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•2; J 
 
 BENJAMIN FRANKLIN. 
 
MEN OF ACHIEVEMENT 
 
 INVENTORS 
 
 BY 
 
 PHILIP G. HUBERT, Jr. 
 
 NEW YORK 
 
 CHARLES SCRIBNER'S SONS 
 
 1893 
 
Copyright, 1893, by 
 CHARLES SCRIBNER'S SONS 
 
 TMN» MWCTMIV 
 
 MNmno «Ko MomiiMiM commnv 
 MW Yomc 
 
PREFACE 
 
 This book, dealing with our great inventors, 
 their origins, hopes, aims, principles, disappoint- 
 ments, trials, and triumphs, their daily life and 
 personal character, presents just enough con- 
 cerning their inventions to make the story 
 intelligible. The history is often a painful one. 
 When poor Goodyear, the inventor of vulcan- 
 ized rubber, was one day asked what he wanted 
 to make of his boys, he is said to have replied : 
 " Make them anything but inventors ; mankind 
 has nothing but cuffs and kicks for those who try 
 to do it a service." 
 
 Meanwhile, the value of the work done bv 
 great inventors is widely acknowledged. In a 
 remarkable sketch of the history of civilization. 
 Professor Huxley remarked, in 1887, that the 
 wonderful increase of industrial production by 
 the application of machinery, the improvement 
 of old technical processes and the invention of 
 new ones, constitutes the most salient feature of 
 the world's progress during the last fifty years. 
 If this was true a few years ago, its truth is still 
 more apparent to-day. It is safe to say that 
 within fifty years power, light, and heat will cost 
 half, perhaps one-tenth, of what they do now ; and 
 this virtually means that in 1943 mankind will be 
 
4 PREFACB 
 
 able to buy decent food, shelter, and clothing for 
 half or one-tenth of the labor now required. 
 Steam is said to have reduced the working 
 hours of man in the civilized world from four- 
 teen to ten a day. Electricity will mark the 
 next giant step in advance. 
 
 With the many and superb tools now at our 
 service, of which our fathers knew comparatively 
 nothing — steam, electricity, the telegraph, tele- 
 phone, phonograph, and the camera — we and our 
 descendants ought to accomplish even greater 
 wonders than these. As invention thus rises in 
 the scale of importance to humanity, the history 
 of the pioneers and, to the shame of mankind be 
 it said, the martyrs of the art, becomes of in- 
 tense interest. In the annals of hero-worship the 
 inventor of the perfecting press ought to stand 
 before the great general, and Elias Howe should 
 rank before Napoleon. Whitney, Howe, Morse, 
 and Goodyear, to mention but a few of our 
 Americans, contributed thousands of millions of 
 dollars to the nation's wealth and received com- 
 paratively nothing in return. Their history sug- 
 gests as pertinent the inquiry whether our patent 
 laws do not need a radical change. The bur- 
 den and cost of proving that an invention de- 
 serves no protection ought to fall upon who- 
 ever infringes a patent granted by the Govern- 
 ment. At present it is all the other way. 
 
 P. G. H., Jr. 
 
 New York, September, 1893. 
 
 I \ 
 
CONTENTS 
 
 I. Benjamin Franklin 
 II. Robert Fulton, 
 III. Eli Whitney, . 
 ly. Elias Hows, . 
 V. Samuel F. B. Morse 
 VI. Charles Goodyear, 
 VII. John Ericsson, 
 VIII. Cyrus Hall McCormick, 
 IX. Thomas A. Edison, 
 X. Alexander Graham Bell, 
 XI. American Inventors, Past and Present, 
 
 James M. Townsend, E. L. Drake, Alvan Clark, 
 John Fitch, Oliver Evans, Amos Whittemore, Thomas 
 Blanchard, Richard M. Hoe, Thomas W. Harvey, C. 
 L. Sholes, B. B. Hotchkiss, Charles F. Brush, Rudolph 
 Eickemeyer, George Westinghouse, Jr. 
 
 PACK 
 
 9 
 
 45 
 69 
 
 99 
 III 
 
 178 
 207 
 223 
 264 
 270 
 
LIST OF ILLUSTRATIONS 
 
 FULL-PAGE 
 
 FACING 
 
 {Frontispiece.) pace 
 60 
 
 Benjamin Franklin, . 
 
 Departure op the Clermont on 11 kr First Voyage, 
 
 Charles Goodyear, . 
 
 John Ericsson, . 
 
 Cyrus Hall McCormick, . 
 
 Thomas A. Edison, . 
 
 Edison in his Laboratory, 
 
 Professor Bell Sending the First Telepi 
 sage from New York to Chicago, . 
 
 one Mes- 
 
 »5S 
 178 
 
 207 
 
 223 
 
 247 
 
 264 
 
 ILLUSTRATIONS IN THE TEXT 
 
 PACE 
 
 The Franklin Stove, io 
 
 Franklin's Birthplace, Boston, 14 
 
 Franklin Entering Philadelphia, .... 17 
 
 The Franklin Penny, vj 
 
 Franklin's Grave, 43 
 
 Robert Fulton, 46 
 
 Birthplace of Robert Fulton 48 
 
 Fulton Blowing Up a Danish Brig, . , . . 53 
 
 John Fitch's Steamboat at Philadelphia, ... 56 
 
 Fulton's First Experiment with Paddle-wheels, . 57 
 
 Th£ "Demologos," or "Fulton the First," . , 65 
 
 The Clermont 68 
 
 Eli Whitney, 70 
 
 Whitney Watching the Cotton-Gin 75 
 
 The Cotton-Gin, 78 
 
 Elias Howe, 100 
 
U8T OF ILLUSTRATIONS 
 
 l-ACR 
 
 BiRTHPLACR OK S. F. B. MoRSE, BUILT I775, . . . lU 
 
 S. F. a Morse iij 
 
 Undkr Side ok a Modern Switchboard, showing 
 
 a,ooo Wires, 121 
 
 The First Telegraph Instrument, as Exhibited in 
 
 1837 BY Morse, 125 
 
 The Modern Morse Telegraph, 127 
 
 Morse Making his own Instrument 129 
 
 Train Telegraph— the Message Transmitted by In- 
 duction FROM THE Moving Train to the Single 
 
 Wire i3» 
 
 Interior of a Car on the Lehigh Valley Railroad, 
 showing the Method ok Operating the Train 
 
 Telegraph, 132 
 
 Diagram showing the Method ok Telegraphing 
 
 krom a Moving Train by Induction, ... 134 
 Morse in his Study 139 
 
 The Siphon Recorder for Receiving Cable Mes- 
 sages — Office ok the Commercial Cable Com* 
 pany, I Broad Street, New York 146 
 
 No. 5 West Twenty-second Street, New York, where 
 Morse Lived for Many Years and Died, . • 151 
 
 Calenders Heated Internally by Steam, for Spread- 
 ing India Rubber into Sheets or upon Cloth, 
 
 CALLED the " CHAFFRE MACHINE,** .... 164 
 
 Charles Goodyear's Exhibition of Hard India-rub- 
 ber Goods at the Crystal Palace, Sydenham, 
 England, 169 
 
 Council Medal of the Exhibition, 1851, . . 173 
 Grande Medaille d'Honneur, Exposition Universellb 
 
 DE 1855, 176 
 
 John Ericsson's Birthplace and Monument, . . 180 
 The Novelty Locomotive, built by Ericsson to com- 
 pete with Stephenson's Rocket, 1829, . . . 184 
 Ericsson on his Arrival in England, aged Twenty- 
 three * 186 
 
 Mrs. John Ericsson, NiE Amelia Byam, . . . 187 
 
8 
 
 Liar OF ILLUSTRATIONS 
 
 t\ 
 
 
 I 
 
 PAGB 
 
 Exterior View of Ericsson's House, No. 36 Beach 
 
 Street, New York, 1890, 189 
 
 Solar-engine Adapted to the Use of Hot Air, . . 191 
 SEcnoNAL View of Monitor through Turret and 
 
 Pilot-house, - . . . 198 
 
 The Original Monitor, 199 
 
 Fac-simile of a Pencil Sketch by Ericsson, giving a 
 Transverse Section of his Original Monitor 
 
 Plan, with a Longitudinal Section drawn over it, 201 
 
 Interior of the Destroyer, Looking toward the Bow, 202 
 
 Development of the Monitor Idea, . . . . 204 
 
 The Room in which Ericsson Worked for More 
 
 THAN Twenty Years, 206 
 
 Farm where Cyrus H. McCormick was Born and Raised, 209 
 
 Exterior of the Blacksmith Shop where the First 
 
 Reaper was Built, 212 
 
 Interior of the Blacksmith Shop where the First 
 
 Reaper was Built, .215 
 
 The First Reaper, 217 
 
 Edison's Paper Carbon Lamp, 224 
 
 Edison Listening to his Phonograph, .... 227 
 From Edison's Newspaper, the " Grand Trunk 
 
 Herald," 230 
 
 Edison's Tinfoil Phonograph— the First Practical 
 
 Machine, 237 
 
 Vote Recorder — Edison's First Patented Invention, 243 
 
 Edison's Menlo Park Electric Locomotive (1880), . 250 
 
 The Home of Thomas A. Edison 257 
 
 Edison's Laboratory 258 
 
 Library at Edison's Laboratory, 262 
 
 Alvan Clark, 276 
 
 C. L. Sholes 286 
 
 B. B. Hotchkiss, 288 
 
 Charles F. Brush, 290 
 
 Rudolph Eickemeyer, 294 
 
 George Wbstinghousr, Jr., 296 
 
INVENTORS 
 
 I. 
 
 BENJAMIN FRANKLIN. 
 
 Benjamin Franklin's activity and resource 
 in the field of invention really partook of the in- 
 tellectual breadth of the man of whom Turgot 
 wrote : 
 
 " Eripuit coelo fulmen, sceptrumque tyrannis." 
 
 " He snatched the thunderbolt from heaven, 
 And the sceptre from the hands of tyrants." 
 
 And of which bit of verse Franklin once dryly 
 remarked, that as to the thunder, he left it where 
 he found it, and that more than a million of his 
 countrymen co-operated with him in snatching 
 the sceptre. Those persons who knew Franklin, 
 the inventor, only as the genius to whom we owe 
 the lightning-rod, will be amazed at the range of 
 his activity. For half a century his mind seems 
 to have been on the alert concerning the why 
 and wherefore of every phenomenon for which 
 the explanation was not apparent. Nothing in 
 nature failed to interest him. Had he lived in 
 an era of patents he might have rivalled Edison 
 in the number of his patentable devices, and had 
 
■AiaMpMriMiBa 
 
 10 
 
 INVENTORS 
 
 r 
 
 The Franklin Stove. 
 
 he chosen to make money from such devices, his 
 gains would certainly have been fabulous. As 
 a matter of fact, Franklin never applied for a 
 
 patent, though frequently 
 urged to do so, and he made 
 no money by his inventions. 
 One of the most popular of 
 these, the Franklin stove, 
 which device, after a half- 
 century of disuse, is now 
 again popular, he made a 
 present to his early friend, Robert Grace, an iron 
 founder, who made a business of it. The Gov- 
 ernor of Pennsylvania offered to give Franklin a 
 monopoly of the sale of these stoves for a num- 
 ber of years. " But I declined it," writes the 
 inventor, "from a principle which has ever 
 weighed with me on such occasions, viz. : That 
 as we enjoy great advantages from the inven- 
 tions of others, we should be glad of an oppor- 
 tunity to serve others by any invention of ours ; 
 and this we should do freely and generously. 
 An ironmonger in London, however, assuming a 
 good deal of my pamphlet (describing the prin- 
 ciple and working of the stove), and working it 
 up into his own, and making some small change 
 in the machine, which rather hurt its opera- 
 tion, got a patent for it there, and made, as I 
 was told, a little fortune by it." 
 
 The complete list of inventions, devices, and 
 improvements of which Franklin was the origi- 
 nator, or a leading spirit and contributor, is so 
 long a one that a dozen pages would not suffice 
 
BENJAMIN FRANKLIN 
 
 11 
 
 for it. I give here a brief summary, as compiled 
 by Parton in his excellent " Life of Franklin." 
 " It is incredible," Franklin once wrote, " the 
 quantity of good that may be done in a country 
 by a single man who will make a business of it and 
 not suffer himself to be diverted from that pur- 
 pose by different avocations, studies, or amuse- 
 ments." As a commentary upon this sentiment, 
 here is a catalogue of the achievements of Benja- 
 min Franklin that may fairly come under the 
 title of inventions : 
 
 He established and inspired the Junto, the 
 most useful and pleasant American club of which 
 we have knowledge. 
 
 He founded the Philadelphii* Library, parent 
 of a thousand libraries, and which marked the 
 beginning of an intellectual movement of endless 
 good to the whole country. 
 
 He first turned to great account the engine ot 
 advertising, an indispensable element in modern 
 business. 
 
 He published " Poor Richard," a record of 
 homely wisdom in such shape that hundreds 
 of thousands of readers were made better and 
 stronger by it. 
 
 He created the post-office system of America, 
 and was the first champion of a reformed spelling. 
 
 He invented the Franklin stove, which econo- 
 mized fuel, and suggested valuable improve- 
 ments in ventilation and the building of chim- 
 neys. 
 
 He robbed thunder of its terrors and lightning 
 of some of its power to destroy. 
 
13 
 
 INVENTORS 
 
 n 
 
 i!i 
 
 Hi 
 
 Hi 
 
 He founded the American Philosophical So- 
 ciety, the first organization in America of the 
 friends of science. 
 
 He suggested the use of mineral manures, in- 
 troduced the basket willow, promoted the early 
 culture of silk, and pointed out the advisability 
 of white clothing in hot weather. 
 
 He measured the temperature of the Gulf 
 Stream, and discovered that northeast storms 
 may begin in the southwest. 
 
 He pointed out the advantage of building 
 ships in water-tight compartments, taking the 
 hint from the Chinese, and first urged the use of 
 oil as a means of quieting dangerous seas. 
 
 Besides these great achievements, accom- 
 plished largely as recreation from his life work 
 as economist and statesman, Benjamin Franklin 
 helped the whole race of inventors by a remark 
 that has been of incalculable value and comfort 
 to theorists and dreamers the world over. When 
 someone spoke rather contemptuously in Frank- 
 lin's presence of Montgolfier's balloon experi- 
 ments, and asked of what use they were, the 
 great American replied in words now historic : 
 " Of what use is a new-born babe ? " 
 
 " This self-taught American," said Lord Jef- 
 frey, in the Edinburgh Review of July, 1806, " is 
 the most rational, perhaps, of all philosophers. 
 He never loses sight of common sense in any of 
 his speculations. No individual, perhaps, ever 
 possessed a greater understanding, or was so 
 seldom obstructed in the use of it by indolence, 
 enthusiasm, or authority. Dr. Franklin received 
 
BENJAMIN FRANKLIN 
 
 13 
 
 no regular education ; and he spent the greater 
 part of his life in a society where there was no 
 relish and no encouragement for literature. On 
 an ordinary mind, these circumstances would 
 have produced their usual effects, of repressing 
 all sorts of intellectual ambition or activity, and 
 perpetuating a generation of incurious mechan- 
 ics ; but to an understanding like Franklin's, we 
 cannot help considering them as peculiarly pro- 
 pitious, and imagine that we can trace back to 
 them distinctly almost all the peculiarities of his 
 intellectual character." 
 
 The main outlines of Franklin's life and ca- 
 reer are so familiar to everyone, that I may as 
 well pass at once to the story of his work as an 
 inventor. We all know, or ought to know, that 
 Benjamin, the fifteenth child of Josiah Franklin, 
 the Boston soap-boiler, was born in that town 
 on the 17th of January, 1706, and established him- 
 self as a printer in Philadelphia in 1728. That 
 he prospered and founded the Gazette a few 
 years later, and became Postmaster of Phila- 
 delphia in 1737; that after valuable services to 
 the Colonies as their agent in England, he 
 was appointed United States Minister at the 
 Court of France upon the Declaration of Inde- 
 pendence ; and that in 1782 he had the supreme 
 satisfaction of signing at Paris the treaty of 
 peace with England by which the independence 
 of the Colonies was assured. That he died full 
 of honors at Philadelphia in April, 1790, and that 
 Congress, as a testimony of the gratitude of the 
 Thirteen States and of their sorrow for his loss. 
 
ilii 
 
 '! i 
 
 ill 
 
 t 
 
 ! 
 
 M 
 
 ! : 
 
 14 
 
 INVENTORS 
 
 appointed a general mourning throughout the 
 States for a period of two months. 
 The great invention or discovery which entitles 
 
 Franklin's Birthplace, Boiton. 
 
 Benjamin Franklin to 
 rank at the head of 
 American inventors was, of course, the identifi- 
 cation of lightning with electricity, and his sug- 
 gestion of metallic conductors so arranged as 
 to render the discharge from the clouds a harm- 
 less one. In order to appreciate the originality 
 
 lii 
 
 : 1 
 t ( 
 
BENJAMIN FRANKLIN 
 
 15 
 
 and value of this discovery, it is necessary to re- 
 view briefly what the world knew of the subject 
 at that day. 
 
 For a hundred years before Franklin's time, 
 electricity had been studied in Europe without 
 much distinct progress resulting. A thousand 
 experiments had been performed and described. 
 Gunpowder had been exploded by the spark 
 from a lady's finger, and children had been in- 
 sulated by hanging them from the ceiling by 
 silk cords. A tolerable machine had been de- 
 vised for exciting electricity, though most ex- 
 perimenters still used a glass tube. Several 
 volumes of electrical observations and experi- 
 ments had appeared, and yet what had been 
 done was little more than a repetition on a 
 larger scale, and with better means, of the orig- 
 inal experiment of rubbing a piece of amber 
 on the sleeve of the philosopher's coat. Experi- 
 menters in 1745 could produce a more powerful 
 spark and play a greater variety of tricks with 
 it than Dr. Gilbert, the English experimenter of 
 1600, but that was about all the advantage they 
 had over him. 
 
 So-called experts had attempted, with more or 
 less satisfaction to themselves, to answer the 
 question addressed by the mad Lear to poor 
 Tom : " Let me talk with this philosopher. 
 What is the cause of thunder?" Pliny thought 
 he had explained it when he called it an 
 earthquake in the air. Dr. Lister announced 
 that lightning was caused by the sudden ig- 
 nition of immense quantities of fine floating 
 
16 
 
 INVENTORS 
 
 m 
 
 ! ii 
 
 111 
 
 ri 
 
 \m 
 
 sulphur. Jonathan Edwards, in his diary of 
 1722, records the popular impression of the 
 day upon this subject : " Lightning," he says, 
 "seem? to be an almost infinitely fine combus- 
 tible matter, that floats in the air, that takes 
 fire by sudden and mighty fermentation, that is 
 some way promoted by the cool and moisture, 
 and perhaps attraction of the clouds. By this 
 sudden agitation, this fine floating matter is 
 driven forth with a mighty force one way or 
 other, whichever way it is directed, by the cir- 
 cumstances and temperature of the circumja- 
 cent air ; for cold and heat, density and rarity, 
 moisture and dryness, havef almost an infinitely 
 strong influence upon the fine particles of mat- 
 ter. This fluid matter thus projected, still fer- 
 menting to the same degree, divides the air as 
 it goes, and every moment receives a new im- 
 pulse by the continued fermentation ; and as its 
 motion received its direction, at first, from the 
 different temperature of the air on different 
 sides, so its direction is changed, according to the 
 temperature of the air it meets with, which 
 renders the path of the lightning so crooked." 
 
 Even this explanation was a daring bit of spec- 
 ulation in Jonathan Edwards, for thunder and 
 lightning were then commonly regarded as the 
 physical expression of God's wrath against the 
 insects He had created. 
 
 Mr. Peter Collinson, the London agent of the 
 library that Franklin had founded in Philadel- 
 phia in 1732, was accustomed to send over with 
 the annual parcel of books any work or curious 
 
 ■\\\ 
 
BENJAMIN FRANKLIN 
 
 17 
 
 object that chanced to be in vogue in London at 
 the time. In 1746 he sent one of the new electri- 
 
 Franklin Entering Philadelphia. 
 
 cal tubes with a paper of directions for using it. 
 The tubes then commonly used were two feet 
 and a half long, and as thick as a man could con- 
 veniently grasp. They were rubbed with a piece 
 
 f 
 
 * 
 
18 
 
 INVENTORS 
 
 of cloth or buckskin, and held in contact with 
 the object to be charged. Franklin had already 
 seen one of these tubes in Boston, and had been 
 astonished by its properties. No sooner, there- 
 fore, was it unpacked at the Library, than he re- 
 peated the experiments he had seen in Boston, 
 as well as those described by CoUinson. The 
 subject completely fascinated him. He gave 
 himself up to it. Procuring other tubes, he dis- 
 tributed them among his friends and set them 
 all rubbing. " I never," he writes in 1747, "was 
 before engaged in any study that so totally 
 engrossed my attention and my time as this has 
 done ; for what with making experiments when 
 I can be alone, and repeating to my friends and 
 acquaintances, who, from the novelty of the 
 thing, come continually in crowds to see them, I 
 have during some months past had little leisure 
 for anything else." 
 
