART OF PKOTO-SCULPTUEE. 
 
 KoT only the latest, but perhaps tlie most curious an.l 
 interesting of all the applications of photogi-aplij, is that 
 by which sun portraits are made to serve the purpose of 
 the sculptor's art. This ingenious invention is due to 
 M. Villeme, an eminent French sculptor. Every occa- 
 sional visitor to sculptor's studios is aware that it has 
 long been common for the artist, while chiseUing a face, 
 to refresh his memory or guide his eye by now and then 
 glancing at a photographic portrait placed by his side ; 
 for photography, however it ma^- sometimes fail in re- 
 producing the expression of the human face, is unerring 
 in its rendering of the outline of features, with which the 
 sculptor is most concerned. Such was the practice of 
 M. Villeme ; but the difficulty of communicating to a 
 flat portrait the appearance of a solid form could not fail 
 to be felt during the process. The statue reproducing 
 the face in its complete relief gives its aspect from any 
 point of view which the spectator might choose ; the 
 photograph, en the contrary, presents nothing but the 
 particular aspect impressed by the image on the sui-face 
 of the paper. Feeling this defect, M. Villeme would 
 sometimes correct his impression of the face to be copied 
 by obtaining more than one photograph of his subject ; 
 but this was, at best, but a rough guide, because the two 
 portraits had not of course been merely taken from dif- 
 ferent points of view, but from the same subject in dif- 
 ferent positions. 
 
 E S 
 
418 INVENTION AND DISCOVERT. 
 
 Reflecting upon these facts, M. Yilleme was struck 
 by the ingenious idea that a statue in relief is, after all, 
 only a combination of all the profiles of the face or 
 figure in the same position. From this it followed, natu- 
 rally, that if he could have photographs of several 
 profiles of the sitter taken at the same moment by a 
 number of cameras placed around, he could gradually 
 change his position while at work, and correct his model 
 each time by comparison with the profile outline of each 
 model. It next occurred to him that instead of merely 
 correcting his work in this way, it was simpler to com- 
 mence at once upon the plastic material and model it 
 gradually all round, following one after the other the 
 outlines of the photographs. " Supposing," says a de- 
 scription of the process recently read by M. Claudet 
 before the British Association, " that the sculptor had 
 twenty-four photographs representing the sitter in as 
 many points of view (all taken at once), he had but to 
 turn the block of clay after every operation one twenty- 
 fourth of the base upon which it is fixed, and to cut out 
 the next profile until the block had completed its entire 
 revolution, and then the clay was transformed into a 
 perfect solid figure of the twenty-four photographs." 
 
 For the purpose of this art M. Villeme has con- 
 structed an ingenious circular chamber, in the centre 
 of which the subject to be modelled is requested to stand 
 upon a low pedestal in a natural and easy posture ; while 
 from twenty-four circular apertures in the wall of the 
 chamber provided with photographic apparatus, an equal 
 number of portraits are obtained in a few seconds. By 
 the aid of these photographs the diflBcult art of model- 
 ling a portrait is rendered easy. The least skilful in the 
 
IISVENTIOJN AND DISCOVERY. 419 
 
 art is by this process enabled to make a model of far 
 gi-eater accuracy than had before been obtainable : while 
 the cost of sculpture is greatly reduced. 
 
 HISTORY OF POSTAGE STAMPS. 
 
 As with most other modern inventions, certain writers 
 have discovered that postage stamps, or something 
 similar to them, had been thought of long ago. Accord- 
 ing to M. Fournier, the author of Le Virux JS^ezif, they 
 were actually in use in Paris in the reign of Louis XIV. 
 Ar.other French writer tells us that they originated in 
 1053. Monsieur de Velayer estal)lished under royal 
 authority a private penny post in Paris on the 16th 
 of August in that year, and issued a notice that all 
 persons desiring to send letters from one part of Paris 
 to another should have them carried, and a prompt reply 
 returned, if they attached to their letters a ticket 
 signifying that the postage rate had been paid. These 
 tickets appear to have had much in common with the 
 modern postage-stamp, for they were stamped with a 
 portrait of the king, add were to be purchased before- 
 hand at certain shops and other places. They were to 
 be charged a sou each, and the public were recom- 
 mended to buy a number, and have tliem always at 
 hand. Boxes were moreover placed at the corners of 
 streets for the reception of letters, and letter-carriers 
 were appointed to open these boxes three times a day, 
 
420 INVENTION AND DISCOVERY. 
 
 and carry the letters to their addresses, where they 
 waited for answers. The plan perhaps resembled more 
 an organized plan of light porterage than the modern 
 system of posts, but its resemblance to the latter system 
 is curious. 
 
 There can be little doubt that the originators of the 
 modern postage-stamp had never heard of Monsieur de 
 Velayer or his scheme, which indeed had long fallen 
 into oblivion even among Frenchmen. Between 1830 
 and 1834, Mr. Charles Whiting, Mr. Charles Knight, 
 and Dr. Gray had all suggested a stamped wrapper for 
 newspapers. Dr. Gray, of the British Museum, lays 
 claim to have been the first to suggest the prepayment, 
 by means of stamps, of letters. "In the year 1834," 
 he says, " the idea occurred to me that as the post- 
 age of newspapers was prepaid by means of stamps, 
 the readiest mode of applying these stamps would be 
 by means of stamped covers. On further consideration 
 of the subject, I became satisfied ' that the great cost of 
 the Post Office was not the reception, carriage, and 
 delivery of the letters, but the complicated system of 
 accounts that the old system required ; and having 
 learned from the best writers on political economy that 
 the collection of money by stamps was the most certain 
 and economical,' I came to the conclusion that the new 
 system of newspaper postage should be extended to 
 letters also. * It was, in fact, the mere application of 
 the system used with regard to newspapers, to letters in 
 general.' This idea I communicated to many of my 
 political and other friends, ]\Ir. Hume, Mr. Warburton, 
 and others, but I found that I could get no attention to 
 the subject." 
 
INVEXnOX AND DISCOVERT. 421 
 
 Even Mr. Rowland Hill, in his famous pamphlet 
 published in 183", contemplated no system of prepay- 
 ment, except by money payment at the counters of 
 receiving offices. Meanwhile the subject of prepayment 
 by stamped envelopes having been discussed before a 
 Parliamentary Committee, Mr. Hill, in a second edition 
 of his pamphlet, with characteristic decision, adopted the 
 idea, and warmly advocated its merits. A clause in the 
 Penny Postage Act accordingly foreshadowed the new 
 system, but the idea was at first merely to have a 
 stamped envelope of so elaborate a character that it 
 would almost defy the ingenuity of forgers to imitate it. 
 On the 23rd of August, 1839, the Government issued a 
 public invitation to "artists, men of science,'" and others, 
 to send in designs for this purpose, offering two prizes 
 of£''200 and £100 to stimulate invention. As is well 
 known, Mr. Mulready, the famous artist, was the suc- 
 cessful competitor, — his envelope, representing a highly 
 elaboi-ate allegorical picture of considerable artistic 
 merit, though absui'dly fantastic as a vehicle for ordinar}-- 
 letters, while the picture, spreading over the surface, 
 left scarcely room for writing the address. So much 
 ridicule was showered upon the new envelope, that in a 
 short time it fell into disuse, and copies of it are now, 
 as all collectors know, comparatively rare. 
 
 The Government now offered another reward of 
 £500 for the best design for a new label, the invention 
 of which may be supposed to have been not so simpb a 
 thing as it appears, when we leani that, of the designs 
 — numbering nearly one thousand — sent in, not one was 
 chosen. The now fjimiliar Queen's-head which was 
 finally chosen, was said to be the production of officers 
 
422 INVENTION AND DISCOVERT. 
 
 in the Post and Stamp offices ; hut as originally printed 
 in black ink, its appearance was far from pleasing. The 
 black stamp was soon afterwards changed to brown, and 
 finally to the red now so well known. The great 
 varieties in colour since introduced to indicate to the 
 eye the different values of the staraps, are too well 
 known to require mention. " For eight long years," 
 says Mr. Lewins, " the English people may be said to 
 have enjoyed a complete monopoly in postage-stamps. 
 Towards the close of 1848 they were introduced into 
 France, and subsequently into every civilized nation in 
 the world. Last year they even penetrated into the 
 Ottoman Empire, and, strange as it appears when 
 viewed in the light of Mohammedan usage, the Sultan 
 has been prevailed on to allow his portrait to appear on 
 the new issues of Tui'kish stamps." 
 
 Simple and obvious as it now appears, one of the 
 most important inventions in connection with postage- 
 stamps is the perforating machine. Most persons can 
 remember when every post receiving-house kept a pair 
 of scissors, clumsily fastened to a counter with a heavy 
 chain, at which a little file of persons could generally be 
 seen waiting for their turn to cut off a stamp with four 
 careful strokes of that necessary implement ; but the 
 number of persons who, not having a pair of scissors at 
 hand, were striving to tear or cut off with a pen-knife 
 one Queen's-head from a strip or sheet, could not so 
 easily be ascertained. The machine, which was the 
 invention of Mr. Henry Archer, at once put an end to 
 all these petty troubles. By the simple process of 
 stamping every sheet with neat lines of perforation, not 
 only could every one keep his postage-stamps together, 
 
IKVENTIOX AND DISCOVERY. 423 
 
 and tear them off when wanted, but he could also fold 
 them together with the utmost neatness to put them away 
 in a purse or pocket-book. On the recommendation of 
 a Select Committee of the House of Commons this 
 machine was purchased from Mr. Archer in 1852 for 
 four thousand pounds. 
 
 COL. PASLEY AND THE WRECK OF THE « KOT.iL 
 GEORGE." 
 
 Fob more than half a century the wreck of tlie " Royal 
 George," sunk at Spithead in 1782, with all her g-uus, 
 stores, and crew, had baffled all attempts to raise or re- 
 move it, when in 1830 Col. Pasley undertook the task of 
 blowing it up with gunpowder, a plan hitherto unknown 
 in such operations. The story of this famous wreck has 
 long been familiar to readers, and is immortalized by 
 Cowper's pathetic ballad, but the chief facts may be re- 
 capitulated here. 
 
 The " Royal George " had long been an object of 
 pride, not only to the navy, but to the English public. 
 She was the oldest first-rate in the service. She carried 
 108 guns, and it was said had borne more Admirals' 
 flags than any other ship in the British navy. Anson, 
 Boscawen, Rodney, Howe, and other great admirals, had 
 successively commanded her. Aboard this vessel Lord 
 Hawke led the squadron which defeated the French under 
 Conflans, when the " Superbe," of seventy guns, was 
 sunk by her brass cannon, and the " Soleil Royal," of 
 
424 INVENTION AND DISCOVERT. 
 
 sixty-four guns, v?as driven on shore and Iburnt. She 
 carried the tallest masts and the squarest canvas of any 
 English built man-of-'\var, and had originally the heaviest 
 metal. Altogether the " Royal George " may have been 
 considered as the embodiment of the naval glory of 
 England then at its height. At the period of her disas- 
 terous end she had just returned from a cruise off Spit- 
 head, whore Lord Howe's fleet of between thirty and 
 forty sail of the line, many frigates, and two or three 
 hundred merchant vessels were riding at anchor. It was 
 on the 28tli of August, 1782, as she lay here quietly 
 surrounded by the "Victory," the " Barfleur," the 
 " Ocean," and the " Union," all three deckers, that the 
 carpenter discovered that the pipe which admitted the 
 water to cleanse the ship, was out of repair. As the 
 orifice of this pipe was about three feet below the sur- 
 face of the water, it Avas necessary to heel the vessel 
 slightly over, so that the pipe could be raised and exa- 
 mined. This simple operation, which had frequently 
 been performed in the navy with impunity, was the 
 chief cause of the terrible disaster which followed. To 
 accomplish it the guns on the larboard side of the ship 
 were run out of the portholes as far as they could go, 
 and those on the starboard side removed to the middle 
 of the decks. This brought the port-hole sills of the 
 vessel on the lower side nearly even with the water. 
 Unfortunately a lighter, laden with rum, soon afterwards 
 arrived, and placed her cargo aboard on the lower side. 
 This with the additional weight of the men caused the 
 water to enter at the ports, but so gradually that it was 
 long before any one perceived the danger 
 