 Franklin claimed no credit for what he 
 achieved in electricity. During the winter of 
 1746-7 he and his friends experimented frequent- 
 ly, and observed electrical attraction and repul- 
 sion with care. That electricity was not created, 
 but only collected by friction, was one of their 
 first conjectures, the correctness of which they 
 soon demonstrated by a number of experiments. 
 Before having heard of the Ley den jar coated 
 with tin-foil, these Philadelphia experimenters 
 substituted granulated lead for the water em- 
 ployed by Professor Maschenbroeck. They 
 fired spirits and lighted candles with the electric 
 spark. They performed rare tricks with a spider 
 
DKNJAMIN FRANKLIN 
 
 19 
 
 made of burnt cork. Philip Syng mounted one 
 of the tubes upon a crank and employed a cannon- 
 ball as a prime conductor, thus obtaining the same 
 result without much tedious rubbing of the tube. 
 
 The summer of 1747 was devoted to preparing 
 the province for defence. But during the fol- 
 lowing winter the Philadelphians resumed their 
 experiments. The wondrous Leyden jar was the 
 object of Franklin's constant observation. His 
 method of work is well shown in his own ac- 
 count of an experiment during this winter. The 
 jar used was Maschenbroeck's original device of 
 a bottle of water with a wire running through 
 the cork. 
 
 " Purposing," writes Franklin, " to analyse the 
 electrified bottle, in order to find wherein its 
 strength lay, we placed it on glass, and drew out 
 the cork and wire, which for that purpose had 
 been loosely put in. Then, taking the bottle in 
 one hand, and bringing a finger of the other near 
 its mouth, a strong spark came from the water, 
 and the shock was as violent as if the wire had 
 remained in it, which showed that the force did 
 not lie in the wire. Then, to find if it resided in 
 the water, being crowded into and condensed in 
 it, as confined by the glass, which had been our 
 former opinion, we electrified the bottle again, 
 and placing it on glass, drew out the wire and 
 cork as before ; then, taking up the bottle, we 
 decanted all its water into an empty bottle, 
 which likewise stood on glass ; and taking up 
 that other bottle, we expected, if the force re- 
 sided in the water, to find a shock from it. But 
 
 
 ' 
 
 i 
 
 : :. 
 
 f:- 
 
20 
 
 INVENTOnS 
 
 it : 
 
 I 
 
 !, 
 
 ' * 
 
 1'' 
 
 there was none. We judged then that it must 
 either be lost in decanting or remain in the first 
 bottle. The latter we found to be true ; for 
 that bottle on trial gave the shock, though filled 
 up as it stood with fresh un electrified water 
 from a tea-pot. To find, then, whether glass had 
 this property merely as glass, or whether the 
 form contributed anything to it, we took a pane 
 of sash glass, and laying it on the hand, placed 
 a plate of lead on its upper surface ; then elec- 
 trified that plate, and bringing a finger to it, 
 there was a spark and shock. We then took 
 two plates of lead of equal dimensions, but less 
 than the glass by two inches every way, and 
 electrified the glass between them, by electrify- 
 ing the uppermost lead ; then separated the 
 glass from the lead, in doing which, what little 
 fire might be in the lead was taken out, and the 
 glass being touched in the electrified parts with 
 a finger, afforded only very small pricking 
 sparks, but a great number of them might be 
 taken from different places. Then dexterously 
 placing it again between the leaden plates, and 
 completing a circle between the two surfaces, a 
 violent shock ensued ; which demonstrated the 
 power to reside in glass as glass, and that the 
 non-electrics in contact served only, like the ar- 
 mature of a loadstone, to unite the force of the 
 several parts, and bring them at once to any point 
 desired ; it being the property of a non-electric, 
 that the whole tody instantly receives or gives 
 what electrical fire is given to, or taken from, 
 any one of its parts. 
 
 I 
 
BENJAMIN FRANKLIN 
 
 21 
 
 " Upon this \vc made what wc called an elec- 
 trical battery, consisting of eleven panes of larjije 
 sash g^lass, armed with thin leaden plates, pasted 
 on each side, placed vertically, and supported at 
 two inches* distance on silk cords, with thick 
 hooks of leaden wire, one from each side, stand- 
 ing upright, distant from each other, and con- 
 venient communications of wire and chain, from 
 the giving side of one pane to the receiving side 
 of the other ; that so the whole might be charged 
 together with the same labor as one single 
 pane." 
 
 In 1748 Franklin, being then forty-two years 
 old, and in the enjoyment of an ample income 
 from his business as printer and publisher, sold 
 out to his foreman, David Hall, and was free 
 to devote himself wholly to his beloved experi- 
 ments. He had built himself a home in a retired 
 spot on the outskirts of Philadelphia, and with 
 an income which in our days would be equiva- 
 lent to $15,000 or $20,000 a year, he was consid- 
 ered a fairly rich man. Having thus settled his 
 business affairs in a manner which proved that 
 he knew perfectly well what money was worth, 
 he took up his electrical studies again and ex- 
 tended them from the machine to the part 
 played in nature by electricity. The patience 
 with which he observed the electrical phenomena 
 of the heavens, the acuteness displayed by him 
 in drawing plausible inferences from his obser- 
 vations, and the rapidity with which he arrived 
 at all that we now know of thunder and light- 
 ning, still excite the astonishment of all who 
 
 * 
 
 I 
 
^mn^^m 
 
 2% 
 
 INVENTOHS 
 
 !IM- 
 
 read the narratives he has left us of his proceed- 
 ings. During the whole winter of 1748-49 and 
 the summer following, he was feeling his way 
 to his final conclusions on the subject. Early 
 in 1749 he drew up a series of fifty-six observa- 
 tions, entitled " Observations and Suppositions 
 towards forming a new Hypothesis for explain- 
 ing the several Phenomena of Thundergusts." 
 Nearly all that he afterward demonstrated on 
 this subject is anticipated in this truly remarka- 
 ble paper, which was soon followed by the most 
 famous of all his electrical writings, that en- 
 titled " Opinions and Conjectures concerning 
 the Properties and Effects of the Electrical 
 Matter, and the Means of preserving Buildings, 
 Ships, etc., from Lightning; arising from Ex- 
 periments and Observations made at Philadel- 
 phia, 1749." 
 
 Franklin sets forth in this masterly paper the 
 similarity of electricity and lightning, and the 
 property of points to draw off electricity. It is 
 this treatise which contains the two suggestions 
 that gave to the name of Franklin its first celeb- 
 rity. Both suggestions are contained in one 
 brief passage, which follows the description of a 
 splendid experiment, in which a miniature light- 
 ning-rod had conducted harmlessly away the 
 electricity of an artificial thunder-storm. 
 
 " If these things are so," continues the philoso- 
 pher, after stating the results of his experiment, 
 " may not the knowledge of this power of points 
 be of use to mankind in preserving houses, 
 churches, ships, etc., from the stroke of light- 
 
 A 
 
BENJAMIN FRANKLIN 
 
 23 
 
 ning, by directing us to fix on the highest part 
 of those edifices upright rods of iron, made 
 sharp as a needle and gilt to prevent rusting, and 
 from the foot of those rods, a wire down the out- 
 side of the building into the ground, or down 
 round one of the shrouds of a ship, and down 
 her side till it reaches the water? Would not 
 these pointed rods probably draw 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 ? " 
 
 The second of these immortal suggestions was 
 one that immediately arrested the attention of 
 European electricians when the paper was pub- 
 lished. It was in these words : 
 
 "To determine the question, whether the 
 clouds that contain lightning are electrified or 
 not, I would propose an experiment to be tried 
 where it may be done conveniently. On the top 
 of some high tower or steeple, place a kind of 
 sentry-box, big enough to contain a man and an 
 electric stand. From the middle of the stand let 
 an iron rod rise and pass, bending out of the 
 door, and then upright twenty or thirty feet, 
 pointed very sharp at the end. If the electrical 
 stand be kept clean and dry, a man standing on 
 it, when such clouds are passing low, might be 
 electrified and afford sparks, the rod drawing 
 fire to him from a cloud. If any danger to the 
 man should be apprehended (though I think 
 there would be none), let him stand on the floor 
 of his box, and now and then bring neir to the 
 rod the loop of a wire that has one end fastened 
 
 
 
 
 ik 
 
24 
 
 INVENTORS 
 
 to the leads, he holding it by a wax handle ; so 
 the sparks, if the rod is electrified, will strike 
 from the rod to the wire and not affect him." 
 
 A friend once asked Franklin how he came to 
 hit upon such an idea. His reply was to quote 
 an extract from the minutes he kept of the ex- 
 periments he made. This extract, dated No- 
 vember 7, 1749, was as follows: "Electrical fluid 
 agrees with lightning in these particulars: i. 
 Giving light. 2. Color of the light. 3. Crooked 
 direction. 4. Swift motion. 5. Being conducted 
 by metals. 6. Crack or noise in exploding. 7. 
 Subsisting in water or ice. 8. Rending bodies 
 it passes through. 9. Destroying animals. 10. 
 Melting metals. 11. Firing inflammable sub- 
 stances. 12. Sulphurous smell. The electric 
 fluid is attracted by points. We do not know 
 whether this property is in lightning. But since 
 they agree in all the particulars wherein we can 
 already compare them, is it not probable they 
 agree likewise in this? Let the experiment be 
 made." 
 
 In this discovery, therefore, there was nothing 
 of chance ; it was a legitimate deduction from 
 patiently accumulated facts. 
 
 It was not until the spring of 1752 that Frank- 
 lin thought of making his suggested experiment 
 with a kite. The country around Philadelphia 
 presents no high hills, and he was not aware till 
 later that the roof of any dwelling-house would 
 have answered as well as the peak of Teneriffe. 
 There were no steeples in Philadelphia at that 
 day. The vestry of Christ Church talked about 
 
BENJAMIN FRANKLIN 
 
 25 
 
 m 
 
 erecting a steeple, but it was not begun until 
 1753- ^^ ^^6 15th of June, 1752, Franklin de- 
 cided to fly that immortal kite. Wishing to 
 avoid the ridicule of a failure, he took no one 
 with him except his son, who, by the way, was 
 not the small boy shown in countless pictures 
 of the incident, but a stalwart young man of 
 twenty-two. The kite had been made of a large 
 silk handkerchief, and fitted out with a piece of 
 sharpened iron wire. Part of the string was of 
 hemp, and the part to be held in the hand was of 
 silk. At the end of the hempen string was tied 
 a key, and in a convenient shed was a Leyden jar 
 in which to collect some of the electricity from 
 the clouds. When the first thunder-laden clouds 
 reached the kite, there were no signs of elec- 
 tricity from Franklin's key, but just as he had 
 begun to doubt the success of the experiment, 
 he saw the fibres of the hempen string begin to 
 rise. Approaching his hand to the key, he got 
 an electric spark, and was then able to charge the 
 Leyden jar and get a stronger shock. Then the 
 happy philosopher drew in his wet kite and 
 went home to write his modest account of one of 
 the most notable experiments made by man. 
 
 Franklin's fame as the first to suggest the 
 identity of lightning and electricity would have 
 been safe, however, even without the famous 
 kite-flying achievement. A month before that 
 June thunderstorm his suggestions had been put 
 into practice in Europe with complete success. 
 Mr. Peter Collinson, to whom Franklin ad- 
 dressed from time to time long: letters about his 
 
 
 \ 
 
 \ 
 
 I 
 
26 
 
 INVENTORS 
 
 experiments and conjectures, had caused them 
 to be read at the meetings of the Royal Society, 
 of which he (Collinson) was a member. That 
 learned body, however, did not deem them 
 worthy of publication among its transactions, 
 and a letter of Franklin's containing the sub- 
 stance of his conjectures respecting lightning 
 was laughed at. The only news that reached 
 Philadelphia concerning these letters was that 
 Watson and other English experimenters did not 
 agree with Franklin. It was only in May, 175 1, 
 that a pamphlet was finally published in London, 
 entitled " New Experiments and Observations in 
 Electricity, made at Philadelphia, in America." 
 A copy having been presented to the Royal So- 
 ciety, Watson was requested to make an abstract 
 of its contents, which he did, giving generous 
 praise to the author. 
 
 Before the year came to a close Franklin was 
 famous. There was something in the drawing 
 down, for mere experiment, of the dread electric- 
 ity of heaven that appealed not less powerfully 
 to the imagination of the ignorant than to the 
 understanding of the learned. And the marvel 
 was the greater that the bold idea should have 
 come from so remote a place as Philadelphia. 
 By a unanimous vote the Royal Society elected 
 Franklin a member, and the next year bestowed 
 upon him the Copley medal. Yale College and 
 then Harvard bestowed upon him the honorary 
 degree of Master of Arts. 
 
 As might have been expected, there was no 
 lack of opposition to the new doctrine of light- 
 
BENJAMIN FRANKLIN 
 
 27 
 
 iii 
 
 ning-rods. Every new movement of radical char- 
 acter is denounced more or less fiercely. The last 
 years of Newton's life were perplexed by the 
 charge tiiat his theory of gravitation tended to 
 " materialize " religion. Insuring houses against 
 fire was opposed as an interference with the pre- 
 rogatives of deity. The establishment of the 
 Royal Society was opposed upon the ground 
 that the study of natural philosophy, grounded, 
 as it was, upon experimental evidence, tended to 
 
 The Franklin Penny. 
 
 weaken the force of evidence not so founded ; 
 and this objection was deemed of sufficient 
 weight to call for serious answer. Franklin's 
 daring proposal to neutralize the " artillery of 
 heaven," of course could not escape, and the im- 
 piety of lightning-rods was widely discussed, 
 often with acrimony. Mr. Kinnersley, one of 
 Franklin's friends, who lectured for several years 
 upon electricity, when advertising the outline of 
 his subject always announced his intention to 
 show that the erection of lightning-rods was 
 " not chargeable with presumption nor incon- 
 sistent with any of the principles either, of nat- 
 
 «f« 
 
 'I 
 
 I!. I 
 
 
28 
 
 INVENTORS 
 
 ural or revealed religion." Qiiincy relates in 
 his " History of Harvard College," that in 
 November, 1755, a shock of earthquake having 
 been felt in New England, a Boston clergy- 
 man preached a sermon on the subject, in 
 which he contended that the lightning-rods, by 
 accumulating the electricity in the earth, had 
 caused the earthquake. Professor VVinthrop, 
 of Harvard, thought it worth while to defend 
 Franklin. " In 1770," Mr. Quincy adds, " another 
 Boston clergyman opposed the use of the rods 
 on the ground that, as the lightning was one of 
 the means of punishing the sins of mankind, and 
 of warning them from the commission of sin, it 
 was impious to prevent its full execution." And 
 to this attack also Professor Winthrop replied. 
 Apparently Franklin himself thought it wise to 
 conciliate the opposition of some so-called relig- 
 ious people of the day, for an account of the 
 lightning-rod which appears in Poor Richard's 
 Almanac for 1753, written probably by Franklin, 
 begins as follows : " It has pleased God in his 
 Goodness to Mankind, at length to discover to 
 them the Means of securing their Habitations 
 and other Buildings from Mischief by Thunder 
 and Lightning." 
 
 Franklin bore his honors with the most re- 
 markable modesty. It was in June that he flew 
 his first kite, but not until October that he sent 
 to Mr. CoUinson an account of the experiment, 
 and even then he described the manner of making 
 and flying the kite and omitted all reference to 
 his own success with it. The identity of lightning 
 
BENJAMIN FRANK UN 
 
 29 
 
 in 
 
 with electricity having been established by M. 
 Dalibard, he deemed it unnecessary to forward 
 the account of an experiment which, however 
 brilliant, he thought superfluous. Accordingly, 
 we have no narrative by Franklin of the flying 
 of the kite. We owe our knowledge of what 
 occurred on that memorable afternoon to per- 
 sons who heard Franklin tell the story. Frank- 
 lin prefaces his description of his kite with these 
 words : " As frequent mention is made in public 
 papers from Europe of the success of the Phila- 
 delphia experiment for drawing the electric fire 
 from clouds by means of pointed rods of iron 
 erected on high buildings, it may be agreeable 
 to the curious to be informed that the same 
 experiment has succeeded in Philadelphia, 
 though made in a different and more easy man- 
 ner, which is as follows." And then we have 
 the description of the kite, the letter ending 
 without reference to what he himself had done 
 with it. 
 
 Yet he was far from hiding the pleasure his 
 fame brought him. " The Tatler" he wrote, in 
 1753, to a friend, "tells us of a girl who was ob- 
 served to grow suddenly proud, and none could 
 guess the reason, till it came to be known that 
 she had got on a pair of new silk garters. Lest 
 you should be puzzled to guess the cause, when 
 you observe anything of the kind in me, I think I 
 will not hide my new garters under my petti- 
 coats, but take the freedom to show them to you 
 in a paragraph of our friend Collinson's last 
 letter, viz. — But I ought to mortify, and not in- 
 
 iii 
 
 
 J 
 
 
30 
 
 INVENTORS 
 
 dulge, this vanity ; I will not transcribe the para- 
 graph — yet I cannot forbear." Then he quotes 
 the paragraph, which mentions the honors done 
 him by the King of France and the Royal Society. 
 
 For twenty years Franklin continued to work at 
 electricity, devoting most of his leisure to his be- 
 loved study. The great practical value of the 
 lightning-rod, at one time in the early part of this 
 century somewhat exaggerated, as a perfect pro- 
 tection against harm by lightning, just as electric- 
 ity was at one time heralded as a panacea for all 
 bodily ailments, has of late years been questioned, 
 but the consensus of scientific opinion still attrib- 
 utes much merit to the device, and the extent of 
 Franklin's services to science in the matter can- 
 not be called into doubt. Others have claimed 
 his discoveries. The Abb6 Nolet, of France, has 
 been credited as being the first to note the simi- 
 larity between electricity and lightning ; and M. 
 Romas, of Nerac, France, is said to have used a 
 kite with a copper wire wound around the 
 string, to attract electricity from clouds, some 
 time before Franklin made his experiment. But 
 posterity has ignored these claimants, and Frank- 
 lin had the happiness of escaping bitter conten- 
 tions with rivals. In fact, there could hardly 
 have been a quarrel with a man who claimed 
 nothing, who mentioned with honor everybody's 
 achievements but his own, and who recorded 
 his most brilliant observations in the plural, as 
 though he were but one of a band of investigat- 
 ing Philadelphians. 
 
 Passing now to Franklin's connection with the 
 
 (III, 
 
BENJAMIN FRANKLIN 
 
 31 
 
 use of oil to still dangerous waves, I had occa- 
 sion recently to note that Lieutenant W. H. 
 Bcehler, of the United States Navy, in writing 
 upon the matter, quotes Franklin's explanation 
 of why oil works so beneficently as the accepted 
 theory. Franklin was greatly interested, when 
 at Gca, in studying the matter. Any phenome- 
 non that puzzled him was fit subject for investi- 
 gation. Let us see how he went about the in- 
 quiry. "In 1757," he wrote, ** being at sea in a 
 fleet of ninety-six sail bound against Louisburg, 
 I observed the wakes of two of the ships to be 
 remarkably smooth, while all the others were 
 ruffled by the wind which blew fresh. Being 
 puzzled with the differing appearance, I at last 
 pointed it out to our captain and asked him the 
 meaning of it. * The cooks,' says he, * have, 1 
 suppose, been just emptying their greasy water 
 through the scuppers, which has greased the 
 sides of those ships a little ;' and this answer he 
 gave me with an air of some little contempt, as 
 to a person ignorant of what everybody else 
 knew. In my own mind I at first slighted his 
 solution, though I was not able to think of an- 
 other; but recollecting what I had formerly 
 read in Pliny, I resolved to make some experi- 
 ment of the effect of oil on water, when I should 
 have opportunity. Afterwards, being again 
 at sea in 1762, I first observed the wonderful 
 quietness of oil on agitated water, in the swing- 
 ing glass lamp I made to hang up in the cabin, 
 as described in my printed papers. This I was 
 continually looking at and considering, as an ap- 
 
 ?t 
 
 5 
 
 
 
 ! 
 
 i' 
 
83 
 
 INVENTORS 
 
 pearance to me inexplicable. An old sea cap- 
 tain, then a passenger with me, thought little of 
 it, supposing it an effect of the same kind with 
 that of oil put on water to smooth it, which he 
 said was a practice of the Bermudians when they 
 would strike fish, which they could not see if 
 the surface of the water was ruffled by the wind. 
 The same gentleman told me he had heard it 
 was a practice with the fishermen of Lisbon, 
 when about to return into the river (if they saw 
 before them too great a surf upon the bar, which 
 they apprehended might fill their boats in pass- 
 ing) to empty a bottle or two of oil into the sea, 
 which would suppress the breakers, and allow 
 them to pass safely. A confirmation of this I 
 have not since had an opportunity of obtaining ; 
 but discoursing of it with another person, who 
 had often been in the Mediterranean, I was in- 
 formed that the divers there, who, when under 
 water in their business, need light, which the 
 curling of the surface interrupts by the refrac- 
 tions of so many little waves, let a small quantity 
 of oil now and then out of their mouths, which 
 rising to the surface smooths it, and permits the 
 light to come down to them. All these infor- 
 mations I at times resolved in my mind, and 
 wondered to find no mention of them in our 
 books of experimental philosophy. 
 
 " At length being at Clapham where there is, 
 on the common, a large pond, which I observed 
 one day to be very rough with the wind, I 
 fetched out a cruet of oil and dropped a little of 
 it on the water. I saw it spread itself with sur- 
 
lihJNJA MIN Fit A NKL IN 
 
 33 
 
 prising swiftness upon the surface; but the effect 
 of sniootliin.i^ the waves was not produced ; for 
 I had applied it first on tlie leeward side of the 
 'poiul, where the waves were larj^est, and !he 
 wind drove my oil back up(jn the sliore. 1 then 
 went to the windward side, where they bei^an 
 to form ; and there the oil, thouj^h not more 
 than a teaspoonful, produced an instant calm 
 over a space several yards square, which spread 
 amazinj^ly, and extended itself gradually, till it 
 reached the lee side, making all that cjuarter of 
 the pond, perhaps half an acre, as smooth as a 
 looking glass. 
 
 " A gentleman from Rhode Island told me it 
 had been remarked that the harbor of Newport 
 was ever smooth while any whaling v^esscls were 
 in it; which probably arose from hence, that 
 the blubber, which they sometimes bring loose 
 in the hold, or the leakage of their barrels, 
 might afford some oil to mix with that water, 
 which, from time to time, they pump out to keep 
 their vessel free, and that some oil might spread 
 over the surface of the water in the harbor and 
 prevent the forming of any waves." 
 
 Thus Franklin collected his facts, taking them 
 far and near, and from anybody and everybody. 
 By dint of observation and reflection he finally 
 solved the problem, arriving at the conclusion 
 that " the wind blowing over water thus covered 
 with a film of oil, cannot easily catch upon it, so 
 as to raise the first wrinkles, but slides over it, 
 and leaves it smooth as it finds it." 
 
 Another remarkable instance of Franklin's pas- 
 a 
 
 
 
 
 s 
 
 wm 
 
34 
 
 INVKNTORS 
 
 sion for investigation is afforded in the foilowiiij^ 
 interesting letter to Sir John Pringle : " When 
 we were travellinj^ toj^ether in Holland, you re- 
 marked that the canal boat in one of the staj^es 
 went slower than usual, and inquired of the boat- 
 man what might be the reason ; who answered 
 that it had been a dry season, and the water in 
 the canal was low. On being asked if it was so 
 low that the boat touched the muddy bottom, 
 he said no, not so low as that, but so low as to 
 make it harder for the horse to draw the boat. 
 We neither of us at first could conceive that, if 
 there was water enough for the boat to swim 
 clear of the bottom, its being deeper would make 
 any difference. But as the man affirmed it seri- 
 ously as a thing well known among them, and 
 as the punctuality required in their stag^es was 
 likely to make such difference, if any there were, 
 more readily observed by them than by other 
 watermen who did not pass so regularly and con- 
 stantly backwards and forwards in the same 
 track, I began to apprehend there might be 
 something in it, and attempted to account for it 
 from this consideration, that the boat in proceed- 
 ing along the canal must, in every boat's length 
 of her course, move out of her way a body of 
 water equal in bulk to the room her bottom took 
 up in the water ; that the water so moved must 
 pass on each side of her, and under her bottom, to 
 get behind her ; that if the passage under her 
 bottom was straitened by the shallows, more of 
 the water must pass by her sides, and with a 
 swifter motion, which would retard her, as mov- 
 
UKNJA MIX FRANK UN 
 
 35 
 
 uvjr the contrary way ; or that, the water becoin- 
 insr lower behind the l)oat than before, slie was 
 pressed back by the weijj^ht of its difference in 
 liii;iit, and her motion retarded by havin<i^ tiiat 
 weii^ht constantly to overcome. IJnt, as it is of- 
 ten lost time to attempt accountinj^ for uncertain 
 facts, I determined to make an exj)eriment of 
 this, when I should have convenient time and 
 opportunity. 
 
 " After our return to En<:^land, as often as I 
 liappened to be on the Thames, I enquired of our 
 watermen whether they were sensible of anv 
 diiference in rowin<^ over shallow or deep water. 
 I found them all ai^reeing in the fact that there 
 was a very great difference, but they differed 
 widely in expressing the quantity of the differ- 
 ence ; some supposing it was equal to a mile in 
 six, others to a mile in three. As I did not rec- 
 ollect to have met with any mention of this 
 matter in our philosophical books, and conceiv- 
 ing that, if the difference should be really great, 
 it might be an object of consideration in the 
 many projects now on foot for digging new 
 navigable canals in this island, I lately put mv 
 design of making the experiment in execution, 
 in the following manner. 
 
 '* I provided a trough of planed boards fourteen 
 feet long, six inches wide, and six inches deep in 
 the clear, filled with water within half an inch of 
 the edge, to represent a canal. I had a loose 
 board of nearly the same length and breadth, 
 that being put into the water, might be sunk to 
 any depth, and fixed by little wedges where I 
 
 V 
 
 
 ! I 
 
 ?i 
 
 s 
 
 
INVENTORS 
 
 would choose to have it stay, in order to make 
 different depths of water, leaving the surface at 
 the same hight with regard to the sides of the 
 trough. 1 had a little boat in form of a lighter 
 or boat of burden, six inches long, two inches 
 and a quarter wide, and one inch and a quarter 
 deep. When swimming it drew one inch of 
 water. To giwQ motion to the boat, I fixed one 
 end of a long silk thread to its bow, just even 
 with the water's edge, the other end passed over 
 a well-made brass pulley, of about an inch in 
 diameter, turning freely upon a small axis ; and 
 a shilling was the weight. Then placing the 
 boat at one end of the trough, the weight would 
 draw it through the water to the other. Not 
 having a watch that shows seconds, in order to 
 measure the time taken up by the boat in passing 
 from end to end of the trough, I counted as fast 
 as I could count to ten repeatedly, keeping an 
 account of the number of tens on my fingers. 
 And, as much as possible to correct any little in- 
 equalities in my counting, I repeated the experi- 
 ment a number of times at each depth of water, 
 that 1 might take the medium." 
 
 The experiment proved the truth of the 
 boatmen's assertions. Franklin found that five 
 horses would be required to draw a boat in a 
 canal affording little more than enough water to 
 float it, which four horses could draw in a canal 
 of the proper depth. 
 
 No circumstance, remarks Mr. Parton, was 
 too trifling to engage him upon a series of exper- 
 iments. At dinner, one day, a bottle of Madeira 
 
/>'A;.V./.1 M1i\ Fit an KLIN 
 
 37 
 
 was opened which had been bottled in Virginia 
 many months before. Into the first glass poured 
 from it fell three drowned flies. " Having heard 
 it remarked that drowned flies were capable of 
 being revived by the rays of the sun, I proposed 
 making the experiment upon these; they were 
 therefore exposed to the sun upon a sieve which 
 had been employed to strain them out of the 
 wine. In less than three hours two of them be- 
 gan by degrees to recover life. They com- 
 menced by some convulsive motions of the 
 thighs, and at length they raised themselves 
 upon their legs, wiped their eyes with their fore- 
 feet, beat and brushed their wings with their 
 hind feet, and soon after began to fly, finding 
 themselves in Old England without knowing 
 how the}^ came thither. The third continued 
 lifeless till sunset, when, losing all hopes of him, 
 he was thrown away." And upon this he re- 
 marks : " I wish it were possible, from this in- 
 stance, to invent a method of enbalming drowned 
 persons in such a manner that they may be re- 
 called to life at any period, however distant ; for 
 having a very ardent desire to see and observe 
 the state of America a hundred years hence, I 
 should prefer to any ordinary death being im- 
 mersed in a cask of Madeira wine, with a few 
 friends, till that time, to be then recalled to life 
 by the solar warmth of my dear country." 
 
 Among the studies in natural philosophy of 
 which but little is known to the general pub- 
 lic may be mentioned Franklin's experiments 
 with heat at a time when a thermometer was a 
 
 I' 
 
 y ts 
 
 ''X 
 
 V 
 I 
 
 » 
 
 ti 
 
INVENTORY 
 
 scientific curiosity. The manner in which he 
 proved that black cloth was not so good a cov- 
 ering for the body in hot weather as white, 
 shows the simplicity of his methods and his 
 faculty for making small means subserve great 
 ends : " I took a number of little square pieces 
 of broadcloth from a tailor's pattern-card, of 
 various colors. There were black, deep blue, 
 lighter blue, green, purple, red, yellow, white, 
 and other colors or shades of colors. I laid 
 them all out upon the snow in a bright sunshiny 
 morning. In a few hours the black, being 
 warmed most by the sun, was so low as to be be- 
 low the stroke of the sun's rays ; the dark blue 
 almost as low, the lighter blue not quite so much 
 as the dark, the other colors less as they were 
 lighter, and the quite white remained on the 
 surface of the snow, not having entered it at all. 
 What signifies philosophy that does not apply to 
 some use ? May we not learn from hence that 
 black clothes are not so fit to wear in a hot, 
 sunny climate or season as white ones?" That 
 all summer hats, particularly for soldiers, should 
 be white, and that garden walls intended for 
 fruit should be black, were suggestions put forth 
 as a result of this experiment. 
 
 Dr. Small assigns to Franklin the credit of 
 having discovered that repeated respiration im- 
 parts to air a poisonous quality similar to that 
 which extinguishes candles and destroys life 
 in mines and wells. *' The doctor," he records, 
 " breathed gently through a tube into a deep 
 glass mug, so as to impregnate all the air in 
 
BENJAMIN FRANKLIN 
 
 39 
 
 the mug with this quality. He then put a 
 lighted bougie (candle ) into the mug, and upon 
 touching the air therein the flame was in- 
 stantly extinguished ; by frequently repeat- 
 ing this operation, the bougie gradually pre- 
 served its light longer in the mug, so as in a 
 short time to retain it to the bottom of it, the 
 air having totally lost the bad quality it had 
 contracted from the breath blown into it." Upon 
 being consulted with regard to the better ventil- 
 ation of the House of Commons, he advised that 
 openings should be made near the ceiling, com- 
 municating with flues running parallel with the 
 chimneys and close enough to them to be kept 
 warm by their heat. These flues, he recom- 
 mended, should begin in the cellar, where the 
 air was cool, and the flues being warmed by the 
 hot air of the chimneys, would cause an up- 
 ward current of air strong enough to expel the 
 vitiated air in the upper part of the house. 
 Franklin's letters at this time are full of the 
 importance of ventilation. Unquestionably, he 
 was among the first who called attention to 
 the folly of excluding fresh air from hospitals 
 and sick-rooms, particularly those of fever pa- 
 tients. As Mr. Parton expresses it, he cleared 
 the pure air of heaven from calumnious imputa- 
 tion and threw open the windows of mankind. 
 
 Some inventions of Franklin's have not met 
 with the approval of posterity. For instance, he 
 seems to have had no more success with a re- 
 formed spelling of his own devising than laborers 
 in the same field who came after him. He used 
 
 
 \ 
 
 '♦ii 
 
 & 
 
 
 1! 
 f 
 
 
 
 i t 
 
 
 ^•M 
 
40 
 
 INVENTORS 
 
 to sa}' that they alone spelt well who spelt ill, 
 since the so-called bad speller used the letters 
 according to their real value. The illiterate 
 girl who wrote of her bo was more correct, he 
 thought, than the young lady who would blush 
 to omit a superfluous vowel. What was the use 
 of the final letter in muff, and why take the 
 trouble to write tough when tuf would do as 
 well ? Had he lived to see Dr. Webster's 
 Dictionary, the lexicographer would have found 
 in him an ardent champion. His reformed al- 
 phabet and spelling is an interesting curiosity, 
 but hardly more. Some letters of our alpha- 
 bet he omitted, only to add new ones. He also 
 changed their order, making o the first letter and 
 m the last. In this connection it may be well to 
 say that Franklin was perhaps the first and fore- 
 most American champion of the movement, 
 now so powerful, looking to the displacement of 
 Latin and Greek as the foundations of education. 
 At the very close of his life, in 1789, he issued 
 his famous protest against the study of dead lan- 
 guages. He is reported to have said one even- 
 ing, when talking about this matter: "When 
 the custom of wearing broad cuffs with buttons 
 first began, there was a reason for it; the cuffs 
 might be brought down over the hands and thus 
 guard them from wet and cold. But gloves came 
 into use, and the broad cuffs were unnecessary ; 
 yet the custom was still retained. So likewise 
 with cocked hats. The wide brim, when let 
 down, afforded a protection from the rain and 
 the sun. Umbrellas were introduced, yet fash- 
 
BENJAMIN FRANKLIN 
 
 41 
 
 ion prevailed to keep cocked hats in vogue, 
 although they vv^ere rather cumbersome than 
 useful. Thus with the Latin language. When 
 nearly all the books of Europe were written 
 in that language, the study of it was essential in 
 every system of education ; but it is now scarcely 
 needed, except as an accomplishment, since it 
 has everywhere given place, as a vehicle of 
 thought and knowledge, to some one of the 
 modern tongues." 
 
 With all his love of the practical, Franklin was 
 not deficient in a rather delicate wit. I have al- 
 ready had occasion to quote at the beginning of 
 this paper his disclaimer of the honors conferred 
 upon him by Turgot's famous Latin line. In- 
 stances of this dry humor may be found all 
 through Sparks's exhaustive biography. I re- 
 member one in particular. The merchants of 
 Philadelphia, being at one time desirous to es- 
 tablish an assembly for dancing, they drew up 
 some rules, among which was one " that no me- 
 chanic or mechanic's wife or daughter should be 
 admitted on any terms." This rule being sub- 
 mitted to Franklin, he remarked that '* it excluded 
 God Almighty, for he was the greatest mechanic 
 in the universe." 
 
 Benjamin Franklin's services to the cause of 
 invention by no means ended with his own in- 
 ventions. One of his greatest services was the 
 part he took in the foundation of the American 
 Philosophical Society, whose object was to bring 
 into correspondence with a central association 
 in Philadelphia all scientists, philosophers, and 
 
 r 
 
 111 
 
 
 
 
 !,= ■ ■ 
 
 
42 
 
 INVENTORS 
 
 inventors on this continent and in Europe. 
 Franklin's share in the foundation of this soci- 
 ety, which has proved of such vast use, seems 
 to have been largely overlooked by his biogra- 
 phers. Mr. Parton, having mentioned that Frank- 
 lin founded the society in accordance with his 
 proposal of 1743, adds : " The society was formed 
 and continued in existence for some years. 
 Nevertheless^ its success was neither great nor 
 permaiicat, [<»'* at that day the circle of men ca- 
 pable of L'lkin^^j; much interest in science was too 
 limited fc* the proper support of such an organi- 
 zation." 1 he ^ecciU historian of the society, 
 Dr. Robert M. Patteison, agrees, however, with 
 Sparks in tracing the origin of the Philosophi- 
 cal Society, which grew into prominence about 
 1767, back to Franklin's proposal of 1743. After 
 describing the Junto, or Leather Apron Society, 
 formed among Franklin's acquaintance, a sort of 
 debating club of eleven young men, Sparks says : 
 *' Forty years after its establishment it became 
 the basis of the American Philosophical Society, 
 of which Franklin was the first president, and 
 the published transactions of which have con- 
 tributed to the advancement of science and the 
 diffusion of valuable knowledge in the United 
 States." In his first proposal Franklin gave a 
 list of the subjects that were to engage the at- 
 tention of these New World philosophers. It in- 
 cluded investigations in botany; in medicine; in 
 mineralogy and mining; in chemistry; in me- 
 chanics ; in arts, trades, and manufactures ; in 
 geography and topography ; in agriculture ; and, 
 
BENJAMIN FRANK UN 
 
 43 
 
 lest something should have been forgotten, he 
 adds that the association should " give its atten- 
 tion to all philosophical experiments that let 
 light into the nature of things, tend to increase 
 the power of man over matter and multiply the 
 
 
 Franklin's Grave. 
 
 conveniences or pleasures of life." The duties 
 of the secretary of the society were laid down 
 and were arduous, including much foreign corre- 
 spondence, in addition to the correcting, abstract- 
 ing, and methodizing of such papers as required 
 it. This office Franklin took upon himself. 
 
 While he lived the proceedings of the society 
 scarcely ever failed of a useful end. Unlike so 
 
 11, 
 
 111:; 
 
 111! 
 
 •t'lij:::'! 
 
 li'j 
 
 I - 
 
 I' 
 
 
 M 
 
 * 
 
44 
 
 IN VENTURIS 
 
 many original and inventive geniuses, his emi- 
 nent common sense was as marked as his origi- 
 nality. In the language of his most recent bi- 
 ographer, John Bach McMaster, " whatever 
 he has said on domestic economy or thrift is 
 sound and striking. No other writer has left so 
 many just and original observations on success 
 in lite. No other writer has pointed out so 
 clearly the way to obtain the greatest amount of 
 comfort out of life. What Solomon did for the 
 spiritual man, that did Franklin for the earthly 
 man. The book of Proverbs is a collection of 
 receipts for laying up treasure in heaven. * Poor 
 Richard' is a collection of receipts for laying up 
 treasure on earth." 
 
II. 
 
 ROBERT FULTON. 
 
 ' ( i 
 
 is 
 r 
 
 Robert Fulton, the inventor of the steam- 
 boat, or at least the first man to apply the power 
 of the steam-engine to the propulsion of boats in a 
 practical and effective manner, was born in Little 
 Britain, Lancaster County, Pa., 1765, of respect- 
 able but poor parents. His father was a native of 
 Kilkenny, Ireland, and his mother came of a fairly 
 well-to-do Irish family, settled in Pennsylvania. 
 He was the third of five children. As a child he 
 received the rudiments of a common education. 
 His vocation showed itself in his earliest years. 
 All his hours of recreation were passed in shops 
 and in drawing. At the time he was seventeen 
 he had become so much of an artist as to make 
 money by portrait and landscape painting in 
 Philadelphia, where he remained until he was 
 twenty-one. After this he went to Washington 
 County and there purchased a little farm on 
 which he settled his mother, his father having 
 died when he was three years old. He returned 
 to Philadelphia, but on his way visited the Warm 
 Springs of Pennsylvania, where he met with 
 some gentlemen who were so much pleased with 
 his painting that they advised him to go to Eng- 
 land, where they told him he would meet with 
 
 i m 
 
 •:p 
 
.7 
 
 •••«. ..'■■■►«., 
 
 
 ^' ■.,.■.■%: m II -w; 
 
 '. -, •.:■•,■•-•; M :.: -•;. . ,. 
 
 • V '';;■;: ^i. f--, ■;■■■;,■ ■ 
 
 
 S'^■W'^■u.,# 
 
 
 -■■^ffy/y^^V^ 
 
 ^-^ 
 
 • «v Vv.-.-.>' 
 
 
 1' ' . 
 
 
 Robert Fulton. 
 
ROBERT FULTON 
 
 47 
 
 West who had then attained great celebrity. 
 Fulton took this advice, and his reception by 
 West, always kindly toward Americans, was 
 such as he had been led to expect. Tiie dis 
 tinguished painter was so well pleased with him 
 that he took him into his house, where he con- 
 tinued to live for several years. For some time 
 Fulton made painting his chief employment, 
 spending two years in Devonshire, near Exeter, 
 where he made many influential acquaintances, 
 among others the Duke of Bridgewater, famous 
 for his canals, and Lord Stanhope, a nobleman 
 noted for his love of science and his attachment 
 to the mechanic arts. With Lord Stanhope, Ful- 
 ton held a correspondence for a long time upon 
 subjects in which they were interested. 
 
 In 1793, Fulton was engaged in a project to 
 improve inland navigation. Even at that early 
 day it appeared that he had conceived the idea 
 of propelling vessels by steam, and he speaks in 
 his letters of its practicability. In 1794 he ob- 
 tained from the British Government a j)atent for 
 improvements in canal locks, and his pursuits at 
 this time appear to have been in this direction. 
 In his preface to a description of his Nautilus, or 
 " plunging" boat, a species of submarine boat, 
 he says that he had resided eighteen months in 
 Birmingham where he acquired much of his 
 knowledge of mechanics. In later years, when 
 in Paris, Fulton sent a large collection of his 
 manuscripts to this country. Unfortunately, the 
 vessel in which they were sent was wrecked, 
 and, while the case \vas recovered, only a few 
 
 
 li|j r' 
 
 
 Ml 
 
 ii! 
 
 Ill 
 
 hI|; 
 Sl'l 
 
 it 
 
 5*" 
 
48 
 
 iNVKyrouH 
 
 fragments of the manuscripts could be used. It 
 is owing" to this misfortune that we have so few 
 records of Fulton's work at this time. 
 
 We know, however, that in 1794 he submitted 
 to the British Society for the Promotion of Arts 
 and Commerce an improvement of his invention 
 for sawing marble, for which he received the 
 
 
 "%(■!''■ 
 
 Birthplace of Robert Fulton* 
 
 thanks of the society and an honorary medal. 
 He invented also, it is thought, about this time, a 
 machine for spinning flax and another for mak- 
 ing ropes, for both of which he obtained patents 
 from the British Government. A mechanical 
 contrivance for scooping out earth to form chan- 
 nels for canals or aqueducts, which is said to have 
 
 • This illustration and the four following are from Knox's " Life 
 of Fulton," repro(hiced by permission of the publishers, G. P. Put- 
 nam's Sons. 
 
llOliKUT FVLTOX 
 
 4'J 
 
 been much used in England, was also liis inven- 
 tion. The subject of canals appears to have 
 chiefly engaj^^ed his attention during these years 
 of the end of the century. He called himself a 
 civil engineer, and under this title published his 
 work on canals, and, in 1795, many essays on tlie 
 same subject in one of the London journals. I le 
 recommended small canals and boats of little 
 burden in a treatise on " Improvement of Canal 
 Navigation," and inclined planes instead of locks, 
 as a means of transporting canal boats from one 
 level to an(jther. His plans were strongly rec- 
 onunended by the British Board of vgricult- 
 ure. Throughout his course as civil engineer 
 his talent for drawing was of great advantage to 
 him, and the plates annexed to his works are ad- 
 mirable examples of such work. He seems to 
 have neglected his painting till a short time be- 
 fore his death, when he took up the brush again 
 to paint some portraits of his family. During 
 his residence in England he sent copies of his 
 works to distinguished men in this country, 
 setting forth the advantages to be derived from 
 communication by canals. 
 