 The carpenter was the first to observe the progress 
 
INVENTION AND DISCOVERY. 425 
 
 made by the water. He immediately repaired to the 
 upper deck, and requested the lieutenant of the watch to 
 order the ship to be riohted. This officer, however, an 
 obstinate man, made light of the dangei'. Meanwhile 
 the smiths and braziers had almost completed their 
 work, when a sudden breeze blew upon her raised side, 
 forcing her still further down, while the water began to 
 rush with terrible force into her ports. The lieutenant 
 of the watch now ordered the drum to beat to right the 
 ship — but too late. As the vessel heeled over, guns, 
 shots, and everything moveable rolled with it to the 
 lower side, and accelerated her descent, and the enor- 
 mous vessel fell on her broadside flat with all her masts 
 in the water. Then was seen a confused multitude of 
 men and women scrambling to the side still left out of 
 the water, and uttering heart-rending lamentation. So 
 sudden was the accident from the time it had become 
 sufficiently alarming to arouse general attention, that 
 scarcely any succour could be rendered even by tho 
 multitude of vessels which lay at anchor near. Signals 
 of distress were fired for help from Spithead, but the 
 unfortunate vessel finally sank. Of the twelve hundred 
 persons on board, including two hundred and fifty 
 women and children belonging to the seamen, nearly 
 nine hundred perished. The rest escaped by mounting 
 to the rigging or clinging to floating timber. With 
 those lost was Admiral Kempenfeldt, who at the moment 
 of the occurrence was writing in his cabin, whence his 
 captain had in vain endeavoured to extricate him. 
 Among the numerous affecting episodes of this historical 
 shipwreck was the saving of a little child who was 
 miraculoi •"/ prebcrved by holding on to the fleece of a 
 
4J6 INVENTION AND DISCOVERY. 
 
 sheep, -which swam in the water, where the child was 
 picked up by a gentleman in a boat. Both the father 
 and mother of the child had perished, and the gentle- 
 man who rescued him humanely unrlertook to provide 
 for him. 
 
 The shock of this terrible calamity was long remem- 
 bered in England ; and at many a winter's fireside those 
 who had been saved from the perils of that day, or had 
 been spectators of the scene, must have drawn little 
 children and grown people about them to tell that dole- 
 ful tale. Meanwhile plans had been submitted to the 
 Admiralty for raising the wreck, which was dangerous 
 to the navigation. An ingenious and enterprising man. 
 named Tracey, residing at Portsea, was authorized to 
 undertake the task, which he commenced in 1783. His 
 plan was to pass sling cables round the lower part of the 
 hull of the wreck, making them fast to huge lighters 
 and other vessels, which as the tide rose were expected 
 to raise the wreck. After long and laborious attempts, 
 in which he succeeded in slightly raising the sunken 
 mass, Tracey was finally compelled to abandon the 
 work, having ruined himself by the expense to which he 
 had been put. Twenty-three years later Mr. Ancell, of 
 the Dockyard, Portsmouth, descended on to the wreck 
 in a diving machine, and reported that it had a beauti- 
 ful appearance, being covered with small weeds " inter- 
 spersed with shells, star-fish, and a species of the poly- 
 pus lying on a grey sediment about an eighth of an inch 
 thick." Mr. Ancell also reported that the state of the 
 ship precluded the possibility of its removal either to- 
 gether or in detached parts ; but in this, as subsequent 
 events prove, he was mistaken. 
 
INVENTION AND DISCOVERT. 427 
 
 In the year 1P34, Mr. Dean, an engineer, with the 
 authorit)- of the Government, descended by means of a 
 ladder to the wreck, being attired in an apparatus of 
 his own invention, wliich has since become better known 
 to the pubh'c. His dress was described in the journals 
 of the time as " composed of india-rubber, made per- 
 fectly water-tight, having a helmet of metal on his head 
 extending to his shoulders, large enough to allow him to 
 turn his head round at pleasure, having three glass 
 lenses to admit the light, and a tube of the same flexible 
 material on the top to supply air bj^ means of an air- 
 pump, worked by men in attendance above." This in- 
 genious dress has since been successfully employed in 
 numbei'less undertakings of the kind, and in spite of 
 some fatal accidents, has been proved when carefully 
 used to be comparatively safe. Mr. Dean found the 
 unfortunate vessel a huge mass of old timber, stores, 
 and materials mixed with mud, clay, and sand. In his 
 dress, though he had attached to him nearly ninety 
 pounds weight to make him sink, he easily walked about 
 the ruins of the ship, using his hatchet freely, and re- 
 maining down more than an hour each time. In this 
 way he succeeded in recovering a number of valuable 
 brass and iron guns in a high state of preservation, be- 
 sides a number of interesting articles of less import- 
 ance. 
 
 No further attempts were made to remove any 
 portion of the "Royal George" until 1839, when it 
 occurred to the ingenious mind of Col. Pasley that gun- 
 powder, so commonly applied by miners in blowing up 
 solid rocks as well as in military operations, might be 
 successfully employed for the purpose of breaking up 
 
428 INVENTION AND DISCOVERY. 
 
 tVe wreck, by Avhich some of its valuables might be reco- 
 vered, while a dangerous obstruction would be removed. 
 Objections were long urged that a partial removal of the 
 wreck might be more damaging to the roadstead than 
 the remains of the vessel in their then state, by scatter- 
 ing portions of her timber ; but Col. Pasley having 
 experimented in the blowing up of a small vessel sunk 
 in the Thames, these fears were removed, and in August, 
 1839, he began his operations. Two divers and two 
 sets of workmen were employed in different lighters 
 moored near enough to be within hail. The divers were 
 attired in ]\fr. Dean's apparatus. The first experiment 
 proved a failure, owing to an accident in the cylinders 
 and other causes. Other huge cylinders filled Avith gun- 
 powder were then sunk, and on the 29th of August, the 
 anniversary of the sinking of the " Royal George," five 
 small charges were exploded. The explosions were 
 effected by the fusees invented by the ingenious Beck- 
 ford, being fired by the wires of the voltaic battery — an 
 entirely new application of that wonderful instrument. 
 On the 23rd of September a large cylinder, charged with 
 2400 pounds of gunpowder, was lowered and carefully 
 placed by the divers, and all being ready. Col. Pasley 
 directed it to be fired. Instantly, before the eyes of 
 thousands of spectators from Portsmouth and. the Isle 
 of Wight, a kind of water spout of immense magnitude 
 was seen to rise into the air, and the surface of the 
 water was found strewed with pieces of the wreck as 
 well as with large fish which had been stunned by the 
 shock. In this and the following year numerous cylin- 
 ders of a similar kind were sunk and fired, the divers 
 each time reporting successful results, while gradually 
 