 Having obtained a patent for mill improve- 
 ments from the British Government, he went to 
 France with the intention of introducing his in- 
 vention there ; but, not meeting with much en- 
 couragement, he devoted his time to otlier 
 matters. Political economy had also some at- 
 traction for him, and he wrote a book to show 
 that internal improvements would have a good 
 effect (jn the happiness of a nation. He not only 
 4 
 
 ' i 
 
 1^1 1 
 
 1! 
 
 
 ^ ■ 
 
 -hi 
 
7^ 
 
 50 
 
 INVENTORS 
 
 wished to see a free and speedy communication 
 between the different parts of a large country, 
 but universal free trade between all countries, 
 lie thought that it would take ages to establish 
 the freedom c f the seas by the common consent 
 of nations, and believed in destroying ships of 
 war, so as to put it out of the power of any na- 
 tion to control ocean trade. In 1797 he became 
 acquainted with Joel Barlow, the well-known 
 American, then residing in Paris, in whose family 
 he lived for seven years, during which time he 
 learned French and something of German, and 
 studied mathematics and chemistry. In the same 
 year he made an experiment with Mr. Barlow on 
 the Seine with a machine he had constructed to 
 give packages of gunpowder a progressive mo- 
 tion under water and then to explode at a given 
 point. These experiments appear to have been 
 the first in the line of his submarine boats, and 
 are unquestionably the germ of all subsequent 
 inventions in the direction of torpedo warfare. 
 
 Want of money to carry out his designs in- 
 duced him to apply to the French Directory, 
 who at first gave him reason to expect their aid, 
 but finally rejected his plan. Fulton, however, 
 was not to be discouraged, but went on with his 
 inventions, and having made a handsome model 
 of his machine for destroying ships, a commis- 
 sion was appointed to examine his plans, but 
 they also rejected them. He offered his idea to 
 the British Government, still again without suc- 
 cess, although a committee was appointed to ex- 
 amine his models. The French Government 
 
ROBERT FULTON 
 
 51 
 
 being changed, and Bonaparte having come to 
 the head of it, Fulton presented an address to 
 him. A commission was appointed, and some as- 
 sistance given which enabled him to put some of 
 his plans into practice. In the spring of 1801 
 he v>^ent to Brest to make experiments with the 
 plunging boat that he had constructed in the win- 
 ter. This, as he says, had many imperfections, 
 to be expected in a first machine, and had been 
 injured by rust, as parts which should have been 
 of copper or brass were made of iron. 
 
 Notwithstanding these disadvantages, he en- 
 gaged in a course of experiments which required 
 no less courage than perseverance. From a re- 
 port of his proceedings to the committee ap- 
 pointed by the French Government we learn that 
 in July, 1 801, he embarked with three compan- 
 ions on board of this boat, in the harbor of 
 Brest, and descended to the depth of twenty-five 
 feet, remaining below the surface an hour, in 
 utter darkness, as the candles were found to con- 
 sume too much of the vital air. He placed two 
 men at the engine, which was intended to give 
 her motion, and one at the helm, while he, with 
 a barometer before him, kept her balanced be- 
 tween the upper and lower waters. He could 
 turn her round while under the water, and found 
 that in seven minutes he had gone about a third 
 ot a mile. During that summer Fulton de- 
 scended under water with a store of air com- 
 pressed into a copper globe, whereby he was 
 enabled to remain under water four hours and 
 twenty minutes. The success of these experi- 
 
 
 Ml 
 
 • I 
 
 'ii 
 
 III 
 
 h 
 
 if 
 
 
 t 
 
52 
 
 INVENTORS 
 
 ments determined him to try the effect of his 
 invention on the English war-ships, then daily 
 near the harbor of Brest — France and England 
 being then at war. He made his own bombs. 
 For experimental purposes a small vessel was 
 anchored in the harbor, and with a bomb con- 
 taining about twenty pounds of powder, he ap- 
 proached within about two hundred yards, 
 struck the vessel, and blew her into atoms. A 
 column of water and fragments were sent nearly 
 one hundred feet into the air. This experiment 
 was made in the presence of the prefect of the 
 department and a multitude of spectators. Dur- 
 ing the summer of 1801 Fulton tried to use his 
 bombs against some of the English vessels, but 
 was not successful in getting within range. The 
 French Government refused to give him further 
 encouragement. 
 
 The English had some information concerning 
 the attempts that their enemies were making, 
 and the anxiety expressed induced the British 
 Minister to communicate with Fulton and try to 
 secure to England his services. In this he was 
 successful, and Fulton went to London, where he 
 arrived in 1804, ^^^ "^^t Pitt and Lord Melville. 
 When Mr. Pitt first saw a drawing of a torpedo 
 with a sketch of the mode of applying it, and 
 understood what would be the effect of the ex- 
 plosion, he said that if it were introduced into 
 practice it could not fail to annihilate all navies. 
 
 But from the subsequent conduct of the Brit- 
 ish ministry it is supposed that they never really 
 intended to give Fulton a fair opportunity to try 
 
' ■ 
 
 ROBERT FULTON 
 
 53 
 
 the effect of his submarine engines. Their ob- 
 ject may have been to prevent these devices 
 getting into the hands of an enemy. Several 
 experiments were made, and some of them were 
 failures, but on October 15, 1805, he blew up a 
 strong -built Danish brig of two hundred tons 
 burden, which had been provided for the experi- 
 ment and which was anchored near the residence 
 
 '; ^\ 
 
 ■•'' "'''''H^ii^^wiiiijj 
 
 
 . tlh 
 
 Fulton Blowing Ud a Danish Brig. 
 
 of Pitt. The torpedo used on this occasion con- 
 tained one hundred and seventy pounds of pow- 
 der. In fifteen minutes from the time of starting 
 the machinery the explosion took place. It lifted 
 the brig almost entire and broke her completely 
 in two ; in one minute nothing was to be seen of 
 her but floating fragments. Notwithstanding 
 the complete success of this experiment, the 
 British ministry seems to have had nothing to do 
 with Fulton. The inventor was rather discour- 
 
 lH 
 
54 
 
 INVENTORS 
 
 aged at this lack of appreciation and, after some 
 furtheV experiments, he sailed for New York in 
 December, 1806. 
 
 In this country Fulton devoted himself at once 
 to his projects of submarine warfare and steam 
 navigation. So far from being discouraged by 
 his failure to impress Europe with the impor- 
 tance of his torpedoes, his confidence was un- 
 shaken, because he saw that his failures were to 
 be attributed to trivial errors that could easily 
 be corrected. He induced our Government to 
 give him the means of making further experi- 
 ments, and invited the magistracy of New York 
 and a number of citizens to Governor's Island 
 where were the torpedoes and the machinery 
 with which his experiments were to be made. 
 In July, 1807, he blew up, in the harbor of New 
 York, a large brig prepared for that purpose. 
 He also devised at this time a number of station- 
 ary torpedoes, really casks of powder, with trig- 
 gers that might be caught by the keel of any 
 passing vessel. In March, 18 10, $5,000 were 
 granted by Congress for further experiments 
 in submarine explosions. The sloop of war, 
 Argus, was prepared for defence against the 
 torpedoes after Fulton had explained his mode 
 of attack. This defence was so complete that 
 Fulton found it impracticable to do anything 
 with his torpedoes. Some experiments were 
 made, however, with a gun-harpoon and cable 
 cutter, and after several attempts a fourteen-inch 
 cable was cut off several feet below the surface 
 of the water. 
 
ROBERT FULTON 
 
 55 
 
 Fulton was, during all these experiments, 
 much pressed for money, and apparently was 
 making no headway toward the use of his sub- 
 marine engines in a profitable way. It was in de- 
 spair of getting oar Government to make an in- 
 vestment in this direction that he finally turned 
 to the problem of navigation by steam. He 
 had the valuable co-operation in his new work 
 {)[ Chancellor Livingston, of New Jerse}^ who, 
 while devoting much of his own time and means 
 to the advancement of science, was fond of fos- 
 tering the discoveries of others. He had very 
 clear conceptions of what would be the great 
 advantages of steamboats on the navigable rivers 
 of the United States. He had already, when in 
 Paris, applied himself at great expense to con- 
 structing vessels and machinery for that kind of 
 navigation. As early as 1798 he believed that 
 he had accomplished his object, and represent- 
 ed to the Legislature of New York that he was 
 possessed of a mode of applying the steam-en- 
 gine to a boat on new and advantageous prin- 
 ciples ; but that he was deterred from carrying 
 it into effect by the uncertainty of expensive ex- 
 periments, unless he could be assured of an ex- 
 clusive advantage should it be successful. The 
 Legislature in March, 1798, passed an act vesting 
 him with the exclusive right and privilege of 
 navigating all kinds of boats which might be 
 propelled by the force of fire or steam on all 
 the waters within the territory of New York for 
 the term of twenty years, upon condition that he 
 should within a twelve-month build such a boat, 
 
 ,1 m 
 
 ■ ■ 1 i 
 
 I :ii 
 
 ^"J;i 
 
50 
 
 iNVh'uV'roiiS 
 
 whose }>rf)^ress sliould not be less than four 
 miles an hour. 
 
 Livingston, as soon as the act had passed, built 
 a boat of about thirty tons burden, to be pro- 
 
 ^'"m: 
 
 
 -■■■-■ ,.':(^*"?;^ 
 
 John Fitch's Steamboat at Philadelphia. 
 
 pelled by vSteani. Soon after he entered into a 
 contract with Fulton, by which it was agreed 
 that a patent should be taken out in the United 
 States in Fulton's name. Thus began the prep- 
 arations for the first practical steamboat. All 
 the experiments were paid for by Chancellor Liv- 
 ingston, but the work was Fulton's. In 1802, in 
 F*aris, he began a course of calculations upon the 
 resistance of water, upon the most advantageous 
 form of the body to be moved, and upon the 
 different means of propelling vessels which had 
 been previously attempted. After a variety of 
 calculations he rejected the proposed plan of 
 
"WW 
 
 Ronhmr rrwoA 
 
 57 
 
 using paddles or oars, sucli as those already 
 used by Fitch; likewise that of ducks' feet, 
 which open as they are pushed out and shut as 
 they are drawn in ; also that of forcing water 
 out of the stern of the vessel. He retained two 
 methods as worthy of experiment, namely, end- 
 less chains with paddle-boards upon them, and 
 the paddle-wheel. The latter was found to be 
 the most promising, and was finally adopted 
 after a number of trials with models on a little 
 river which runs through the village of Plom- 
 bi^res, to which he had retired in the spring of 
 1802, to pursue his experiments without inter- 
 ruption. 
 
 It was now determined to build an experimen- 
 
 Fulton's First Experiment with Paddle-wheels. 
 
 tal boat, which was completed in the spring of 
 1803 ; but when Fulton was on the point of mak- 
 ing an experiment with her, an accident hap- 
 pened to the boat, the woodwork not having 
 
 flu 
 
 1*1 !' 
 
 1 '1 
 
 1 
 
58 
 
 INVENTORS 
 
 been framed strongly enough to bear the weight 
 of the machinery and the agitation of the river. 
 The accident did the machinery very little in- 
 jury ; but they were obliged to build the boat al- 
 most entirely anew. She was completed in July ; 
 her length was sixty-six feet and she was eight 
 feet wide. Early in August, Fulton addressed a 
 letter to the French National Institute, inviting 
 the members to witness a trial of his boat, which 
 was made before the members, and in the pres- 
 ence of a great multitude of Parisians. The 
 experiment was entirely satisfactory to Fulton, 
 though the boat did not move altogether with 
 as much speed as he expected. But he imputed 
 her moving so slowly to the extremely defective 
 machinery, and to imperfections which were to 
 be expected in the first experiment with so com- 
 plicated a machine ; the defects were such as 
 might be easily remedied. 
 
 Such entire confidence did he acquire from 
 this experiment that immediately afterward 
 he wrote to Messrs. Boulton & Watt, of Bir- 
 mingham, England, ordering certain parts of a 
 steam-engine to be made for him, and sent to 
 America. He did not disclose to them for 
 what purpose the engine was intended, but his 
 directions weic such as would produce the 
 parts of an engine that might be put together 
 within a compass suited for a boat. Mr. Liv- 
 ingston had written to his friends in this coun- 
 try, and through their assistance an act was 
 passed by the Legislature of the State of New 
 York, on April 5, 1803, by which the rights 
 
1 
 
 ROBERT FULTON 
 
 59 
 
 and cx'clusivc privileges of navigating all the 
 waters of that State, by vessels propelled by 
 fire or steam, granted to Livingston by the Act 
 of 1798, as already mentioned, were extended to 
 Livingston and Fulton, for the term of twenty 
 years from the date of the new act. By this 
 law the time of producing proof of the prac- 
 ticability of propelling by steam a boat of 
 twenty tons capacity, at the rate of four miles 
 an hour, with and against the ordinary current 
 of the Hudson, was extended two years, and 
 by a subsequent law, the time was extended to 
 1807. 
 
 Very soon after Fulton's arrival in New York 
 he began building his first American boat. 
 While she was constructing, he found that her 
 cost would greatly exceed his calculations. He 
 endeavored to lessen the pressure on his own 
 finances by offering one-third of the rights for a 
 proportionate contribution to the expense. It 
 was generally known that he made this offer, 
 but no one was then willing to afford aid to his 
 enterprise. 
 
 In the spring of 1807, Fulton's first American 
 boat was launched from the shipyard of Charles 
 Brown, on the East River. The engine from 
 England was put on board, and in August she 
 was completed, and was moved by her ma- 
 chinery from her birthplace to the Jersey shore. 
 Livingston and Fulton had invited many of 
 their friends to witness the first trial, among 
 them Dr. Mitchell and Dr. M'Neven, to whom 
 we are indebted for some account of what 
 
 ifH 
 
 i.j^ 
 
 1) 
 •III' 
 
 I!' 
 
 !')■ 
 
 ■*• )• 
 
 I'l 
 
 Is 
 
60 
 
 INVHJNTOUS 
 
 passed on this occasion. Nothing could exceed 
 the surprise and admiration of all who wit- 
 nessed the experiment. The minds of the most 
 incredulous were changed in a few minutes. 
 Before the boat had gone a quarter of a mile, 
 the greatest unbeliever must have been con- 
 verted. The man who, while he looked on the 
 expensive machine, thanked his stars that he 
 had more wisdom than to waste his money on 
 such idle schemes, changed his mind as the boat 
 moved from the wharf and gained speed, and 
 his complacent expression gradually stiffened 
 into one of wonder. 
 
 This boat, which was called the Clermont, 
 soon after made a trip to Albany. Fulton gives 
 the following account of this voyage in a letter 
 to his friend, Mr. Barlow : 
 
 " My steamboat voyage to Albany and back, 
 has turned out rather more favorable than I had 
 calculated. The distance from New York to 
 Albany is one hundred and fifty miles ; I ran 
 it up in thirty-two hours, and down in thirty. 
 I had a light breeze against me the whole way, 
 both going and coming, and the voyage has been 
 performed wholly by the power of the steam- 
 engine. I overtook many sloops and schooners 
 beating to windward, and parted with them as if 
 they had been at anchor. The power of propel- 
 ling boats by steam is now fully proved. The 
 morning I left New York there were not, perhaps, 
 thirty persons in the city who believed that the 
 boat would even move one mile an hour, or be of 
 the least utility ; and while we were putting off 
 
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 from the wharf, which was crowded with sjjecta- 
 tors, I heard a number of sarcastic remarks. 
 This is the way in which ignorant men compli- 
 ment what they call philosophers and projectors. 
 Having employed mucn time, money, and zeal, in 
 accomplishing this work, it gives me, as it will 
 you, great pleasure to see it fully answer my ex- 
 pectations. It will give i' cheap and quick con- 
 veyance to the merchandise on the Mississippi, 
 Missouri, and other great rivers, which arc now 
 laying open their treasures to the enterprise 
 of our countrymen ; and although the prospect 
 of personal emolument has been some induce- 
 ment to me, yet I feel infinitely more pleasure in 
 reflecting on the immense advantage that my 
 country will derive from the invention." 
 
 Soon after this successful voyage, the Hudson 
 boat was advertised and established as a regular 
 passage-boat between New York and Albany. 
 She, however, in the course of the season, met 
 with several accidents, from the hostility of 
 those engaged in the ordinary navigation of the 
 river, and from defects in her machinery, the 
 gTf^atest of which was having her water-wheel 
 
 uifts of cast-iron, which was insufficient to sus- 
 
 ,n the great power applied to them. The 
 wheels also were hung without any support for 
 the outward end of the shaft, which is now 
 supplied by what are called the wheel-guards. 
 
 At th session of 1808 a law was passed to 
 prolon* le time of the exclusive right to thirty 
 years, also declared combinations to destroy 
 the boa or wilful attempts to injure her, public 
 
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62 
 
 INVENTORS 
 
 offences, punishable by fine and imprisonment. 
 Notwithstanding her misfortunes, the boat con- 
 tinued to run as a packet, always loaded with 
 passengers, for the remainder of the summer. 
 In the course of the ensuing winter she was 
 enlarged, and in the spring of 1808 she again 
 began running as a packet-boat, and continued it 
 through the season. Several other boats were 
 soon built for the Hudson River, and also for 
 steamboat companies formed in different parts 
 of the United States. On February 11, 1809, Ful- 
 ton took out a patent for his inventions in navi- 
 gation by steam, and on February 9, 181 1, he ob- 
 tained a second patent for some improvements in 
 his boats and machinery. 
 
 About the year 18 12 two steam ferry-boats 
 were built under the direction of Fulton for 
 crossing the Hudson River, and one of the same 
 description for the East River. These boats 
 were what are called twin-boats, each of them 
 being two complete hulls united by a deck or 
 bridge. They were sharp at both ends, and 
 moved equally well with either end foremost, so 
 that they crossed and recrossed without losing 
 any time by turning about. He contrived, with 
 great ingenuity, floating docks for the reception 
 of these boats, and a means by which they were 
 brought to them without a shock. These boats, 
 were the first of a fleet which has since carried 
 hundreds of millions of passengers to and from 
 New York. 
 
 From the time the first boat was put in motion 
 till the death of Fulton, the art of navigating by 
 
^■! 
 
 ROBERT FULTON 
 
 G3 
 
 steam advanced rapidly to that perfection of 
 which he believed it capable; the boats per- 
 formed each successive trip with increased 
 speed, and every year improvements were made. 
 The last boat built by Fulton was invariably the 
 best, the most convenient, and the swiftest. 
 
 At the beginning of 1814 a number of the citi- 
 zens of New York, alarmed at the exposed situa- 
 tion of their harbor, had assembled with a view 
 to consider whether some measures might not be 
 taken to aid the Government in its protection. 
 This assembly had some knowledge of Fulton's 
 plans for submarine attack, and knew that he 
 contemplated other means of defence. It de- 
 puted a number of gentlemen to act for it, and 
 these were called the Coast and Harbor Com- 
 mittee. Fulton exhibited to this committee the 
 model and plans for a vessel of war, to be pro- 
 pelled by steam, capable of carrying a strong 
 battery, with furnaces for red-hot shot, and 
 which, he represented, would move at the rate 
 of four miles an hour. The confidence of the 
 committee in this design was confirmed by the 
 opinions of many of our most distinguished 
 naval commanders, which he had obtained in 
 writing, and exhibited to the committee. They 
 pointed out many advantages which a steam 
 vessel of war would possess over those with sails 
 only. 
 
 The National Legislature passed a law in 
 March, 18 14, authorizing the President of the 
 United States to cause to be built, equipped, and 
 employed one or more floating batteries for the 
 
 'it 
 
 
 If 
 
 ^ 
 
INVENTORS 
 
 defence of the waters of the United States. A 
 sub-committee of five gentlemen was appointed 
 to superintend the building of the proposed 
 vessel, and Fulton, whose spirit animated the 
 whole enterprise, was appointed the engineer. 
 In June, 1814, the keel of this novel and mighty 
 engine was laid, and in October she was launched 
 from the New York yard of A-'^'^m and Noah 
 Brown. The scene exhibited r *his occasion 
 was magnificent. It happened one of our 
 
 bright autumnal days. Multitudes of spectators 
 crowded the surrounding shores. The river and 
 bay were filled with vessels of war, dressed in 
 all their colors in compliment to the occasion. 
 By May, 181 5, her engine was put on board, and 
 she was so far completed as to afford an oppor- 
 tunity of trying her machinery. On the 4th of 
 July, in the same year, the steam-frigate made 
 a passage to the ocean and back, a distance of 
 fifty-three miles, in eight hours and twenty 
 minutes, by the mere force of steam. In Sep- 
 tember she made another passage to the sea, 
 and having at this time the weight of her whole 
 armament on bc'^^'d, she went at the rate of five 
 and a half miles an hour, upon an average, 
 with and against the tide. The superintending 
 committee gave in their report a full description 
 of the Fulton the First, the honored name this 
 vessel bore. 
 
 The last work in which the active and in- 
 genious mind of Fulton was engaged was a proj- 
 ect for the modification of his submarine boat. 
 He presented a model of this vessel to the Gov- 
 
f 
 
 HOnEHT FULTON 
 
 65 
 
 eminent, by which it was approved ; and under 
 Federal authority he began building one; but 
 before the hull was entirely finished his country 
 
 1 
 
 Ls*"'f 
 
 Trie ■ Demologos, " or " Fulton the First." 
 The first steam vcssel-of-uar in the world. 
 
 had to lament his death, and the mechanics he 
 employed were incapable of proceeding without 
 him. 
 
 During the whole time that Fulton had thus 
 br n devoting his talents to the service of his 
 5 
 
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CO 
 
 INVENTORS 
 
 country, he had been harassed by lawsuits and 
 controversies with those who were violating his 
 patent rights, or intruding upon his exclusive 
 grants. The State of New Jersey had passed a 
 law which operated against Fulton, without be- 
 ing of much advantage to those interested in its 
 passage, inasmuch as the laws of New York pre- 
 vented any but Fulton's boats to approach the 
 city of New York. Its only operation was to stop 
 a boat owned in New York, which had been for 
 several years running to New Brunswick, under 
 a license from Messrs. Livingston and Fulton. 
 A bold attempt was therefore made to induce 
 the Legislature of the State of New York to re- 
 peal the laws which they had passed for the pro- 
 tection of their exclusive grant to Livingston 
 and Fulton. The committee reported that such 
 repeal might be passed consistently with good 
 faith, honor, and justice! This report being 
 made to the House, it was prevailed upon to be 
 less precipitate than the committee had been. It 
 gave time, which the committee would not do, 
 for Fulton to be sent for from New York. The 
 Assembly and Senate in joint session examined 
 witnesses, and heard him and the petitioner by 
 counsel. The result was that '.he Legislature 
 refused to repeal the prior law, or to pass any 
 act on the subject. The Legislature of the State 
 of New Jersey also repealed their law, which 
 left Fulton in the full enjoyment of his rights. 
 This enjoyment was of very short duration ; for 
 on returning from Trenton, after this last trial, 
 he was exposed on the Hudson, which was very 
 
ROBERT FULTON 
 
 full of ice, for several hours. He had not a con- 
 stitution to encounter such exposure, and upon 
 his return found himself much indisposed. He 
 had at that time great anxiety about the steam- 
 frigate, and, after confining himself to the house 
 for a few days, went to give his superintendence 
 to the workmen employed about her. Forget- 
 ting his ill-health in the interest he took in what 
 was doing on the frigate, he remained too long 
 exposed on a bad day to the weather. He soon 
 felt the effects of this imprudence. His indis- 
 position returned upon him with such violence 
 as to confine him to his bed. His illness in- 
 creased, and on February 24, 18 15, it ended his 
 life. 
 
 It was not known that Fulton's illness was 
 dangerous till a very short time before his death. 
 Means were immediately taken to testify, pub- 
 licly, the universal regret at his loss, and respect 
 for his memory. The corporation of the city of 
 New York, the different literary institutions and 
 other societies, assembled and passed resolutions 
 expressing their estimation of his worth, and re- 
 gret at i.is loss. They also resolved to attend 
 his funeral, and that the members should wear 
 badges of mourning for a certain time. As soon 
 as the Legislature, which was then in session at 
 Albany, heard of the death of Fulton, they ex- 
 pressed their participation in the general senti- 
 ment by resolving that the members of both 
 Houses should wear mourning for some weeks. 
 
 In 1806 Fulton married Harriet Livingston, a 
 daughter of Walter Livingston, a relative of his 
 
 |: 
 
 « 
 
 'II! • 
 
 I 
 
 :k*5 
 
68 
 
 INVENTORS 
 
 associate, Chancellor Livingston. He left four 
 children ; one son, Robert Barlow Fulton, and 
 three daughters. Fulton was in person consid- 
 erably above medium height ; his face showed 
 great intelligence. Natural refinement and long 
 intercourse with the most polished society of 
 Europe and America had given him grace and 
 elegance of manner. 
 
 The Clermont. 
 
TT 
 
 M 
 
 .<<l 
 
 III. 
 
 ELI WHITNEY. 
 
 In 1784 an American vessel arrived at Liver- 
 pool having on board, as part of her cargo, eight 
 bags of cotton, which were seized by the Custom- 
 House under the conviction that they could not 
 be the growth of America. The whole amount 
 of cotton arriving at Liverpool from America 
 during the two following years was less than 
 one hundred and twenty bags. When Eli Whit- 
 ney, the inventor of the cotton-gin, applied for 
 his first patent in 1793, the total export of cotton 
 from the United States was less than ten thou- 
 sand bales. Fifty years later, the growth of this 
 industry, owing almost wholly to Whitney's 
 gin, had increased to millions of bales, and by 
 i860, the export amounted to four million bales. 
 
 According to the estimate of Judge Johnson, 
 given in the most famous decision affecting the 
 cotton-gin, the debts of the South were paid off 
 by its aid, its capital was increased, and its lands 
 trebled in value. This famous device, the gift 
 of a young Northerner to the South, was re- 
 warded by thirty years of ingratitude, relieved 
 only by a few gleams of sunshine in the way of 
 justice, serving to make the injustice all the 
 more conspicuous. Whitney added hundreds 
 of millions to the wealth of the United States. 
 
 ■!t* 
 
Ell Whitney. 
 
TTT 
 
 hnj WIHTNEY 
 
 71 
 
 His personal reward was countless lawsuits and 
 endless vexation of body and spirit. No more 
 conspicuous example can be cited of steady pa- 
 tience and sweet-tempered perseverance. 
 
 Eli Whitney was born in Westborough, Wor- 
 cester County, Mass., December 8, 1765. His 
 parents belonged to that respectable class of so- 
 ciety who, by honest farming and kindred indus- 
 tries, managed to provide well for the rising 
 family — the class from whom have arisen most of 
 those who in New England have attained to emi- 
 nence and usefulness. The indications of his 
 mechanical genius were noted at an early age. 
 Of his passion for mechanics, his sister gives 
 the following account : 
 
 " Our father had a workshop and sometimes 
 made wheels of different kinds, and chairs. He 
 had a variety of tools and a lathe for turning 
 chair-posts. This gave my brother an oppor- 
 tunity of learning the use of tools when very 
 young. He lost no time, but as soon as he could 
 handle tools he was always making something 
 in the shop, and seemed to prefer that to work 
 on the farm. After the death of our mother, 
 when our father had been absent from home two 
 or three days, on his return he inquired of the 
 housekeeper what the boys had been doing. She 
 told him what the elders had done. * But what 
 has Eli been doing ? ' said he. She replied he 
 has been making a fiddle. ' Ah ! ' added he, de- 
 spondently, ' I fear Eli will have to take his por- 
 tion in fiddles.' " 
 
 11 
 
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72 
 
 (NVKiYTOHS 
 
 lie was at this time about twelve years old. 
 The sister adds that his fiddle was finished 
 throughout like a common violin and made 
 pretty good music. It was examined by many 
 persons, and all pronounced it to be a model 
 piece of work for such a boy. From this time 
 he was always employed to repair violins, and 
 did many nice jobs that were executed to the 
 entire satisfaction and even to the astonishment 
 of his customers. His father's watch being the 
 greatest piece of mechanism that had yet pre- 
 sented itself to his observation, he was extremely 
 desirous of examining its interior construction, 
 but was not permitted to do so. One Sunday 
 morning, observing that his father was going to 
 church and would leave at home the wonderful 
 little machine, he feigned illness as an apology for 
 not going. As soon as the family were out of 
 sight, he fiew to the room where the watch hung 
 and took it down. He was so delighted with its 
 motion that he took it to pieces before he thought 
 of the consequences of his rash deed ; for his 
 father was a stern parent, and punishment would 
 have been the reward of his idle curiosity, had the 
 mischief been detected. He, however, put the 
 works so neatly together that his father never 
 discovered his audacity until he himself told him 
 many years afterward. 
 
 When Eli was thirteen years old his father 
 married a second time. His stepmother, among 
 her articles of furniture, had a handsome set of 
 table-knives that she valued very highly. 
 
 One day Eli said : " I could make as good ones 
 
El. I WIIITXi:)' 
 
 
 if 1 had tools, aiul I could make the tools il I 
 had common tools to bei;in with;" his mother 
 lau<^hcd at him. But it so hai)pene(l soon after- 
 ward that one of the knives was broken, and he 
 made one exactly like it in every respect, except 
 the stamp of the blade. When he was tUtccn or 
 sixteen years of age, he suggested to his father 
 an enterprise which clearly showed his capacity 
 for important work. The time being the Revo- 
 lutionary War, nails were in great demand and at 
 high prices. They were made chiefly by hand. 
 Whitney proposed to his father to get him a few 
 tools and allow him to set up the manufacture 
 of nails. His father consented, and the work 
 was begun. By extraordinary diligence he 
 found time to make tools for his own use and to 
 put in knife-blades, repair farm machinery, and 
 perform other little jobs beyond the skill of the 
 country workman. At this occupation the en- 
 terprising boy worked alone with great success 
 and with large profit to his father for two win- 
 ters, going on with the ordinary work of the 
 farm during the summer. He devised a plan for 
 enlarging the business, and managed to obtain 
 help from a fellow-laborer whom he picked up 
 when on a short journey of forty miles, in the 
 course of which he tells us that he called at every 
 workshop on the way and gleaned all the infor- 
 mation as to tools and methods that he could. 
 
 At the close of the war the business of making 
 nails was no longer profitable ; but the fashion 
 prevailing among the ladies of fastening on their 
 bonnets with long pins having appeared, he con- 
 
 
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74 
 
 LWJiJuVrOHS 
 
 trivcd U) make these pins witli such skill that he 
 nearly monopolized the business, though he de- 
 voted to it only such leisure as he could redeem 
 from the occupations of the farm. He also made 
 excellent walking-canes. At the age of nineteen 
 Whitney conceived the idea of getting a liberal 
 education ; and partly by the results of his me- 
 chanical industries, and partly by teaching the 
 village school, he was enabled so far to surmount 
 the difficulties in his way as to prepare himself 
 for the Freshman Class in Yale College, which he 
 entered in 1789. At college his mechanical pro- 
 pensity frequently showed itself. He success- 
 fully undertook, on one occasion, the repairing 
 of some of the philosophical apparatus. Soon 
 after taking his degree, in the autumn of 1792, 
 he engaged with a Georgia family as private 
 teacher, and through his engagement he made 
 the acquaintance of a certain General Greene, of 
 Savannah, who took a deep interest in him, and 
 with whom he began the study of law. While 
 living with the Greenes he noticed an embroid- 
 ery-frame used by Mrs. Greene, and about 
 which she complained, observing that it tore the 
 delicate threads of her work. Young Whitney, 
 eager to oblige his hostess, went to work and 
 speedily produced a frame on an entirely new 
 plan. The family were much delighted with it, 
 and considered it a wonderful piece of inge- 
 nuity. 
 
 Not long afterward the Greenes were visited 
 by a party of gentlemen, chiefly officers who had 
 served under the general in the Revolutionary 
 
w^l^ 
 
 Hi.i wj/nwh'y 
 
 76 
 
 War. The conversation turned on the state ol 
 aiifriculture. It was remarked that unfortunately 
 tliere was no means of eleanini;- the staple of 
 the ^reen cotton-seed, which mi<^ht otherwise be 
 profitably raised on land unsuitable for rice. But 
 until someone devised a machine which would 
 clean the cotton, it was vain to think of raising 
 
 Wnitney Watching the Cottni,-Gin. 
 
 it for market. Separating one pound of the 
 clean staple from the seed was a day's work for 
 a woman. The time usually devoted to the pick- 
 ing of cotton was the evening, after the labor of 
 the field was over. Then the slaves — men, wom- 
 en, and children — w^ere collected in circles, with 
 one in the middle whose duty it was to rouse 
 the dosing and quicken the indolent. While 
 the company were engaged in this conversation, 
 Mrs. Greene said : " Gentlemen, apply to my 
 
 •III I 
 
 'ill J 
 
 I'M 
 
 1;! 
 
 iiki 
 
 *ii 
 
 m 
 
76 
 
 l^VKNTORS 
 
 yoiin^ friend here, Mr. Whitney ; he can make 
 anything." And she showed theni the frame and 
 several other articles he had made. He mod- 
 estly disclaimed all pretensions to mechanical 
 genius, and replied that he had never seen cot- 
 ton-seed. 
 
 Nevertheless, he immediately began upon the 
 task of inventing and constructing the machine 
 on which his fame depends. A Mr. Phineas 
 Miller, a neighbor, to whom he comimunicated 
 his design, warmly encouraged him, and gave 
 him a room In his house wli ein to carry on his 
 operations. Here he began work with the dis- 
 advantage of being ojliged to manufacture his 
 own tools and draw his own wire — an article not 
 to be found in Savannah. Mr. Miller and Mrs. 
 Gr^ nc were the only persons who knew any- 
 thing of his occupation. Near the close of the 
 winter, 1793, the machine was so far completed 
 as to leave no doubt of its success. The person 
 who contributed most to the success of the un- 
 dertaking, afte^ the inventor, was his friend, 
 Miller, a native of Connecticut and a graduate of 
 Yale. Like Whitney, he had come to Georgia 
 as a private teacher, and after the death of Gen- 
 eral Greene he married the widow. He was a 
 lawyer by profes.< n, with a turn for mechanics. 
 He had some money and proposed to Whitney 
 to become his partner, he to be at the whole 
 expense of manufacturing the invention until 
 it should be patented. If the machine should 
 succeed, they agreed that the profits and ad- 
 vantages should be divided between them. A 
 
H y m 
 
 ! 1 
 
 1 
 
 ELI WHITNEY 
 
 77 
 
 Ic^al paper coverinj^ this agreement and estab- 
 lishing the firm of Miller & Whitney, bears the 
 date of May 27, 1793. 
 
 An invention so important to the agricultural 
 interests of the country could not long remain a 
 secret. The knowledge of it swept through the 
 State, and so great was the excitement on the 
 subject that crowds of persons came from all 
 parts to see the machine ; it was not deemed safe 
 to gratify curiosity until the patent-right should 
 be secured. But so determined were some of 
 these people that neither law nor justice could 
 restrain them ; they broke into <^he building by 
 night and carried ofT the machine. In this way 
 the public became possessed of the invention, 
 and before Whitney could complete his model 
 and secure his patent, a number of machines, 
 patterned after his, were in successful operation. 
 
 The principle of the Whitney cotton-gin and 
 all other gins following its features is so well 
 known as to make it scarcely worth while to de- 
 scribe it here. The different parts are two cylin- 
 ders of different diameters, mounted '\n a strong 
 wooden frame, one cjdindcr bearing a number 
 of circular saws fitted into grooves cut into the 
 cylinder. The other hollow cylinder is mounted 
 with brushes, the tips of whose bristles touch 
 the saw-teeth. The cotton is put into a hopper, 
 where it is met by the sharp teeth of the sav/s, 
 torn from the seed, and carried to a point where 
 the brushes sweep it off into a convenient recep- 
 tacle. The seeds are too large' to pass between 
 the bars through which the saws ])i()truclc. This 
 
 11 
 
 "111' 
 
 I! 
 
 
 III;' 
 
 •Ill I 
 III! 
 
 
 M > 
 I 
 
78 
 
 INVENTORS 
 
 is the principle of the first machine, but many 
 improvements have been made since Whitney's 
 day. Nevertheless, by means of the cotton-gin, 
 even in its earliest shape, one man, with the aid 
 of two-horse power, could clean five thousand 
 pounds of cotton in a day. 
 
 The Cottnn-Gin. 
 (Kioiii the original model. ) 
 
 As soon as the partnership of Miller & Whit- 
 ney was formed, the latter went to Connecticut 
 to perfect the machine, obtain the patent, and 
 manufacture for Georgia as many machines as 
 he thought would supply the demand. At once 
 tiiere began between Whitney in Connecticut 
 and Miller in Georgia a correspondence relative 
 
^^•1 
 
 ELI WHITNEY 
 
 10 
 
 to the cotton-gin, which gives a complete history 
 of the extraordinary efforts made by the two 
 partners and the disappointments that fell to 
 their lot. The very first letter, written three 
 days after Whitney left, announces that en- 
 croachments upon their rights had already be- 
 gun. " It will be necessary," says Miller, " to 
 have a considerable number of gins in readiness 
 to send out as soon as the patent is obtained in 
 order to satisfy the absolute demands and make 
 people's heads easy on the subject ; for I am in- 
 formed of two other claimants for the honor of 
 th*" ' ^^^ention of the cotton-gin in addition to 
 thusr A'e knew before." At the close of the year 
 1793 Whitney was to return to Georgia with 
 his gins, where his partner had made arrange- 
 ments for beginning business. The importunity 
 of Miller's letters, written during this period, 
 urging him to come on, show how eager the 
 Georgia planters were to enter the new field of 
 enterprise that the genius of Whitney had 
 opened to them. Nor did they at first contem- 
 plate stealing the invention. But the minds of 
 even the more honorable among the planters 
 were afterward deluded by various artificer set 
 on foot by designing rivals of Whitney with a 
 view to robbing him of his rights. One of the 
 greatest difficulties experienced by the partners 
 was the extreme scarcity of money, which em- 
 barrassed them so much as to make it impos- 
 sible to construct machines fast enough. 
 
 In April Wiiitney returned to Georgia. 
 Large crops of cotton had been planted, the 
 
 11. 
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 Ill) 
 'iii| 
 
 ■ i ' 
 
 'Mill 
 
 
 
 i ■» 
 
 
80 
 
 INVENTORS 
 
 profits of which wcmx to depend almost wholly 
 on the success of the gin. A formidable com- 
 petitor, the roller-gin, had also appeared, which 
 destroyed the seed by means of rollers, crushing 
 them between revolving cylinders instead of dis- 
 engaging them by means of teeth. The frag- 
 ments of seeds which remained in the cotton 
 made it much inferior to Whitney's gin, and it 
 was slower in operation. A still more danger- 
 ous rival appeared in 1795, under the name of 
 the saw-gin. It was really Whitney's invention, 
 except that the teeth were cut in circular rings 
 of iron instead of being made of wire, as in the 
 earlier forms of the Whitney gin. The use of 
 such teeth had occurred to Whitney, as he es- 
 tablished by legal proof. They would have been 
 of no use except in connection with other parts 
 of his machine, and it was a palpable attempt to 
 invade his patent right. It was chiefly in refer- 
 ence to this device that the endless lawsuits thai 
 wore the life out of the partners were afterward 
 held. 
 
 In March, 1795, after two years of struggle, 
 during which no progress seems to have been 
 made, although the value of the gin was proved, 
 Whitney went to New York, where he was de- 
 tained three weeks by fever. Upon reaching 
 New Haven he discovered that his shop, with 
 all his machines and papers, had been consumed 
 by fire. Thus he was suddenly reduced to bank- 
 ruptcy and was in debt $4,000 without any means 
 of payment. He was not, however, one to sink 
 under such trials. Miller shcjwed the same buoy- 
 
KLI WHITNEY 
 
 81 
 
 ant spirit, and the following extract of a letter of 
 his to Whitney may be a useful lesson to young 
 men in trouble : 
 
 " I think we ought to meet such events with 
 equanimity. We have been pursuing a valuable 
 object by honorable means, and I trust that all 
 our measures have been such as reason and virt- 
 ue must justify. It has pleased Providence to 
 postpone the attainment of this object. In the 
 midst of the reflections which your story has sug- 
 gested, and with feelings keenly awake to the 
 heavy, the extensive injury we have sustained, I 
 feel a secret joy and satisfaction that you pos- 
 sess a mind in this respect similar to my own — 
 that you are not disheartened, that you do not 
 relinquish the pursuit, and that you will perse- 
 vere, and endeavor, at all events, to attain the 
 main object. This is exactly consonant to my 
 own determinations. I will devote all my time, 
 all my thoughts, all my exertions, and all the 
 money I can earn or borrow to encompass and 
 complete the business we have undertaken ; and if 
 fortune should, by any future disaster, deny us the 
 boon we ask, we will at least deserve it. It shall 
 never be said that we have lost an object which 
 a little perseverance could have attained. I think, 
 indeed, it will be very extraordinary if two youn::;' 
 men in the prime of life, with some share of inge- 
 nuity, and with a little knowledge of the world, a 
 great deal of industry, and a cnisiderable com- 
 mand of property, should not be able to sustain 
 such a stroke of misfortune as this, heavy as it is." 
 