INVENTION AKD DISCOVERT. 429 
 
 the guns and other valuable articles were recovered. 
 Tlic list of some of these is curious. Seven pieces of 
 brass cannon brought up were valued, as old metal, at 
 upwards of £1300. A piece of red sealing-wax, and 
 the handle of a penknife, found near the stern, are 
 supposed to have belonged to tlie unfortunate Kempen- 
 feldt. Some chinaware in perfect preservation, and 
 several dozen of wine— the contents of which we are 
 told were anything butpalateable— are also in the list. 
 Articles of a more mournful interest were also among 
 these curious relics. Of these were the remains of a 
 woman's gipsy hat of the style of 1782, composed of 
 chip, covered with silk, and trimmed with gauze ; the 
 crown of this was gone, but in other respects, e\Mn to 
 the head lining, it was complete. Some weeks after 
 this hat was brought up, the hoods and collars of two 
 silk cloaks were found— one of woman's size, trimmed 
 with lace, the other (evidently that of a child) without 
 trimming. These cloaks being interwoven, it was 
 thought probable that their wearers, perhaps a mother 
 and daughter, had perished at the same moment in each 
 other arms. With these came torn fragments of cloth- 
 incr, such as arms and breasts of jackets, coats, silk 
 handkerchiefs, shoes, shoe-buckles, skulls, human bones, 
 surgeon's instruments, old quadrants, a pair of black 
 satin breeches, and a large satin waistcoat with flaps, of 
 which the satin was perfect, although the lining was 
 entirely gone. Finally came an interesting relic of the 
 great shipwreck, being one of the identical pipes with 
 the brass work attached to it, in perfect condition, the 
 repairing of which had led to all the disasters of that 
 fatal day. 
 
430 INVENTION AND DISCOVERT^ 
 
 MR. DIRCKS' OPTICAT. ILLUSIONS. 
 
 It will, no doubt, be quoted hereafter as an evidence of 
 the practical tendencies of our age, that an ingenious 
 gentleman has lately not only invented a ghost of a far 
 more effective character than any described in the old ro- 
 mances, but has recently actually patented his invention, 
 and rendered it the subject of formal legal proceedings in 
 the Court of Chancery. This gentleman is Mr. Henry 
 Dircks, a civil engineer, and author of a " History of 
 the Search for Perpetual Motion." Like other inventors, 
 Mr, Dircks has been harassed by denials of his claims 
 to originality, and by attempts to prove that his curious 
 spectral illusion was well known to our forefathers ; but 
 it is undoubtedly true that, until he first surpi'ised and 
 delighted young folks at a popular institution in London 
 with representations of his shadowy personages, managers 
 of theatrical exhibitions were contented to represent these 
 things by contrivances so rude, that it was difficult for 
 the simplest spectator to feel even a momentary faith in 
 the spectral forms before him. 
 
 The secret of this amusing optical illusion, with 
 which so many persons are now familiar, lies in the 
 use of a transparent mirror. Some twenty years since, 
 Mr. Dircks invented what he calls " a plane mirror of 
 unsilvered glass," but finding no practical utility in the 
 contrivance, he soon laid it aside. " It happened," he 
 says in his statement on this subject, published in 1863, 
 " that, withia the last two years, I accidentally observed 
 
IXVEN'TION AND DISCOVERY. 4-.\^ 
 
 a solid body in a peculiar situation, bv -n-hicli it -was 
 appai'ently rendered transparent. It was, in short, an 
 eflect illustrated by my plain, unsilvered-glass miiTor in 
 its principle. I immediately saw that, by means of this 
 combination, the singular appearance could be produced 
 of getting behind a mirror, and communicating with its 
 shadows. Here, then, a means was at once at hand for 
 producing the best possible illustrations of all descrip- 
 tions of spectral phenomena." 
 
 For obtaining the effect, the inventor arranged an 
 oblong chamber into two equal portions, making the 
 sepai-ation between the two by means of a sheet of thin 
 gla.ss, having a perfectly true surface. By placing the 
 living actor on a sunken stage below the spectators, and 
 between them, and the glass, and, by nicely arranaring 
 the angle of light, a complete image of him is thro\vn 
 forward, apparently as far beyond the glass screen as he 
 is distant from the front of it. The principle may bo 
 seen in the reflections of fires and illuminated objects, 
 which are often noticed in the windows of a room bj- 
 persons within, which reflections always appear to be 
 outside the apartment ; but the result of the apparatus 
 described is to give the reflection a marvellous reality, 
 which is only broken when some solid object is passed 
 through the shadowy one, or when the latter, by a turn 
 of the machinery, rs made slowly to dissolve into air. 
 
 This simple but beautiful discovery in what has 
 been happily termed " natural magic," forms an impor- 
 tant addition to our stock of indoor amusements ; but, 
 unfortunately, the apparatus required for its effective 
 performance is more costly than that of its popular fore- 
 runner, the well-known magic-lantern. 
 
432 INVENTION AND DISCOVERY. 
 
 THE DISCOVEEER OF WATER-GLASS. 
 
 One of the prettiest, as well as one of the most useful 
 of recent discoveries in the arts, is that of w^ater-glass, 
 sometimes called soluble glass, for which we are indebted 
 to the late Dr. Johann Faclis, formerly Professor of 
 Mineralogy in the University of Munich. Fuchs was a 
 man of simple studious habits, who prosecuted his 
 researches with patient industry in spite of the indif- 
 ference, and even of the injustice, which lie met with 
 from his contemporaries. It was in the year 1825 that 
 he announced in " Kastner's Archio," a well known 
 German work, the principle of this discovery, and 
 pointed out some of the important uses to which it 
 might be applied ; but scientific men of the day paid 
 little attention to his ideas. In a pathetic narrative of 
 these circumstances, Fuchs tells us that he was even 
 told that his discovery differed in no respect from the 
 well known liquor silicum, or water of flints, adding, 
 *' Experiments were made but abandoned as soon as 
 they were found not to lead to satisfactory results, 
 undertaken as they were without the necessary know- 
 ledge or understanding. Greater expectations were 
 raised than could in the nature of things be satisfied, and 
 failure, owing perhaps to faulty manipulation, frequently 
 caused the process to be abandoned before it had been 
 put to a fair test." 
 
 Fuchs had attained an advanced age before he was 
 fortunate enough to find the utility of his discovery 
 generally acknowledged. Shortly before his death, 
 
INVENTIOX AXD DISCOVERT. 433 
 
 which took place in 185G, he published a pamphlet, in 
 which he minutely described the principles as well as 
 many of the applications of water-glass, " in order," as 
 he said, " to render the experience gained by myself 
 and others available for further investigations." In 
 this pamphlet — notwithstanding the ungrateful treat- 
 ment he had received from the world — Fuchs generously 
 made public all that was necessary to be known for 
 giving utility to his discoveries, while giving expression, 
 though with no bitterness, to the disappointment which 
 he felt at the cold reception which had been accorded 
 to him. But he acknowledges with satisfaction, that 
 " a few years have changed much, and it has been 
 thought since that water-glass, after all, did not belong 
 to the class of superfluous things, but that few other 
 bodies were capable of being put to so many and suclj 
 various uses." 
 