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82 
 
 INVhJNTORS 
 
 Miller winds up by suggesting to Whitney 
 that perhaps he can get help in New Haven by 
 offering twelve per cent, a year for money with 
 which to build a new shop, and the inventor 
 seems to have had some success in reorganizing 
 his affairs, even under such desperate conditions. 
 Word came at the same time from England that 
 manufacturers had condemned the cotton cleaned 
 by their machines on the ground that the staple 
 was greatly injured. This threatened a death- 
 blow to their hopes. At the time, 1796, they al- 
 ready had thirty gins at different places in 
 Georgia, some worked by horses and oxen and 
 some by water. Some of these were still stand- 
 ing a few years ago. The following extract of 
 a letter by Whitney will show the state of his 
 mind and affairs : 
 
 ** The extreme embarrassments which have 
 been for a longtime accumulating upon me are 
 now become so crreat that it will be impossible 
 for me to strugi^le against them many days 
 longer. It has required my utmost exertions 
 to exist without making the least progress in 
 our business. I have labored hard against the 
 strong current of disappointment which has been 
 threatening to carry us down the cataract, but T 
 have labored with a shattered oar and struggled 
 in vain, unless some speedy relief is obtained. 
 Life is but short at best, and six or 
 seven years out of the midst of it is to him who 
 makes it an immense sacrifice. My most unre- 
 mitted attention has been devoted to our bus- 
 
ELI ]\HlTi\l£y 
 
 S3 
 
 ness. \ have sacrificed to it other objects from 
 which, before this time, I mii^ht certainly have 
 ij^aincd $20,000 or $30,000. My whole prospects 
 liave been embarked in it, with the cxj)ectation 
 that I should before this time have realized some- 
 thing from it." 
 
 The cotton of Whitney's gin was, however, 
 sought by merchants in preference to other 
 kinds, and respectable manufacturers testified in 
 his favor. Had it not been for the extensive and 
 shameful violations of their patent -right, the 
 partners might yet have succeeded ; but these 
 encroachments had become so extensive as al- 
 most to destroy its value. The issue of the first 
 important trial that they were able to obtain on 
 the merits of the gin is announced in the follow- 
 ing letter from Miller to Whitney, dated May 
 II, 1797: 
 
 " The event of the first patent suit, after all 
 our exertions made in such a variety of ways, 
 has gone against us. The preposterous custom 
 of trying civil causes of this intricacy and mag- 
 nitude by a common jury, together with tlie im- 
 perfection of the patent law, frustrated all our 
 views, and disappointed expectations which liad 
 become very sanguine. The tide of pojnilar 
 opinion was running in our favor, the judge was 
 well disposed tow^ard us, and many decided 
 friends were with us, who adhered firmlv to our 
 cause and interests. The judge gave a charge 
 to the jury pointedly in our favor; after which 
 the defendant himself told an acquaintance of 
 
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 his that he would give two thousand dollars 
 to be free froni the verdict, and yet the jury 
 gave it against us, after a consultation of about 
 an hour. And having made the verdict general, 
 no appeal would lie. 
 
 " On Monday morning, when the verdict was 
 rendered, we applied for a new trial, but the 
 judge refused it to us on the ground that the jury 
 might have made up their opinion on the defect 
 of the law, which makes an aggression consist of 
 making, devising, and using or selling ; whereas 
 we could only charge the defendant with using. 
 
 " Thus, after four years of assiduous labor, 
 fatigue, and difficulty, are we again set afloat by 
 a new and most unexpected obstacle. Our hopes 
 of success are now removed to a period still 
 more distant than before, while our expenses are 
 realized beyond all controversy." 
 
 Great efforts were made to obtain trial in a 
 second suit in Savannah the following May, and 
 a number of witnesses were collected from vari- 
 ous parts of the country, all to no purpose, for 
 the judge failed to appear, and in the meantime, 
 owing to the failure of the first suit, encroach- 
 ments on the patent -right had multiplied pro- 
 digiously. 
 
 In April, 1799, nearly a year later, and two 
 years after their first legal rebuff, Miller writes 
 as follows : 
 
 gin- 
 
 " The prospect of making anything by gin- 
 ning in this State is at an end. Surreptitious gins 
 are erected in every part of the country, and the 
 
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 jurymen at Augusta have come to an under- 
 standing among themselves that they will never 
 give a cause in our favor, let the merits of the 
 case be as they may." 
 
 The company would now have gladly relin- 
 quished the plan of making their own machines, 
 and confined their operations to the sale of patent- 
 rights ; but few would buy the right to a machine 
 which could be used with impunity without pur- 
 chase, and those few usually gave notes instead 
 of cash, which they afterward, to a great extent, 
 avoided paying, either by obtaining a verdict 
 from the juries declaring them void, or by con- 
 triving to postpone the collection till they were 
 barred by the Statute of Limitations, a period of 
 only four years. The agent of Miller & Whit- 
 ney, who was despatched on a collecting tour 
 through the State of Georgia, informed his em- 
 ployers that such obstacles were thrown in his 
 way by one or the other of these causes that he 
 was unable to collect money enough to pay his 
 expenses. It was suggested that an application 
 to the Legislature of South Carolina to purchase 
 the patent-right for that State would be success- 
 ful. Whitney accordingly repaired to Coliim- 
 bia, and the business was brought before the 
 Legislature in December, 1801. An extract from 
 a letter by Whitney at this time shows the nat- 
 ure of the contract thus made : 
 
 " I have been at this place a little more than 
 two weeks attending the Legislature. A few 
 hours previous to their adjournment they voted 
 
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 to purchase lor the State of wSoutli Carolina my 
 patent-rii^ht to the machine for cleaning cotton 
 at $50,000, of which sum $20,000 is to be paid 
 in hand, and the remainder in three annual pay- 
 ments of $10,000 each." He adds: *' We get 
 but a song for it in comparison with the worth 
 of the thing, but it is securing something. It 
 will enable Miller tSc Whitney to pay their debts 
 and divide something between them." 
 
 In December, 1802, Whitney negotiated the 
 sale of his patent-right with the State of North 
 Carolina. The L(!i^islature laid a tax of 2s. 6d. 
 upon every saw (some of the gins had forty saws) 
 employed in ginning cotton, to be continued for 
 five years ; and after deducting the expenses 
 of collection the returns were faithfully passed 
 over to the patentee. This compensation was 
 regarded by Whitney as more liberal than that 
 received from any other source. About the 
 same time Mr. Goodrich, the agent of the com- 
 pany, entered into a similar negotiation with 
 Tennessee, which State had by this time be- 
 gun to realize the importance of the invention. 
 The Legislature passed a law laying a tax of 37^ 
 cents per annum on every saw used, for the 
 period of four years. Thus far the prospects 
 were growing favorable to the patentees, when 
 the Legislature of South Carolina unexpectedly 
 annulled the contract which they had made, sus- 
 pended further payment of the balance, and sued 
 for the refunding of \vhat had been already 
 paid. When Whitney first heard of the trans- 
 
ELI WHITM':Y 
 
 S7 
 
 actions of the Soutli Caioliiia Lcs^ishiturc, lie 
 was at Raleigh, where he liad just completed 
 a ne,i?otiation with the Lec^islature of North 
 Carolina. In a letter written to Miller at this 
 time, he remarks : 
 
 *' I am, for my own part, more vexed than 
 alarmed by their extraordinary proceedings. I 
 think it behooves us to be very cautious and 
 very circumspect in our measures, and even in 
 our remarks with regard to it. Be cautious what 
 you say or publish till we meet our enemies in 
 a court of justice, where, if they have any sen- 
 sibility left, we will make them very mucli 
 ashamed of their childish conduct." 
 
 But that Whitney felt keenly the severities 
 aiterward practised against him is evident from 
 the tenor of the remonstrance which he pre- 
 sented to the Legislature : 
 
 " The subscriber avers that he has manifested 
 no other than a disposition to fulfil all the stipu- 
 lations entered into with the State of South 
 Carolina with punctuality and good faith ; and 
 he begs leave to observe further, that to have in- 
 dustriously, laboriously, and exclusively devoted 
 maiiy vears of the prime of his life to the inven- 
 tion and the improvement of a machine from 
 which the citizens of South Carolina have already 
 realized immense profits, which is worth to them 
 millions, and from which their prosperity must 
 continue to derive the most important profits, and 
 in return to be treated as a felon, a swindler, and 
 
 
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 a villain, has stung him to the very soul. And 
 when he considers that this cruel persecution is 
 inflicted by the very persons who are enjoying 
 these great benefits, and expressly for the pur- 
 pose of preventing his ever deriving the least 
 advantage from his own labors, the acuteness of 
 his feelings is altogether inexpressible." 
 
 Doubts, it seems, had arisen in the public mind 
 as to the validity of the patent. Great exer- 
 tions had been made in Georgia, where, it will 
 be remembered, hostilities were first declared 
 against him, to show that his title to the inven- 
 tion was unsound, and that " somebody " in 
 Switzerland had couceived it before him ; and 
 that the improved form of the machine with 
 saws, instead of wire teeth, did not come within 
 the patent, having been introduced by one 
 Hodgin Holmes. The popular voice, stimulated 
 by the most sordid methods, was now raised 
 against Whitney throughout all the cotton States. 
 Tennessee followed the example of South Caro- 
 lina, annulling the contract made with him. And 
 the attempt was made in North Carolina. But a 
 committee of the Legislature, to whom it was re- 
 ferred, reported in Whitney's favor, declaring 
 "that the contract ought to be fulfilled with 
 punctuality and good faith," which resolution 
 was adopted by both Houses. There were also 
 high-minded men in South Carolina who were 
 indignant at the dishonorable measures adopted 
 by their Legislature of 1803; their sentiments 
 impressed the community so favorably with re- 
 
ELI WniTXEY 
 
 8J^ 
 
 gard to Whitney that, at the session of 1804, the 
 Legislature ..ot only rescinded what the previ- 
 ous one had done, but signified their respect for 
 Whitney by marked commendations. 
 
 Miller died on December 7, 1803. In the 
 earlier stages of the enterprise he had indulged 
 high hopes of a great fortune ; perpetual disap- 
 pointments appear to have attended him through 
 life. Whitney was now left alone to contend 
 single-handed against the difficulties which had, 
 for a series of years, almost broken down the 
 spirits of the partners. The light, moreover, 
 which seemed to be breaking, proved but the 
 twilight of prosperity. The favorable issue of 
 Whitney's affairs in South Carolina, and the gen- 
 erous receipts he obtained from his contract 
 with North Carolina, relieved him, however, 
 from the embarrassments under which he had 
 so long groaned, and made him, in some degree, 
 independent. Still, no small portion of the funds 
 thus collected in North and South Carolina was 
 expended in carrying on trials and endless law- 
 suits in Georgia. 
 
 Finally, in the United States Court, held in 
 Georgia, December, 1807, Whitney's patent ob- 
 tained a most important decision in its favor 
 against a trespasser named Fort. It was on this 
 trial that Judge Johnson gave a most celebrated 
 decision in the following words : 
 
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 " To support the originality of the invention, 
 the complainants have produced a variety of 
 depositions of witnesses, examined under com- 
 
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 90 
 
 JiW KXTOns 
 
 I 
 
 mission, whose examinations expressly prove the 
 origin, progress, and completion of the machine 
 of Whitney, one of the copartners. Persons who 
 were made privy to his first discovery testify to 
 the several experiments which he made in their 
 presence before he ventured to expose his in- 
 vention to the scrutin}^ of the public eye. But it 
 is not necessary to resort to such testimony to 
 maintain this point. The jealousy of the artist 
 to maintain that reputation which his ingenuity 
 has justly acquired, has urged him to unneces- 
 sary p»ains on this subject. There are circum- 
 stances in the knowledge of all mankind which 
 prove the originality of this invention more satis- 
 factorily to the mind than the direct testimony 
 of a host of witnesses. The cotton-plant fur- 
 nished clothing to mankind before the age of 
 Herodotus. The green seed is a species much 
 more productive than the black, and by nature 
 adapted to a much greater variety of climate, 
 but by reason of the strong adherence of the 
 fibre to the seed, without the aid of some more 
 powerful machine for separating it than any for- 
 merly known among us, the cultivation of it 
 would never have been made an object. The 
 machine of which Mr. Whitney claims the inven- 
 tion so facilitates the preparation of this species 
 for use that the cultivation of it has suddenly 
 become an object of infinitely greater national 
 importance than that of the other species ever 
 can be. Is it, then, to be imagined that if this 
 machine had been before discovered, the use of 
 it would ever have been lost, or could have been 
 
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KIJ WHITNEY 
 
 01 
 
 confined to any tract or country left unexplored 
 by commercial enterprise ? But it is unnecessary 
 to remark further upon this subject. A number 
 of years have elapsed since Mr. Whitney took 
 out his patent, and no one has produced or pre- 
 tended to prove the existence of a machine of 
 similar construction or use. 
 
 " With regard to the utility of this discovery 
 the court would deem it a waste of time to dwell 
 long upon this topic. • Is there a man who hears 
 us who has not experienced its utility ? The 
 whole interior of the Southern States was lan- 
 guishing and its inhabitants emigrating for want 
 of some object to engage their attention and em- 
 ploy their industry, when the invention of this ma- 
 chine at once opened views to them which set the 
 whole country in active motion. From child- 
 hood to age it has presented to us a lucrative 
 employment. Our debts have been paid off, our 
 capitals have increased, and our lands trebled 
 themselves in value. We cannot express the 
 weight of the obligation which the country owes 
 to this invention. The extent of it cannot now 
 be seen. Some faint presentiment may be 
 formed from the reflection that cotton is rapid- 
 ly supplanting wool, flax, silk, and even furs in 
 manufactures, and may one day profitably sup- 
 ply the use of specie in our East India trade. 
 Our sister States also participate in the benefits 
 of this invention, for besides affording the raw 
 material for their manufacturers, the bulkiness 
 and quantity of the article affords a valuable 
 employment for their shipping." 
 
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 92 
 
 INVENTORS 
 
 
 The influence of this decision, however, availed 
 Whitney very little, for the term of his patent 
 had nearly expired. During Miller's life more 
 than sixty suits had been instituted in Georgia, 
 and but a single decision on the merits of the 
 claim was obtained. In prosecution of his 
 troublesome business, Whitney had made six 
 different journeys to Georgia, several of which 
 were accomplished by land at a time when the 
 difficulties of such journeys were exceedingly 
 great. A gentleman who was well acquainted 
 with Whitney's affairs in the South, and some- 
 times acted as his legal adviser, says that in all 
 his experience in the thorny profession of the 
 law he never saw a case of such perseverance 
 under prosecution. He adds : " Nor do I be- 
 lieve that I ever knew any other man who would 
 have met them with equal coolness and firmness, 
 or who would finally have obtained even the 
 partial success which he did. He always called 
 on me in New York on his way South when go- 
 ing to attend his endless trials and to meet the 
 mischievous contrivances of men who seemed 
 inexhaustible in their resources of evil. Even 
 now, after thirty years, my head aches to rec- 
 ollect his narratives of new trials, fresh dis- 
 appointments, and accumulated wrongs." 
 
 In 1798 Whitney had become deeply impressed 
 with the uncertainty of all his hopes founded 
 upon the cotton-gin, and began to think seriously 
 of devoting himself to some business in which 
 his superior ingenuity, seconded by uncom- 
 mon industry, would conduct him by a slow but 
 
■'! 
 
 ELI WHITNEY 
 
 98 
 
 sure road to a competent fortune. It may be 
 considered indicative of solid judgment and a 
 well-balanced mind that he did not, as is so fre- 
 quently the case with men of inventive genius, 
 become so poisoned with the hopes of vast 
 wealth as to be disqualified for making a reason- 
 able provision for life by the sober earnings 
 of private industry. The enterprise which he 
 selected in accordance with these views was 
 the manufacture of arms for the United States. 
 Through Oliver Wolcott, then Secretary of the 
 Treasury, he obtained a contract for the manu- 
 facture of 10,000 stand of arms, 4,000 of which 
 were to be delivered before the last of Septem- 
 ber of the ensuing year, 1799. Whitney pur- 
 chased for his works a site called East Rock, 
 near New Haven, now known as Whitneyville, 
 and justly admired for the romantic beauty of 
 its scenery. A water-fall offered the necessary 
 power for the machinery. 
 
 Here he began operations with great zeal. His 
 machinery was yet to be built, his material col- 
 lected, and even his workmen to be taught, and 
 that in a business with which he was imperfectly 
 acquainted. 
 
 A severe winter retarded his operations and 
 rendered him incompetent to fulfil the contract. 
 Only 500 instead of 4,000 stands were delivered 
 the first year, and eight years instead of two 
 were found necessary for completing the whole. 
 During the eight years Whitney was occupied 
 in performing this work, he applied himself to 
 business with the most exemplary diligence, ris- 
 
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 INVENTORS 
 
 
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 ing every mornini^ as soon as it was day, and at 
 night setting everything in order in all parts of 
 the establishment. His genius impressed itself 
 on every part of the factory, extending even 
 to the most common tools, most of which re- 
 ceived some peculiar modification which im- 
 proved them in accuracy or efficiency. His ma- 
 chines for making the several parts of the musket 
 were made to operate with the greatest possible 
 degree of uniformity and precision. The object 
 at which he aimed, and which he fully accom- 
 plished, was to make the same parts of different 
 guns, as the locks, for instance, as much like each 
 other as the successive impressions of a copper- 
 plate engraving, and it has generally been con- 
 sidered that Whitney greatly improved the way 
 of manufacturing arms and laid his country 
 under permanent obligations by augmenting 
 our facilities for national defence. In 1812 he 
 made a contract to manufacture for the United 
 States 15,000 stand of arms, and in the mean- 
 time a similar contract with the State of New 
 York. Several other persons made contracts 
 with the Government at about the same time and 
 attempted the manufacture of muskets. The 
 result of their efforts was a complete failure, 
 and in some instances they expended a consider- 
 able fortune in addition to the amount received 
 for their work. In 1822 Calhoun, then Secretary 
 of War, admitted in a conversation with Whit- 
 ney that the Government was saving $25,000 
 a year at the public armories alone by his im- 
 provements, and it should be remembered that 
 
 E*-- 
 
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 ELI WHITNEY 
 
 95 
 
 the utility of Whitney's labors during this part of 
 his life was not limited to this particular business. 
 In i8i2 Whitney made application to Congress 
 for the renewal of his patent for the cotton-gin. 
 In his memorial he presented the history of the 
 struggles he had been forced to make in defence 
 of his rights, observing that he had been unable 
 to obtain any decision on the merits of his claim 
 until thirteen years of his patent had expired. 
 He states also that his invention had been a 
 source of opulence to thousands of the citizens 
 of the United States ; that as a labor-saving 
 machine it would enable one man to perform the 
 work of a thousand men, and that it furnished to 
 the whole family of mankind, at a very cheap 
 rate, the most essential material for their cloth- 
 ing. Although so great advantages had already 
 been experienced, and the prospect of future 
 benefits was so promising, still, many of those 
 whose interest had been most promoted and the 
 value of whose property had been most enhanced 
 by this invention, had obstinately persisted in 
 refusing to make any compensation to the in- 
 ventor. From the State in which he had first 
 made, and where he had first introduced his 
 machine, and which had derived the most signal 
 benefits — Georgia — he had received nothing; 
 and from no State had he received the amount 
 of half a cent per pound on the cotton cleaned 
 with his machines in one year. Estimating the 
 value of the labor of one man at twenty cents a 
 day, the whole amount which had been received 
 by him for his invention was not equal to the value 
 
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 of the labor saved in one hour by his machines 
 then in use in the United States. He continues : 
 
 " It is objected that if the patentee succeeds in 
 procuring the renewal of his patent he will be 
 too rich. There is no probability that the pat- 
 entee, if the term of his patent were extended 
 for twenty years, would ever obtain for his in- 
 vention one-half as much as many an individual 
 will gain by the use of it. Up to the present 
 time the whole amount of what he had acquired 
 from this source, after deducting his expenses, 
 does not exceed one-half the sum which a single 
 individual has gained by the use of the machine 
 in one year. It is true that considerable sums 
 have been obtained from some of the States 
 where the machine is used, but no small portion 
 of these sums has been expended in prosecuting 
 his claim in a State where nothing has been ob- 
 tained, and where his machine has been used to 
 the greatest advantage." 
 
 Notwithstanding these cogent arguments, the 
 application was rejected by the courts. Some 
 liberal-minded and enlightened men from the 
 cotton districts favored the petition, but a major- 
 ity of the members from that part of the Union 
 were warmly opposed to granting it. In a let- 
 ter to Robert Fulton, Whitney says : 
 
 " The difficulties with which I have to contend 
 have originated, principally, in the want of a dis- 
 position in mankind to do justice. My invention 
 was new and distinct from every other ; it stood 
 alone. It was not interwoven with anything 
 
ELI WUITNET 
 
 97 
 
 before known ; and it can seldom happen that an 
 invention or improvement is so strongly marked 
 and can be so clearly and specifically identified ; 
 and I have always believed that I should have 
 no difficulty in causing my right to be respected, 
 if it had been less valuable, and been used only 
 by a small portion of the community. But the 
 use of this machine being immensely profitable 
 to almost every planter in the cotton districts, 
 all were interested in trespassing upon the patent- 
 right, and each kept the other in countenance. 
 Demagogues made themselves popular by mis- 
 representations and unfounded clamors, both 
 against the right and against the law made for 
 its protection. Hence there arose associations 
 and combinations to oppose both. At one time, 
 but few men in Georgia dared to come into court 
 and testify to the most simple facts within their 
 knowledge, relative to the use of the machine. In 
 one instance I had great difficulty in proving that 
 the machine had been used in Georgia, although 
 at the same moment there were three separate 
 sets of this machinery in motion within fifty yards 
 of the building in which the court sat, and all so 
 near that the rattling of the wheels was distinct- 
 ly heard on the steps of the court-house." 
 