 This remark of the worthy inventor has been fully 
 justitied by the progress Avhich the use of water-glass 
 has made of late years; but it is probable that an 
 infinite variety of applications have yet to be discovered. 
 It has been used in painting on glass. "Wood and other 
 substances are rendered less combustible by it. One of 
 the earliest of the practical adopters of the discovery was 
 a glass-maker in Germany, Avho, it is stated, varnished 
 the wooden roof-blocks of an entire village with water- 
 glass upwards of thirty years since to protect them from 
 fire. Theatrical dresses and scenes may also be rendered 
 more safe by these means. Old paintings on panels, on 
 being protected by water-glass, have beea found to 
 stand intense heat or numerous washings without 
 injury. An indelible ink has been made by grinding 
 
434 INVENTION AND DISCOVERY. 
 
 carbon with it. In calico printing it has been fpund of 
 the highest utility in fixing the colours, but perhaps the 
 best known of its applications is that of protecting 
 building stone from decay, which has been recently tried 
 on the Cathedral of Notre Dame, the new Houses of 
 Parliament at Westminster, and other buildings. 
 
 While Dr. Fuchs and another ingenious German, 
 Professor Kuhlmann, were successfully pursuing their 
 researches in this field, our own countryman, Mr. F. 
 Ransome, of Ipswich, had by independent investigations 
 discovered a method of dissolving pounded flints in a 
 solution of caustic alkali, which is similar in its results 
 to Dr. Fuchs' discovery. Mr. Ransome's water-glass 
 has been successfully applied to the preservation of the 
 surface of stone-work in a great number of public 
 buildings. 
 
 ME. GOLDSCHMIDT, THE PLANET-FINDEE. 
 
 The inexhaustible nature of scientific discovery could 
 not be better exemplified than by the fact that, even 
 after the researches of Herschel, Piazzi, Leverrier, 
 Adams, and others, it was reserved for an amateur astro- 
 nomer to discover eleven minor planets, for which im- 
 portant contribution to our knowledge of the heavenly 
 bodies, the Royal Astronomical Society awarded in 1861 
 their gold medal. This was Mr. Hermann Goldschmidt, a 
 young Frenchman. The Rev. R. Main, the president of 
 that Society, in a recent address, has given the following 
 
INTEXTION AND DISCOVERT. 435 
 
 interesting sketch of the astronomical labours of Gold- 
 schmidt. " Lutetia," says Mr. Main, " the first ylanet 
 discovered by him, is estimated at the 9 — 10 magnitude, 
 a size which we probably should not have thought of 
 looking for with any object-glass of less than four or 
 five inches, and this he discovered with a telescope of 
 hardly two inches aperture — such a one, in fact, as you 
 see frequently used at watering-places for looking at 
 ships and other objects. This telescope was one of 
 which the young astronomer might well be proud. This, 
 or a smaller one of one and a half inches aperture which 
 it replaced, was purchased with the proceeds of the sale 
 of a copy of a portrait of Galileo, which he had painted 
 at Florence. Never, perhaps, were such great results 
 accomplished by such small means ; and if this be, as is 
 generally supposed, an attribute of genius, Mr. Gold- 
 schmidt may fairly claim the admiration which is due 
 to it. A telescope of two inches aperture placed in the 
 window of a garret forming the sleeping apartment of 
 the astronomer, is made, by judicious handling and 
 severe scrutiny of the Berlin star-maps, to discover one 
 of a class of objects which it taxes to the utmost the 
 astronomers of Greenwich to observe, when it is found 
 with the great transit circle. By the practice of a 
 most rigid economy, Mr. Goldschmidt became able to 
 purchase another telescope, an improvement on the 
 preceding, having an aperture of two and a half inches, 
 and even with such an apparently inadequate instru- 
 ment he discovered four more planets. Subsequently, 
 obtaining a telescope of four inches aperture, he dis- 
 covered eight other planets. None of his telescopes 
 were mounted equatorially, but in the greater number 
 
43G INVENTION AND DISCOVERT. 
 
 of instances they were pointed out of a -window which 
 did not command the whole of the sky. 
 
 It was by a singular accident during Goldschmidt's 
 search for the planet Daphne, that he was led to the 
 discovery of another new planet. Soon after his dis- 
 covery of Daphne, a long continuance of unfavourable 
 weather compelled him to suspend his observations 
 before he had been able to complete his calculation 
 of its orbit. The new planet was therefore lost, and 
 its discoverer compelled to commence his search for 
 it again. After more than twelve months of patient 
 labour, he succeeded, as he believed, in this object ; but 
 in this belief he was subsequently proved to have 
 been mistaken. In fact, the planet which he believed 
 to be the long-lost Daphne was not Daphne at all ; 
 but another planet hitherto altogether unknown to as- 
 tronomers. This planet, in reference to this original 
 error of its discoverer, received the name of Pseudo- 
 Daphne. The rapidity with which new planets have 
 recently been discovered is astonishing. At the com- 
 mencement of the present century only seven were 
 known to astronomers, six of which had been known 
 to the ancients. At present the planets discovered 
 number no less than eighty. 
 
 MICEOSCOPIC WRITING AND ENGRAVING. 
 
 Among the Assyrians the common mode of keeping 
 records of national and historical events was by stamping 
 the words upon bricks, tiles, or cylinders of clay, baked 
 
DTVTXTION ASD DISCOVERT. 437 
 
 after the inscription was impressed. Mr. Layard, in 
 the course of his excavations at Xineveb, found luany 
 specimens of these records, most of which, were written 
 in such minute characters that the aid of a microscope 
 was required to ascertain their forms. How letters so 
 small were produced at tliis period is not known, but 
 the means employed for reading them was probably the 
 common magnifying lens. One such instrument, rudely 
 made of rock crystal, was found by Mr. Layard among 
 the ruins of the palace of Nimroud. 
 
 It is interesting to conti-ast these ancient relics with 
 the wonderful microscopic writing, printing, and en- 
 graving of our days, for which we are indebted to Mr. 
 Peters' microscopic pentagraph, and to the similar instru- 
 ment of ^Ir. Webb, which he designates the micrograph — 
 a modification of Mr. Peters' invention. The results 
 of the employment of these instruments are so mar- 
 vellous, that few who have not examined specimens 
 of their work could conceive their possibility. In 
 a space, looking to the eye like a minute dot, being in 
 fact only the oo6,000tli part of a square inch, Mr, Peters 
 has succeeded in writing the whole of the Lord's Prayer 
 in a character which, under the microscope, becomes 
 beautifully clear and legible. The Lord's Prayer, ending 
 with " Deliver us from evil," contains exactly 223 let- 
 ters ; and hence it has been calculated that the entire 
 Bible might in this way be written in less than the 
 twenty-second part of a square inch. In using the 
 machine, the operator first writes with a pencil attached 
 to one end of a long lever; and the marks thus made 
 are infinitesimally reduced in corresponding motions, by 
 which a glass plate is moved over a minute diamond point. 
 
438 INVENTION AND DISCOVERY. 
 
 This beautiful illustration of microscopic art has 
 also been successfully applied to the delicate process of 
 engraving and printing from copper plates. Among 
 the chief difficulties of the inventors was that of finding 
 an ink w^hich could deliver impressions from such ex- 
 ceedingly minute engraved lines on copper. Some of the 
 letters engraved are stated to measure only the half- 
 millionth part of an inch. Numerous applications of the 
 art of microscopic writing have been devised. Among 
 the most popular of these is perhaps the invisible address 
 card. A Lilliputian glazed card is presented, without the 
 slightest trace to the eye of any inscription. A strong 
 pocket lens, of infinitely greater power than that rude in- 
 strument found by Mr, Layard among the ruins of the 
 Assyrian palace, shows when applied to such a card, 
 only two faint and delicate lines impossible to be de- 
 ciphered ; but the microscope at once brings out a 
 name and address in elegantly-formed letters, perfectly 
 distinct. 
 
 " .CK- 
 
IXDEX. 
 
 Aoucs, Mr., acd the planet Neptune, 
 405. 
 
 Adipocire, discovery of, 234. 
 
 Aeronauts, e.trly, 133. 
 
 Albert, Prince, and gon^ottOD, 257. 
 
 Aiiierson, Baron, aud George Stephen- 
 BOU, 10. 
 
 Arihimedes, the first "screw" steam- 
 s(up. 411. 
 
 Arcana's Ump, 263. 
 
 Arawrieht, Sir Bichard, wife of, de- 
 sa-oying his models, 3 ; the subterra- 
 nean barber, 3 ; his first machine, 5 ; 
 ant cdote of, and Mr. Strait, 29. 
 
 Arnold, the w .tchmaker, 99. 
 
 Amott, Dr., inventor of the ear- 
 tnimpet, i'6, and the water-bed, 402. 
 
 Atlantic cable, laving of the, 193. 
 
 Atlantic p.ate:*u, survey of the, 221. 
 
 Aurora borealis and the telegraph, 139. 
 
 Sxiajooh romance, a, 374. 
 
 Banks, Sir J., labours of, 259. 
 
 Barker, B.. and panoramas, 211. 
 
 Bell, Mr., and the "Comet' steamboat, 
 166. 
 
 Bell, Jir C. the physiolota'^t, 199. 
 
 Bentbam, Sir S., labours of. 310. 
 
 Bertbuilet, and espiosive compounds, 
 331. 
 
 Bewick, and the restoration of wood- 
 engravlng, 270. 
 
 Bidder, G ., the wonderful calculator, 347. 
 
 Blanch.ini's parachute, 178. 
 
 BUnd, inventor of printing: for, 39. 
 
 Boullon, Mr., of Birmingham, 88. 
 
 Boy ana the steam-engine, 27. 
 
 BregTiet. the watchmaker, 99. 
 
 Brunei's prophecy, 25; his ready wit, 
 147; hi? quici decision, 105; his 
 recreations, 172 ; and Maudtlay's cast- 
 iron roof, 2i5 ; construction of Thames 
 Tunnel, 236; the ta^or and, 3'^; 
 and the beiiging impostor, 304. 
 
 Buckland. Dr., and the builders, 28; 
 the horse of, 149. 
 
 Burning waste of Clackmannan, extinc- 
 tionofthe, 369. 
 
 CitcrtATOBS, wonderful, 347. 
 Califomian guld. discoverer of, 221. 
 Carcel's lamp. 264. 
 Cartwright, Dr., and the power loom, 
 
 185. 
 Cast iron, oriein of our, 97. 
 Civendish, Hon. H., eccentricities of, 
 
 247. 
 Charlotte Dundas, the first steamboat, 
 
 164. 
 Chevallier, the engineer, 331. 
 Chloroform and its forerunners, 335. 
 Ct>cking, Mr., death of, 179. 
 Coleridge and the letter, 392. 
 C li.iur-blindness and John Dalton, S77. 
 Coit, Col., his revolvers, 124. 
 Comet, the, first passenger steamboat, 
 
 166. 
 Connector, joined ship, the, 312. 
 Cotton industry in Lancashire, origin 
 
 of, 2. 
 Cotton spinnmg, old prejudices 
 
 aeainst, 52. 
 C.itton balls, machine for making, 173. 
 Crime an J the telegraph, 275. 
 Crompton, Samuel, and the spies, 112 ; 
 
 h;s invention of "the muie," 112. 
 Cross-bows, repeating, 345. 
 Cuvier and the (ossil-foot, 8. 
 Cuvier's change of name, 203. 
 
 DAGrERBE. the improrer of photo- 
 graphy, 309. 
 
 Dalton and colour-blindness, 377. 
 
 Daphne, the planet, 435. 
 
 Darby, Abraham, and origin of cast 
 iron, 97. 
 
 Davy, Sir Humphry, his early attempts 
 at' photography, 30 : taught br a chOd, 
 54;at]d the Aberdeen professor, 64 ; 
 experiments of, with laughing gas, 
 76; his safety lamp, 118; and the 
 
440 
 
 INDEX. 
 
 street showman, 120; his kindness to 
 
 Faraday, 219. 
 Dean, Mr., and the diving dress, 427. 
 De Cans, Salomon, fietion ot, b?. 
 Detector clock, the, 352. 
 Dircks, Mr., his optical illusions, -130. 
 Diving dress, invention of, 4-7. 
 Doiid, George, and early steamboats, 
 
 167. 
 Dolls' eyes, secret of making, 110. 
 Duke and the inventor, 93. 
 
 EAK-TBrsipi'T, the, 95. 
 
 Earthquakes, recent discoveries about, 
 
 266. 
 Eccentricities of Hon. H. CaTendi.-h,247. 
 Eddystone lighthouse, aneCLlotes of, 3.Ji. 
 Electric light, anecdote of the, 277. 
 Electric telegraph (see Telegraph). 
 Electro-mapnet, the, 373. 
 Electro-metallurgy, discoverers of, 366. 
 Erard, Sebastian, and the pianoforte, 245. 
 Evans, Oliver, and hissteain vrajigons, 20. 
 Explosive conipounds, two inventors 
 
 of, 331. 
 
 riK4DAY's first patron, 219. 
 Fiction of Salomon de Cans, 37. 
 Fire, schemes for extinguisLiing, 142. 
 Five guineas for a new planet, £9. 
 Flakefield's linen handkerchief, 31. 
 Foley the fiildler, 175. 
 Fuchs, Dr.,uiscovererof water elasi',4'^2. 
 Fulton, the American inventor, 2U5 ; Em- 
 peror Napoleon and, 2(J9. 
 