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 Such perseverance, patience, and uncommon 
 skill were not, however, to go wholly unre- 
 warded. Whitney's factory of arms in New 
 Haven made money for him, and the Southern 
 States were not all guilty of ingratitude. More- 
 over, in his private life he was extremely fortu- 
 
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 98 
 
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 natc. In January, 1817, he married Henrietta 
 Edwards, the youngest daughter of Judge Pier- 
 pont Edwards, of Connecticut. A son and three 
 daughters contributed to the sunshine of the 
 close of a somewhat stormy and eventful life. 
 His last years were his happiest. He found 
 prosperity and honor in New Haven, where he 
 died on January 8, 1825, after a tedious illness. 
 
 In person Whitney was of more than usual 
 height, with much dignity of manner and an 
 open, pleasant face. Among his particular 
 friends no man was more esteemed. Some of 
 the earliest of his intimate associates wereamonr>' 
 the latest. His sense of honor was high, and his 
 feeling of resentment and indignation under in- 
 justice correspondingly strong. He could, how- 
 ever, be cool when his opponents were hot, and 
 his strong sense of the injuries he had suffered 
 did not impair the natural serenity of his temper. 
 The value of his famous invention has so steadily 
 grown that its money importance to this country 
 can scarcely be estimated in figures. His tomb 
 in New Haven is after a model of that of Scipio, 
 at Rome, and bears the following inscription: 
 
 ELI WHITNEY, 
 The Inventor of the Cotton-Gin. 
 OF useful science and arts, the efficient patron 
 
 AND IMPROVER. 
 
 IN THE SOCIAL RELATIONS OF LIFE, A MODEL OF EXCEL- 
 LENCE. 
 
 while private affection weeps at his tomb, his 
 country honors his memory. 
 
 Born Dec 8, 1765. Died Jan. 8, 1825. 
 
IV. 
 
 ELIAS HOWE. 
 
 In looking over the history of great inventions 
 it is remarkable how uniformly those discoveries 
 that helped mankind most have been derided, 
 abused, and opposed by the very classes which 
 in the end they were destined to bless. Nearly 
 every great invention has had literally to be 
 forced into popular acceptance. The bowmen 
 of the Middle Ages resisted the introduction of 
 the musket ; the sedan-chair carriers would not 
 allow hackney carriages to be used ; the stage- 
 coach lines attempted by all possible devices to 
 block the advance of the railway. When, in 
 1707, Dr. Papin showed his first rude conception 
 of a steamboat, it was seized by the boatmen, who 
 feared that it would deprive them of a living. 
 Kay was mobbed in Lancashire when he tried to 
 introduce his fly-shuttle ; Hargreaves had his 
 spinning-frame destroyed by a Blackburn mob ; 
 Crampton had to hide his spinning-mule in a 
 lumber-room for fear of a similar fate ; Arkwright, 
 the inventor of the spinning - frame, was de- 
 nounced as the enemy of the working- classes 
 and his mill destroyed ; Jacquard narrowly es- 
 caped being thrown into the river Rhone by a 
 crowd of furious weavers when his new loom 
 
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 was first put into operation ; Cartwrij^ht had to 
 abandon his power-loom for years because of 
 the bitter animosity of the weavers toward it. 
 Riots were organized in Nottingham against 
 the use of the stockin<j;-loom. 
 
 It is not therefore surprising that the greatest 
 labor-saving machine of domestic life, the sew- 
 ing-machine, should have been received with any- 
 thing but thanks. Howe was abused, ridiculed, 
 and denounced as the enemy of man, and espe- 
 cially of poor sewing-women, the very class whose 
 toil he has done so much to lighten. Curses in- 
 stead of blessings were showered upon him dur- 
 ing the first years that followed the successful 
 working of his wonderful machine. Fortunately 
 for the inventor, the age of persecution had al- 
 most passed, and Howe lived to receive the re- 
 wards he so fully deserved. 
 
 Elias Howe, Jr., was born in Spencer, Mass., in 
 1819. His father was a farmer and miller, and 
 the eight children of the family, as was common 
 with all poor people of the time, were early 
 taught to do light work of one kind or another. 
 When Elias was six years old he was set with his 
 brothers and sisters at sticking wire teeth through 
 the leather straps used for cotton-cards. When 
 older he helped his father in the mill, and in sum- 
 mer picked up a little book knowledge at the dis- 
 trict school. As a boy he was frail in constitu- 
 tion, and he was slightly lame. When eleven 
 years old he attempted farm labor for a neigh- 
 bor, but was not strong enough for it and re- 
 turned to his father's mill, where he remained 
 
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 102 
 
 JuWEJVTOBS 
 
 until he was sixteen. It was here that he first 
 began to like machinery. A friend who had 
 visited Lowell gave him such an account of that 
 bustling city and its big mills that young Howe, 
 becoming dissatisfied, obtained his father's con- 
 sent to leave, and found employment in one of 
 the Lowell cotton-mills. The financial crash of 
 1837 stopped the looms, and Howe obtained a 
 place in a Cambridge machine-shop in which his 
 cousin, Nathaniel P. Banks, afterward Governor 
 of Massachusetts, also worked. Howe's first job 
 happened to be upon a new hemp-carding ma- 
 chine of Treadwell. 
 
 At the age of twenty-one Howe married and 
 moved to Boston, finding employment in the ma- 
 chine-shop of Ari Davis. He is described as be- 
 ing a capital workman, more full of resources 
 than of plodding industry, however, and rather 
 apt to spend more time in suggesting a better 
 way of doing a job than in following instructions. 
 With such a disposition, and inasmuch as his sug- 
 gestions were not considered of value, he had 
 rather a hard time of it. Three children were 
 born to the young couple. As Howe's earnings 
 were slight and his health none of the best, his 
 wife tried to add to the family income, and at 
 evening, when Howe lay exhausted upon the bed 
 after his day's work, the young mother patiently 
 sewed. Her toil was to some purpose. With 
 his natural bent for mechanics, Howe could not 
 be a silent witness of this incessant and poorly 
 paid labor without becoming interested in afford- 
 ing aid. Moreover, he was constantly employed 
 
KUAS IIOWK 
 
 W6 
 
 upon new spinning and weaving machines for do- 
 ing work that for thousands of years had been 
 done painfully and slowly by hand. The possi- 
 bility of sewing by machinery had often been 
 spoken of before that day, but the problem 
 seemed to present insuperable difficulties. 
 
 Elias Howe had, as we know, peculiar fitness for 
 such work. He had seen much of inventors and 
 inventions, and knew something of the dangers 
 and disappointments in store for him. In the in- 
 tervals between important jobs at the shop he 
 nursed the idea of a sewing-machine, keeping 
 his own counsel. In his first rude attempt it ap- 
 peared to him that machine-sewing could only 
 be accomplished with very coarse thread or 
 string ; fine thread would not stand the strain. 
 For his first machine he made a needle pointed 
 at both ends, with an eye in the middle ; it was 
 arranged to work up and down, carrying the 
 thread through at each thrust. It was only 
 after more than a year's work upon this device 
 that he decided it would not do. This first 
 attempt was a sort of imitation of sewing by 
 hand, the machine following more or less the 
 movements of the hand. Finally, after repeated 
 failures, it became plain to him that something 
 radically different was needed, and that there 
 must be another stitch, and perhaps another 
 needle or half a dozen needles, in such a machine. 
 He then conceived the idea of using two threads, 
 and making the stitch by means of a shuttle and 
 a curved needle with the eye near the point. 
 This was the real solution of the problem. In 
 
 'itii 
 
 i^^/tUl^M 
 
104 
 
 INVKNTORS 
 
 October, 1844, he made a rough model of his 
 first sewing-machine, all of wood and wire, and 
 found that it would actually sew. 
 
 In one of the earliest accounts of the inven- 
 tion it is thus described : " He used a needle 
 and a shuttle of novel construction, and com- 
 bined them with holding surfaces, feed mechan- 
 ism, and other devices as they had never before 
 been brought together in one machine. . . . 
 One of the principal features of Mr. Howe's in- 
 vention is the combination of a grooved needle 
 having an eye near its point, and vibrating in the 
 direction of its length, with a side-pointed shuttle 
 for effecting a locked stitcli, and forming with 
 the threads, one on each side of the cloth, a firm 
 and lasting seam not easily ripped." 
 
 Meanwhile Howe had given up work as a 
 machinist and had moved to his father's house 
 in Cambridge, where the elder Howe had a 
 shop for the cutting of palm-leaf used in the 
 manufacture of hats. Here Elias and his little 
 family lived, and in the garret the inventor put 
 up a lathe upon which he made the parts of his 
 sewing-machine. To provide for his family he 
 did such odd jobs as he could find ; but it was 
 hard work to get bread, to say nothing of butter, 
 and to make matters worse his father lost his shop 
 by fire. Elias knew that his sewing-machine 
 would work, but he had no money wherewith to 
 buy the materials for a machine of steel and iron, 
 and without such a machine he could not hope to 
 interest capital in it. He needed at least $500 with 
 which to prove the value of his great invention. 
 
KLIAS HOWE 
 
 105 
 
 Fortune threw in his way a coal and wood 
 dealer of Cambridge, named Fisher, who had 
 some money. Fisher liked the invention and 
 agreed to board Howe and his family, to give 
 Howe a workshop in his house, and to advance 
 the $500 necessary for the construction of a first 
 machine. In return he was to become a half 
 owner in the patent should Howe succeed in ob- 
 taining one. In December, 1844, Howe accord- 
 ingly moved into Fisher's house, and here the 
 new marvel was brought into the world. All 
 that winter Howe worked over his device in 
 Fisher's garret, making many changes as unfore- 
 seen difificulties arose. He worked all day, and 
 sometimes nearly all night, succeeding by April, 
 1845, i" sewing a seam four yards long \vith his 
 machine. By the middle of May the machine 
 was completed, and in July Howe sewed with it 
 the seams of two woollen suits, one for himself 
 and the other for Fisher ; the sewing was so well 
 done that it promised to outlast the cloth. For 
 many years this machine was exhibited in a shop 
 in New York. It showed how completely, at 
 really the first attempt, Howe had mastered the 
 enormous difificulties in his way. Its chief feat- 
 ures are those upon which were founded all the 
 sewing-machines that followed. 
 
 Late in 1845 Howe obtained his first patent 
 and began to take means to introduce his sew- 
 ing-machine to the public. He first offered it to 
 the tailors of Boston, who admitted its useful- 
 ness, but assured him that it would never be 
 adopted, as it would ruin their trade. Other 
 
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 INVENTORS 
 
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 efforts were equally unsuccessful ; the more per- 
 fectly the machine did its work, the more obsti- 
 nate and determined seemed to be the resistance 
 to it. Everyone admitted and praised the inge- 
 nuity of the invention, but no one would invest a 
 dollar in it. Fisher became disheartened and 
 withdrew from the partnership, and Howe and 
 his family moved back into his father's house. 
 
 For a time the poor inventor abandoned his 
 machine and obtained a place as engineer on a 
 railway, driving a locomotive, until his health 
 entirely broke down. Forced to turn again to 
 his beloved sewing-machine for want of anything 
 better to do, Howe decided to send his brother 
 Amasa to England with a machine. Amasa 
 reached London in October, 1846, and met a cer- 
 tain William Thomas, to whom he explained the 
 invention. Thomas was much impressed with 
 its possibilities and offered $1,250 for the ma- 
 chine and also to engage Elias Howe at $15 a 
 week if he would enter his business of umbrella 
 and corset maker. This was at least a livelihood 
 to the latter, and he sailed for England, where 
 for the next eight months he worked for Thomas, 
 whom he found an uncommonly hard master. 
 He was indeed so harshly treated that, althougli 
 his wife and three children had arrived in Lon- 
 don, he threw up his situation. For a time his 
 condition was a piteous one. He was in a strange 
 country, without friends or money. For days at 
 a time the little family were without more than 
 crusts to live upon. 
 
 Believing that he could struggle along better 
 
KLIAS IIOWK 
 
 10^ 
 
 alone, Howe sent his family home with the first 
 few dollars that he could obtain from the other 
 side and remained in London. There were cer- 
 tain things which caused him to hope for better 
 times ahead. But such hopes were delusive, it 
 seems, and after some months of hardship he 
 followed his family to this country, pawning his 
 model and his patent papers in order to obtain 
 the necessary money for the passage. As he 
 landed in New York with less than a dollar in his 
 pocket, he received news that his wife was dy- 
 ing of consumption in Cambridge. He had no 
 money for travelling by rail, and he was too 
 feeble to attempt the journey on foot. It took 
 him some days to obtain the money for his fare 
 to Boston, but he arrived in time to be present 
 at the death-bed of his wife. Before he could 
 recover from this blow he had news that the 
 ship by which he had sent home the few house- 
 hold goods still remaining to him had gone to 
 the bottom. 
 
 This was poor Howe's darkest hour. Others 
 had seen the value of the sewing-machine, and 
 during his absence in England several imitations 
 of it had been made and sold to great advantage 
 by unscrupulous mechanics, who had paid no at- 
 tention to the rights of the inventor. Such ma- 
 chines were already spoken of as wonders by 
 the newspapers, and were beginning to be used 
 in several industries. Howe's patent was so 
 strong that it was not difficult to find money to 
 defend it, once the practical value of the inven- 
 tion had been well established, and in August, 
 
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 108 
 
 INVENTORS 
 
 1850, he began several suits to make his rights 
 clear. At the same time he moved to New 
 York, where he began in a small way to man- 
 ufacture machines in partnership with a busi- 
 ness man named Bliss, who undertook to sell 
 them. 
 
 It was not until Howe's rights to the invention 
 had been fully established, which was done by 
 the decision of Judge Sprague, in 1854, that the 
 real value of the sewing-machine as a money- 
 making venture began to be apparent ; and even 
 then its great importance was so little realized, 
 even by Bliss, who was in the business and died 
 in 1855, that Howe was enabled to buy the inter- 
 est of his heirs for a small sum. It was during 
 these efforts to introduce the sewing-machine 
 that occurred what were known as the sewing- 
 machine riots — disturbances of no special im- 
 portance, however — fomented by labor leaders 
 in the New York shops in which cheap clothing 
 was manufactured. Howe's sewing-machine 
 was denounced as a menace to the thousands of 
 men and women who worked in these shops, and 
 in several establishments the first Howe machines 
 introduced were so injured by mischievous per- 
 sons as to retard the success of the experiment 
 for nearly a year. Failing to stop their intro- 
 duction by such means a public demonstration 
 against them was organized and for a time 
 threatened such serious trouble that some of the 
 large shops gave up the use of the machine ; but 
 in small establishments employing but a few 
 workmen they continued to be used and were 
 
ELI AS HOWE 
 
 109 
 
 soon found to be so indispensable that ail opposi- 
 tion faded away. 
 
 The patent suits forced upon Howe by a num- 
 ber of infringers were costly drains upon the in- 
 ventor, but in the end all other manufacturers 
 were compelled to pay tribute to him, and in six 
 years his royalties grew from $300 to more than 
 $200,000 a year. In 1863 his royalties were esti- 
 mated at $4,000 a day. At the Paris Exposition 
 of 1867 he was awarded a gold medal and the 
 ribbon of the Legion of Honor. 
 
 Howe's health, never strong, was so thoroughly 
 broken by the years of struggle and hardship he 
 met with while trying to introduce his machine 
 that he never completely recovered. If honors 
 and money were any comfort to him, his last 
 years must have been happy ones, for his inven- 
 tion made him famous, and he had been enough 
 of a workingman to recognize the blessing he 
 had conferred upon millions of women released 
 from the slavery of the needle ; he had answered 
 Hood's " Song of the Shirt." He died on Oc- 
 tober 3, 1867, at his home in Brooklyn, N. Y. 
 
 Those who knew Howe personally speak of 
 him as rather a handsome man, with a head 
 somewhat like Franklin's and a reserved, quiet 
 manner. His bitter struggle against poverty 
 and disease left its impress upon him even to the 
 last. One trait frequently mentioned was his 
 readiness to find good points in the thousand and 
 one variations and sometimes improvements 
 upon his invention. During the years 1858-67, 
 when he died, there were recorded ncarlv three 
 
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 110 
 
 INVENTOliS 
 
 hundred patents affecting the sewing-machine, 
 taken out by other inventors. Howe was always 
 ready to help along such improvements by ad- 
 vice and often by money. He fought sturdily 
 for his rights, but once those conceded he was a 
 j^enerous rival. 
 
 
; ^\ 
 
 V. 
 
 SAMUEL F. B. MORSE. 
 
 Samuel Finley Breese Morse was the eldest 
 son of the Rev. Jedediah Morse, an eminent 
 New England divine. The Rev. Samuel Finley, 
 D.D., second president of the College of New 
 
 Biithplace of S F. B. Morsp, Bmlt 1775. 
 
 Jersey, Princeton, was his maternal great-grand- 
 father, after whom he was named. Breese was 
 the maiden name of his mother. The famous in- 
 ventor of the telegraph was born at the foot of 
 Breed's Hill, Charlestown, Mass., April 27, 1791. 
 
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 Dr. Belknap, of Boston, writing to Postmaster- 
 General Hazard, New York, says : 
 
 " Conj^ratulatc the Monmouth judj^c (Mr. 
 Breese, the grandfather) on the birth of a grand- 
 son. Next Sunday he is to be loaded with 
 names, not quite so many as the Spanish am- 
 bassador who signed the treaty of peace of 1783, 
 but only four. As to the child, I saw him asleep, 
 so can say nothing of his eye, or his genius peep- 
 ing through it. He may have the sagacity of a 
 Jewish rabbi, or the profundity of a Calvin, or 
 the sublimity of a Homer for aught I know, but 
 time will bring forth all things." 
 
 Jedediah Morse studied theology under the 
 Rev. Dr. Jonathan Edwards. Before he began 
 preaching, and while teaching school in New 
 Haven, he began his " American Geography," 
 which was afterward indentified with his name. 
 He began his ministry at Norwich, whence he 
 was called back to be tutor in Yale. His health 
 was inadequate to the work and he went to 
 Georgia, returning to Charlestown, Mass., as 
 pastor of the First Congregational Church, on 
 the day that Washington was inaugurated as 
 President in New York, April 30, 1789. Dr. 
 Eliot, speaking of Jedediah Morse, said : " What 
 an astonishing impetus that man has ! " Pres- 
 ident Dwight said : " He is as full of resources 
 as an egg is of meat." Daniel Webster spoke of 
 him as " always thinking, ahvays writing, always 
 talking, always acting." 
 
 Morse's mother, Elizabeth Anne Breese, came 
 of good Scotch-Irish stock. She was married to 
 
 Jl 
 
SAMUKL F. n. MORSK 
 
 11 ;i 
 
 Jedediah Morse in 1789,1111(1 was noted as a calm, 
 judicious, and thiiikinj^ woman, with a will of her 
 own. When the child, Samuel F. H. Morse, was 
 four years old he was sent to school to an old 
 lady within a few luindred yards of the parsonaj»e. 
 She was an invahd, unable to leave her chair, and 
 
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 S. F. B. Morse. 
 
 governed her unruly Hock with a long rattan 
 which reached across the small room in which it 
 was gathered. One of her punishments was pin- 
 ning the culprit to her own dress, and Morse re- 
 marks that his first attempts at drawing were dis- 
 couraged in this fashion. Perhaps the fact that 
 he selected the old lady's face as a model had 
 something to do with it. At the age of seven he 
 8 . 
 
 #•• 
 
w 
 
 114 
 
 INVENTORS 
 
 M 
 
 was sent to school at Andover, where he was fit- 
 ted for entering Phillips j^cademy, and prepared 
 here for Yale, joining the class of 1807. When 
 he was thirteen years old, at Andover, he wrote 
 a sketch of Demosthenes and sent it to his father, 
 by whom it was preserved as a mark of the 
 learning and tast^ of the child. Dr. Timothy 
 D wight was then president of Yale and a warm 
 friend of the elder Morse. Finley Morse, as he 
 was then known, received therefore the deep per- 
 sonal interest of Dr. Dwight. Jeremiah Day was 
 professor of natural philosophy in Yale College, 
 and under his instruction Morse began the study 
 of electricity, receiving perhaps those impres- 
 sions that were destined to produce so great an 
 influence upon him and, through him, upon this 
 century. Professor Day was then young and 
 ardent in the pursuit of science, kindling readily 
 the enthusiasm of his students. He afterward be- 
 came president of the college. There was at the 
 same time in the faculty Benjamin Silliman, who 
 was professor of chemistry, and near whom Morse 
 resided for several years. Years afterward the 
 testimony of Professors Day and Silliman was 
 given in court, when it was important, in the 
 defence of his claim to priority in the invention of 
 the telegraph. Through them Morse was able to 
 show that he was early interested in the study of 
 chemistry and electricity. During this litigation 
 Morse did not know that there were scores of 
 letters, written by him as a young student to his 
 father, among the papers of Dr Jedediah Morse, 
 that would have shown conclusively his interest 
 
SAMUEL F. B. MOUSE 
 
 115 
 
 and aptitude in these studies. The papers were 
 brought to light when the life of Morse by 
 Prime came to be written. 
 