 Gall, J., and books for the blind, 42. 
 Galvani and the frog, 159. 
 Ga/rnerin's parachute, 178. 
 Garnerin and the Emperor Napoleon, 
 
 374. 377. 
 Gas lighting, vicissitudes of, 410. 
 Geologi-t and his horse, 149. 
 George I II., and the burning house, 142. 
 George IV. and Mr. 'Jriinel, 14S. 
 Ghost, Mr. Dircks, so called, -i30. 
 Gibbons, Dr., and introduction of 
 
 mahogany, 280. 
 Gold in California, discoverer of, 224. 
 Goldschmidt, Mr., the planet tinder, 434. 
 Guillie, Dr., and printing for the blind, 
 
 41. 
 Guinand des Brenets, and optical 
 
 glass, 154. 
 GuD-cotton, 257. 
 Onrney, Mr. Goldsworthy, and the 
 
 burning waste ot Clackmannan, 309. 
 Gutta percha, introduction of, 125. 
 
 Habgrkavks, J., and the spinning 
 jenny, li2. 
 
 Hartley's plan for extinguishing fire,142. 
 Hauy, Mr., inventor of printing for the 
 
 blind, 39. 
 Hedley, William, the constructor of the 
 
 lirst locomotive on rails, Jt'utHng 
 
 Billy, 21. 
 Hersciiel, Sir W., first and last tele- 
 scopes of, 55 ; his early struggles, 55 ; 
 
 and his housekeeper. 59. 
 Herschel, Miss, sister oi the astrono- 
 
 mer, 57. 
 Herschel family, 58. 
 
 Hick, Mr., and the screv* propiller, 409. 
 Hifhwuys, Macadam's, 334. 
 Hill, Sir R., and the I'ost-office, 391. 
 Hornor, Thomas, and panoramas, 211, 
 Hotpresser of paper, the first, 23. 
 Howe, Elias, and the sewinj; machine, 
 
 114. 
 Huggins, Mr., and the spectrum 
 
 analysis, 361. 
 Huntsman, Benjamin, and the process 
 
 of making cast steel, 35. 
 Iluskisson, Mr., death of, 292. 
 
 Impracticable inventors, 90. 
 Impromptu, invention, an, 29. 
 Ingenuity in a new channel, 303. 
 Insect trap, an unintended, 277. 
 Invention, the true moth' r of, 1. 
 Inventions, popultr notions of, 81. 
 Inventor, a terrible, 205. 
 Inventors, impracticable, 90. 
 Iron, rusted, value of, 137. 
 
 Jacksox, Pr., experiments of, in 
 
 eihi-iization, 340. 
 Jacobi, Ur., and electrn-metallurgy, 368. 
 Jenner and vaccination, 129. 
 Jointed ship, the, 312. 
 
 K*T, John, and the shuttle, 60. 
 Knobs and points, war of the, 13. 
 
 Lamps and their inventors, 263. 
 
 Laughing gas, Davy and, 76. 
 
 Laurillard, Cuvier's secretary, 9. 
 
 Lavoisier, the end of, 198. 
 
 Lee, Eev. W., the legend of the stock- 
 ing frame, 43. 
 
 Legend ot the telescope, the, SOS. 
 
 Lecr;ind and the Paris corn exchange, 
 150. 
 
 Leiik, Baron, and gnn-cotton, 258. 
 
 Leverrier and the planet Neptune, 405. 
 
 Lightnmg conductors, controversy on, 
 13. 
 
 I/th^grnnhv. inventor of, 2-<>. 
 
 LiL'ht house, anecdote of the liddy stone, 
 ■dil. 
 
IXDEX. 
 
 441 
 
 Locomotive, first victim of the, 290. 
 Locomotives, eailiesl trial of, 'iO. 
 
 Macaium's improvements of highways, 
 
 a.H. 
 Mnh t,'"'.*'. introduction of, 230. 
 >lail ooacnea, first, MO. 
 Malipts, K., discoveries about earth- 
 
 qilakeD, 25lj. 
 Margate »ie iiuboat, the first, 81. 
 Marstiall, Mr., and the discovery of gold 
 
 in CalUornia, 2".'6. 
 Matches, the history of, 74. 
 Maudshiy, 11., iind Mr. Nasmyth, the 
 
 iovi'utor of I he stcHin hatunier, 355. 
 McCorinioks reapiiif; machine, 363. 
 Mech inical spies, 351. 
 Merthyr iydvil tramway, 20. 
 Metcalf, J., the biind road-maker, 396. 
 Metius, J., and the telescope, 30S. 
 Micrograph, the, -137. 
 Microscopic writing and engraving, 436. 
 Miller, Prof., and the spectrum ana- 
 lysis, 3H2. 
 Miller, Mr., of Dalswinton, and the first 
 
 steamboats, 161. 
 Miners, the Cornish, and the engine, 
 
 92. 
 Montague, Lady Mary 'Wortley, and 
 
 vaccination, 129. 
 Montgoltier balloon, the, 133. 
 Mor.^e, Mr., and the electro-magnet, 
 
 373. 
 Murdoch, W., and his inventions, 251. 
 
 2<'aii, making, introduction of splitting 
 mills in, 175. 
 
 Napoleon und Fulton, the inventor, 
 2U9 ; and the balloon, 376. 
 
 Kasmytb, Mr., and the steam hammer, 
 352. 
 
 Neptune, the discovery of the planet, 
 401. 
 
 Niepce, Joseph, discoverer of photo- 
 graphy, 296. 
 
 Optical glass, struggles of, 151. 
 Optical illusions of Mr. Dircks, 430, 
 
 P*i.MB3, J., and first mail coaches, 330. 
 
 Panoramas, 2l\. 
 
 Psper-haiigings, history of, 170. 
 
 Parachutes, beginning and end of, 177. 
 
 Parsley Peel, 65. 
 
 Poi-ley, Col., andthe wreck of the "lioyal 
 
 George, " 423. 
 Paul Lewis, inventor of spinning bv 
 
 r..ller8, 61. 
 Peel, the first Sir Robert, and Samuel 
 
 Crimipton, 12. 
 Peel, Parsley, 65. 
 
 Pcntagraph, the, 137. 
 
 Ptrcussion caps, inventor of, 93. 
 
 Peters, Mr., and microscopic writing, 
 437. 
 
 Petroleum, discovery of, 305. 
 
 Phillips, Mr., und the fire annihilator, 
 143. 
 
 Philosopher taught by the child, 51. 
 
 Philo30,)her's chiinge of nime, a, 203. 
 
 Photographers, the first, 30. 
 
 Photograihy, di^cove^y of, 296. 
 
 Photo-sculpture, the art of, 117. 
 
 Pianoforte , the, 241. 
 
 Pioneers of steam uavication, 161. 
 
 I'ost-otBep. first mail coaches, iSi) ; ai d 
 feir K. Hill, 391 
 
 Postage stamps, history of, 419. 
 
 Potter Humphrey, the' Cornish boy, 27, 
 
 Power loom, the, 185. 
 
 Prie.*tly, Dr., and the brewery, 281. 
 
 Pringle, Sir John, his reply to £ing 
 George the Third, 16. 
 
 Pseudo-Daphne, tho planet, 4.36. 
 
 Pulling Billy, the first railway locomo- 
 tive, 20. 
 
 Quinquet's lamp, 264. 
 
 Kaguin, the ingenious black«mith, 152. 
 Kailway in its cradle, 20 ; the first opened 
 
 in England, 2lH). 
 Ransome, Mr. V., and water-glass, 431. 
 Ready -witted inventor, 147. 
 heaping machine, the, 363. 
 Repeating cross-bows, 345. 
 Restorer of wood engrnvins.', the, 270. 
 Hevolvini! fire-arms, invention of, 121. 
 Roads, John Metcalf's improvements 
 
 in, 393. 
 Rocket locomotive, adventures of the, 
 
 295. 
 Romance of ihe stocking frame, the, 12. 
 Rosse, Earl of, his great tolescone, 385. 
 Roubo and the Pans Corn Exchange, 
 
 151. 
 Roy.il George, removal of wreck of, 423. 
 RuJyerd's lighthouse, 325. 
 
 St. Paul's, th« panorama painter on, 
 212. 
 
 Schonbein, Prof., and eur..:otton, 257. 
 
 Screw propeller, tin-, 4<i!l. 
 
 Scnnefeldi-r and the invention of litho- 
 graphy, 285. 
 
 Seeing machine, Brnnel's, 171; Ilowe's, 
 111. 
 
 Simpson, Dr, and chlorofomi, 343. 
 
 Smith, Mr. F. 6., and the screw pro- 
 peller. 410. 
 
 SpfCtruiu nnalvsis, wonders of, 3fO. 
 
 Spencer, 'I., ana elcctio-metallurgy, 
 566. 
 
44.2 
 
 INDEX. 
 
 Spiel, mechanical, 351. 
 
 Spffiuing jenny, the, 112. 
 
 Steam hammer, the inventor of, 352. 
 
 Steam navigation, the pioneer of, 161. 
 
 Steamboat, the first practical, 161 ; on 
 
 the Thames, 168. 
 Stephenson, George, and the lawyer, 10; 
 
 and the "Rocket" engine, 39t. 
 Stocking frame, romance of tbe, 42. 
 Stopped in time, 217. 
 Storm in a telegraph office, a, 223. 
 story of three workmen. 1.50. 
 Story of Wed-'wood ware, 18. 
 Strange substance, a, 283. 
 Struggles of optical glass, 154. 
 Strutt, Mr. and Sir Kichard Arkwright, 
 
 Submarine survey, a, 221. 
 
 Sutter's, Capt., discovery of gold in 
 
 California, 224. 
 Symington and steam navigation, 162. 
 
 T*TLOB, J., and steam navigation, 162. 
 
 Telescope, refracting, invention of, 308 ; 
 refleetinsr, 3So. 
 
 Telegraph and aurora borealis, 139 ; and 
 the train, 218; runaway engine and 
 the, 218 ; the modern thief-catcher, 
 145; chess-playing by, 268; crime 
 and the, 275 ; cable, the Atlantic, li*J ; 
 office, storm in a, 223. 
 
 Telegraphers, blunders of, 106. 
 
 Tele;.'raphs, the old, 69. 
 
 Telegraphy, humorous side of, 169 ; 
 uniler difficulties, 214. 
 
 Terrible inventor, a, 205. 
 
 Testu's balloon viyasre, 133. 
 
 Thames tunnel, the, 236. 
 
 rhauraatrope, idea .f the, 243. 
 
 Thief-catcher, the modern, 145. 
 
 'i hoinas, J., and the origin of our cast 
 iron, 98. 
 
 Time and space abolished, 268. 
 
 Trevithick's tunnel under the Thames, 
 235. 
 
 'I'l oublesome person in chemistry, a, 46. 
 
 True mother ot invention, 1. 
 Tunnelling under the Thames, 23i. 
 TurnbuU, Thomas, first hotpresser of 
 
 paper, 23. 
 TurnbuUs, the, and cardboard making, 
 
 25. ^ 
 
 UmbrklIiA, the earliest, 66. 
 Unintended insect trap, an, 277. 
 
 Vaccination, discovery of, 129. 
 Vicissitudes of gas-lightin;;, 227. 
 ViUeine, M., and phuto-sculpcure, 417. 
 
 Walkpe, the iron-founder, pirates 
 Huntsman's process of making caat- 
 steel, 36. 
 
 War of the " Knobs and Points," 13. 
 
 Water-bed, Dr. Arnott's, 402. 
 
 Water-glass, discoverers of, 4 '3. 
 
 Watt, James, early attempts at photo- 
 graphy, 30 ; childhood of, 33 ; youth 
 of, 34 ; early struggles, 83 ; his last 
 (lays, 107. 
 
 Webb, Mr., and microscopic wTiting,437. 
 
 Wedgwood, Josah, early life of, 18; 
 patronage ot, liy Queen Charlotte, 19; 
 attempts at photouraphy, 3u. 
 
 Weiss, Mr., the cutler, 137. 
 
 Well-boring, wonders of, 278. 
 
 Wellington, Duke of, and ihe inventor, 
 93. 
 
 Wells, Horace, and etherization, 339. 
 
 Winsor, Mr., and gas-lighting, 229. 
 
 Winstanley's light-house, 322. 
 
 Wollaston, William Uyde, the eccentric 
 discoverer, 49. 
 
 Wonders of spectrum analysis, 360. 
 
 Wonders of weU-bnring, 278. 
 
 Wonderful calculators, 347. 
 
 Wood engraving, restorer of, 270. 
 
 Workmen, story of three, 150. 
 
 Wright, Mr., and his percussion caps, 93> 
 
 Wylam locomotive, the original, 22. 
 
 Young, Dr. T., childhood of, 413, 
 
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