 The first part of Morse's life was devoted to 
 art. At a very early age he showed his taste in 
 this direction, and at the age of fifteen painted a 
 fairly good picture in water colors of a room in 
 his fattier's house, with his parents, himself, and 
 two brothers around a table. This picture used 
 to hang in his home in New York by the side of 
 his last painting. From that time his desire to be- 
 come an artist haunted him through his collegiate 
 life. In February, i8i i, he painted a picture, now 
 in the office of the mayor of Charlestown, Mass., 
 depicting the landing of the Pilgrims at Ply- 
 mouth, which, with a landscape painted at about 
 the same time, decided his father, by the advice of 
 Stuart, to permit him to visit Europe with Wash- 
 ington AUston. He bore letters to West and to 
 Copley, from both of whom he received the 
 kindest attention and encouragement. 
 
 As a test for his fitness for a place as student 
 in the Royal Academy, Morse made a drawing 
 from a small cast of the Farnese Hercules. He 
 took this to West, who examined the drawing 
 carefully and handed it back, saying : " Very 
 well, sir, very well ; go on and finish it." " It 
 is finished," said the expectant student. " Oh, 
 no," said the president. " Look here, and here, 
 and here," pointing out many unfinished places 
 which had escaped the eye of the young artist. 
 Morse quickly observed the defects, spent a week 
 in further perfecting his drawing, and then took 
 
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 INVENTORS 
 
 it to West, confident that it was above criticism. 
 The venerable president of the Academy be- 
 stowed more praise than before and, with a pleas- 
 ant smile, handed it back to Morse, saying: 
 '* Very well, indeed, sir. Go on and finish it." " Is 
 it not finished?" inquired the almost discouraged 
 student. " See," said West, " you have not 
 marked that muscle, nor the articulation of the 
 finger-joints." Three days more were spent 
 upon the drawing, when it was taken back to the 
 implacable critic. " Very clever, indeed," said 
 West ; " very clever. Now go on and finish it." 
 " I cannot finish it," Morse replied, when the old 
 man, patting him on the shoulder, said : " Well, 
 I have tried you long enough. Now, sir, you 
 have learned more by this drawing than you 
 would have accomplished in double the time by 
 a dozen half-finished beginnings. It is not many 
 drawings, but the character of one which makes 
 a thorough draughtsman. Finish one picture, 
 sir, and you are a painter." 
 
 Morse heeded this advice. He went to work 
 with Allston, and encouraged by the veteran, 
 Copley, he began upon a large picture for exhi- 
 bition in the Royal Academy, choosing as his 
 subject '* The Dying Hercules." He modelled 
 his figure in clay, as the best of the old painters 
 did. It was his first attempt in the sculptor's art. 
 The cast was made in plaster and taken to West, 
 who was delighted with it. This model con- 
 tended for the prize of a gold medal offered by 
 the Society of Arts for the best original cast of 
 a single figure, and won it. In the large room of 
 
SAMUKL h\ n. MOLtt^b: 
 
 11' 
 
 the London Adeli)hi, in the presence of the 
 British nobility, foreign ambassadors, and distin- 
 g-uished strangers, the Duke of Norfolk publicly 
 presented the medal to Morse on May 13, 181 3. 
 At the same time the painting from this model, 
 then on exhibition at the Royal Academy, re^ 
 ceived great praise from the critics, who placed 
 " The Dying Hercules " among the first twelve 
 pictures in a collection of cJmost two thousand. 
 
 This was an extraordinary success for so young 
 a man, and Morse determined to try for the high- 
 est prize offered by the Royal Academy for the 
 best historical composition, the decision to be 
 made in 181 5. For that purpose he produced 
 his " Judgment of Jupiter " in July of tliat year. 
 West assured him that it would take the prize, 
 but Morse was unable to comply with the rules 
 of the Academy, which required the victor to 
 receive the medal in person. His father had 
 summoned him home. West urged the Acad- 
 emy to make an exception in his case, but it 
 could not be done, and the young painter had to 
 be contented with his assurances that he would 
 certainly have won the prize (a gold medal and 
 $250) had he remained. 
 
 West was always kind to Americans, and 
 Morse was a favorite with him. One day, when 
 the venerable painter was at work upon his great 
 picture, *' Christ Rejected," after carefully ex- 
 amining Morse's hands and noting their beauty, 
 he said : " Let me tie you with this cord and 
 take that place while I paint in the hands of the 
 Saviour." This was done, and when he released 
 
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 IKS 
 
 INVENTORS 
 
 the young artist, he said to him : " You may now 
 say, if you please, that you had a hand in this pict- 
 ure." A number of noted English artists — Tur- 
 ner, Northcote, Sir James Lawrence, Flaxman — 
 and literary men — Coleridge, Wordsworth, Rog- 
 ers, and Crabbe among them — were attracted 
 by young Morse's proficiency and pleasant man- 
 ners, and when in August, 1815, he packed his 
 picture, " The Judgment of Jupiter," and sailed 
 for home, he bore with him the good wishes of 
 some of England's most distinguished men. 
 
 When Morse reached Boston, although but 
 twenty-four years old, he found that fame had 
 preceded him. His prestige was such that he 
 set up his easel with high hopes and fair pros- 
 pects for the future, both destined soon to be 
 dispelled. The taste of America had not risen 
 to the appreciation of historical pictures. His 
 original compositions and his excellent copies of 
 the masterpieces of the Old World excited the 
 admiration of cultured people, but no orders 
 were given for them. He left Boston almost 
 penniless after having waited for months for pat- 
 ronage, and determined to try to earn his bread 
 by painting the portraits of people in the rural 
 districts of New England, where his father's 
 name was a household word. During the autumn 
 of 1 8 16 and the winter of 1 816-18 17 he visited 
 several towns in New Hampshire and Vermont, 
 painting portraits in Walpole, Hanover, Wind- 
 sor, Portsmouth, and Concord. He received the 
 modest sum of $15 for each portrait. From 
 Concord, N. H., he writes to his parents : " I am 
 
SAMUEL F. n. MOUSE 
 
 119 
 
 still here (August i6th) and am passing my time 
 very agreeably. I have painted five portraits at 
 $15 each, and have two more engaged and many 
 talked of. I think I shall get along well. I be- 
 lieve I could make an independent fortune in a 
 few years if I devoted myself exclusively ^o por- 
 traits, so great is the desire for good portraits in 
 the different country towns." He doubtless was 
 candid when he wrote that he was *' passing his 
 time in Concord very agreeably," for it was heie 
 that he met Lucretia F. Walker, who was ac- 
 counted the most beautiful and accomplished 
 young lady of the town, whom Morse subse- 
 quently married. She was a young woman of 
 great personal loveliness and rare good sense. 
 The young artist was attracted by her beauty, 
 her sweetness of temper, and high intellectual 
 qualities. All the letters that she wrote to him 
 before and after their marriage he carefully pre- 
 served, and these are witnesses to her intelli- 
 gence, education, tenderness of feeling, and ad- 
 mirable fitness to be the wife of such a man. 
 Gradually Morse's portraits became so much in 
 demand that he was enabled to increase his price 
 to $60, and as he painted four a week upon the 
 average, and received a good deal of money dur- 
 ing a tour in the South, he was enabled to return 
 to New England in 1818 with $3,000, and to 
 marry Miss Walker on October 6th of that year. 
 The first years of Morse' s married life were 
 passed in Charleston, S. C, after which he re- 
 turned to New England, and having laid by 
 some little capital, he took up again what he 
 
 11 
 
 f'l] 
 
 m 
 
 * Ml! 
 
 ■Pi 
 
?m 
 
 120 
 
 INVENTonS 
 
 deemed to be his real vocation — the painting of 
 great historical pictures. His tirst venture in 
 tliis direction was an exhibition picture of the 
 House of Kei)resentativcs at Washington. As a 
 business venture it was disastrous, and resulted 
 in the loss of eighteen months of precious time. 
 It was finally sold to an Englishman. Then be- 
 gan Morse's life in New York. Through the in- 
 fluence of Isaac Lawrence he obtained a commis- 
 sion from the city authorities of New York to 
 paint a full-length portrait of Lafayette, who was 
 then in this country. He had just completed 
 his study from life in Washington in February, 
 1825, when he received the news of the death of 
 his wife. A little more than a year afterward 
 both his father and mother died. Thencefor- 
 ward his children and art absorbed his affections. 
 He was an artist, heart and soul, and his 
 professional brethren soon had good reason to 
 be grateful to him. The American Academy of 
 Fine Arts, then under the presidency of Colonel 
 John Trumbull, was in a languishing state and of 
 little use to artists. The most advanced of its 
 members felt the need of relief, and a few of 
 them met at Morse's rooms to discuss their 
 troubles. At that meeting Morse proposed the 
 formation of a new society of artists, and at a 
 ? le itir^ held at the New York Historical Socie- 
 ;oms the " New York Drawing Association " 
 ^anized, with Morse as its president. 
 
 ) f s 
 
 \^' 
 
 Trumbiiil endeavored to compel the new society 
 to profess allegiance to the academy, but Morse 
 protested, and thanks to his advice, on January 
 
 xi 
 
SAMUEL F. n. MOUSE 
 
 121 
 
 1 8, 1826, a new art association was organized 
 under the name of the " National Academy of 
 Design." Morse was its first president, and for 
 sixteen years he was annually elected to that 
 office. The friends of the old academy were 
 wrathful and assailed the new association. A 
 war of words, in which Morse acted as the cham- 
 
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 Ui.der Side of a MoJern Switchboard, showing 2,000 Wires. 
 
 pion of the new society, was waged until victory 
 was conceded to the reformers. Thus Morse 
 inaugurated a new era in the history of the fine 
 arts in this country. He wrote, talked, lectured 
 incessantly for the advancement of art and the 
 Academy of Design. 
 
 In 1829 Morse made a second visit to Europe, 
 where he was warmly welcomed and honored by 
 
mm 
 
 122 
 
 INVKNTOliS 
 
 the Royal Academy. During three years or 
 more he lived in continental cities, studying the 
 Louvre in Paris and making of the famous gal- 
 lery an exhibition picture which contained about 
 fifty miniatures of the works in that collection. 
 In November, 1832, he was back again in New 
 York, with high hopes as to his future. Allston, 
 writing to Dunlap in 1834, said: "I rejoice to 
 hear your report of Morse's advance in his art. 
 I know what is in him perhaps better than any- 
 one else. If he will only bring out all that is 
 there he will show parts that many now do not 
 dream of." 
 
 For several years the thoughts of the artist 
 Morse had been busy with a matter wholly out- 
 side of his chosen domain. Some lectures on 
 electro-magnetism by his intimate friend. Judge 
 Freeman Dana, given at the Athenaeum while 
 Morse was also lecturing there on the fine arts, 
 had greatly interested him in the subject, and he 
 learned much in conversation with Dana. While 
 on his second visit to Europe Morse made him- 
 self acquainted with the labors of scientific men 
 in their endeavors to communicate intelligence 
 between far-distant places by means of electro- 
 magnetism, and he saw an electro-magnet signal- 
 ling instrument in operation. He knew that so 
 early as 1649 a Jesuit priest had prophesied an 
 electric telegraph, and that for half a century or 
 more students had partially succeeded in at- 
 tempts of this kind. But no practical telegraph 
 had yet been invented. In 1774 Le Sage made 
 an electro-signalling instrument with twenty-four 
 
SAMUEL F. 71. MORSK 
 
 128 
 
 wires, one for each letter of the alphabet. In 
 1825 Sturgeon invented an electro-magnet. In 
 1830 Professor Henry increased the magnetic 
 force that Morse afterward used. 
 
 On board the ship Sully, in which Morse 
 sailed from Havre to New York, in the autumn 
 of 1832, the recent discovery in France of the 
 means of obtaining an electric spark from a mag- 
 net was a favorite topic of conversation among 
 the passengers, and it was during the voyage 
 that Morse conceived the idea of an electro-mag- 
 netic and chemical recording telegraph. Before 
 he reached New York he had made drawings 
 and specifications of his conception, which he ex- 
 hibited to his fellow passengers. Few great in- 
 ventions that have made their authors immortal 
 were so completely grasped at inception as this. 
 Morse was accustomed to keep small note-books 
 in which to make records of his work, and scores 
 of these books are still in existence. As he 
 sat upon the deck of the Sully, one night 
 after dinner, he drew from his pocket one of 
 these books and began to make marks to repre- 
 sent letters and figures to be produced by elec- 
 tricity at a distance. The mechanism by which 
 the results were to be reached was wrought out 
 by slow and laborious thought, but the vision as 
 a whole was clear. The current of electricity 
 passed instantaneously to any distance along a 
 wire, but the current being interrupted, a spark 
 appeared. This spark represented one sign ; its 
 absence another; the time of its absence still 
 another. Here are three signs to be combined 
 
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 into the representation of figures or letters. 
 They ean be made to form an alphabet. Words 
 may thus be indicated. A telegraph, an instru- 
 ment to record at a distance, will result. Conti- 
 ents shall be crossed. This great and wide sea 
 shall be no barrier. " If it will go ten miles 
 without stopping," he said, " I can make it go 
 around the globe." 
 
 He worked incessantly all that next day and 
 could not sleep at night in his berth. In a few 
 days he submitted some rough drafts of his 
 invention to William C. Rives, of Virginia, who 
 was returning from Paris, where he had been 
 minister of the United States. Mr. Rives sug- 
 gested various difhculties, over which Morse 
 spent several sleepless nights, announcing in the 
 morning at breakfast-table the new devices by 
 which he proposed to accomplish the task before 
 him. He exhibited a drawing of the instrument 
 which he said would do the work, and so com- 
 pletely had he mastered all the details that five 
 years afterward, when a model of this instru- 
 ment was constructed, it was instantly recognized 
 as the one he had devised and drawn in his 
 sketch-book and exhibited to his fellow passen- 
 gers on the ship. In view of subsequent claims 
 made by a fellow passenger to the honor of hav- 
 ing suggested the telegraph, these details are in- 
 teresting and important. 
 
 Circumstances delayed the construction of a 
 recording telegraph by Morse, but the subject 
 slumbered in his mind. During his absence 
 abroad he had been elected professor of the 
 
SAMUEL F. 11 MORSE 
 
 125 
 
 literature of the arts of dcsij^n, in the Univer- 
 sity of the City of New York, and this work oc- 
 cupied his attention for some time. Three years 
 afterward, in November, 1835, l^c completed 
 a rude telegraph instrument — the first recording 
 
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 The First Telegraphic Instrument, as Exhibited in 183; by Morse. 
 
 apparatus ; but it embodied the mechanical prin- 
 ciple now in use the world over. His whole 
 plan was not completed until July, 1837, when by 
 means of two instruments he was able to com- 
 municate from as well as to a distant point. In 
 September hundreds of people saw the new 
 instrument in operation at the university, most 
 of whom looked upon it as a scientific toy con- 
 
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 INVENTOnS 
 
 striictecl by an unfortunate dreamer. The fol- 
 lowing year the invention was sufficiently per- 
 fected to enable Morse to direct the attention of 
 Congress to it and ask its aid in the construction 
 of an experimental line between Washington and 
 Baltimore. 
 
 Late in the long session of 1838 he appeared 
 before that body with his instrument. Before 
 leaving New York with it he had invited a few 
 friends to see it work. Now began in the life of 
 Morse a period of years during which his whole 
 time was devoted to convincing the world, first, 
 that his electric telegraph would really commu- 
 nicate messages, and, secondly, that if it worked 
 at all, it was of great practical value. Strange 
 to say that this required any argument at all. 
 But that in those days it did may be inferred 
 from the fact that Morse could then find no help 
 far or near. His invention was regarded as inter- 
 esting, but of no importance either scientifically 
 or commercially. In Washington, where he first 
 went, he found so little encouragement that he 
 went to Europe with the hope of drawing the 
 attention of foreign governments to the advan- 
 tages, and of securing patents for the invention ; 
 he had filed a caveat at the Patent Office in this 
 country. His mission was a failure. England 
 refused him a patent, and France gave him only 
 a useless paper which assured for him no special 
 privileges. He returned home disappointed but 
 not discouraged, and waited four years longer 
 before he again attempted to interest Congress 
 in his invention. 
 
8 AM UK I. F. n. MOiiSk: 
 
 127 
 
 I 
 
 This cxtraorcliiuiry stru^j^lc lasted twelve 
 years, during which, with liis mind absorbed in 
 one idea and yet ahnost wholly dependent for 
 bread upon his profession as an artist, it was ini- 
 
 Tho Modi rn Mnrsf Te^-jiaph, 
 
 possible to pursue art with the enthusiasm and 
 industry essential to success. Mis situation was 
 forlorn in the extreme. The father of three little 
 children, now motherless, his pecuniary means 
 exhausted by his residence in Europe, and un- 
 able to pursue art without sacrificing his inven- 
 tion, he was at his wits' ends. He had visions 
 of usefulness by the invention of a telegraph that 
 should bring the continents of the earth into 
 intercourse. He was poor and knew that wealth 
 as well as fame was within his reach. He had 
 long received assistance from his father and 
 brothers when his })rofcssi()n did not supply the 
 needed means of support for himself and family; 
 but it seemed like robbery to take the money of 
 others for experiments, the success of which he 
 could not expect them to believe in until he 
 could give practical evidence that the instrument 
 would do the work proposed. It was the old 
 story of genius contending with poverty. His 
 brothers comforted, encouraged, and cheered 
 
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 INVKNTOnS 
 
 him. In the lioiisc of his brother Richard he 
 found a home and the tender care that he re- 
 quired. Sidney, the other brother, also helped 
 him. On the corner of Nassau and Beekman 
 Streets, now the site of the handsome Morse 
 Building, his brothers erected a building where 
 were the offices of the newspaper of which they 
 were the editors and proprietors. In the fifth 
 story of this building a loom was assigned to 
 him which was for several years his studio, 
 bedroom, parlor, kitchen, and workshop. On 
 one side of the room stood a little cot on which 
 he slept in the brief hours which he allowed 
 himself for repose. On the other side stood his 
 lathe with which the inventor turned the brass 
 apparatus necessary in the construction of his 
 instruments. He had, with his own hands, first 
 whittled the model ; '.hen he made the moulds for 
 the castings. Here were brought to him, day 
 by day, crackers and the simplest food, by which, 
 with tea prepared by himself, he sustained life 
 while he toiled incessantly to give being to the 
 idea that possessed him. 
 
 Before leaving for Europe he had suffered a 
 great disappointment as an artist. The govern- 
 ment liad offered to American artists, to be se- 
 lected by a committee of Congress, commissions 
 to paint pictures f(^r the panels in the rotunda of 
 the Capitol. Morse was anxious to be employed 
 upon one or more of them. He was the presi- 
 dent of the National Academy of Design, and 
 there was an eminent fitness in calling him to 
 this national work. AUston urged the appoint- 
 
Morse Making his own Instrunnent. 
 (From Prime's Life of Morse.) 
 
 
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 130 
 
 INVENTORS 
 
 
 ment of Morse. John Quincy Adams, then a 
 member of the House and on the committee to 
 whom this subject was referred, submitted a 
 resolution in the House that foreign artists be 
 allowed to compete for these commissions, and 
 in support alleged that there were no American 
 artists competent to execute the paintings. This 
 gave great and just offence to the artists and the 
 public. A severe reply to Adams appeared in 
 the New York Evening Post. It was written by 
 James Fenimore Cooper, but it was attributed 
 to Morse, whose pen was well known to be skil- 
 ful, and in consequence his name was rejected 
 by the committee. He never recovered fully 
 from the effects of that blow. Forty years after- 
 ward he could not speak of it without emotion. 
 He had consecrated years of his life to the 
 preparation for just such work. 
 
 It was well for him and for his country and 
 the world that the artist in Morse was disap- 
 pointed. From painter he became inventor, and 
 from that time until the world acknowledged 
 the greatness and importance of his invention 
 he turned not back. His appointment as pro- 
 fessor in the City University entitled him to cer- 
 tain rooms in the University Building looking 
 out upon Washington Square, and here the first 
 working models of the telegraph were brought 
 into existence. 
 
 ** There," he says, " I immediately com- 
 menced, with very limited means, to experiment 
 upon my invention. My first instrument was 
 made up of an old picture or canvas frame fas- 
 
SAMUEL F. B. MORSE 
 
 131 
 
 tened to a table ; the wheels of an old wooden 
 clock, moved by a weight to carry the paper 
 forward ; three wooden drums, upon one of 
 which the paper was wound and passed over 
 the other two ; a wooden pendulum suspended 
 to the top piece of the picture or stretching 
 frame and vibrating across the paper as it 
 passes over the centre wooden drum ; a pencil 
 
 ?^ 
 
 Train Telegraph — the message transmitted by induction from the moving train to 
 
 the single wire. 
 
 at the lower end of the pendulum, in contact 
 with the paper; an electro-magnet fastened to a 
 shelf across the picture or stretching frame, op- 
 posite to an armature made fast to the pendu- 
 lum ; a type rule and type for breaking the 
 circuit, resting on an endless band, composed of 
 carpet-binding, which passed over two wooden 
 rollers moved by a wooden crank. 
 
 "Up to the autumn of 1837 my telegraphic 
 apparatus existed in so rude a form that I felt a 
 
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 reluctance to have it seen. My means were very 
 limited — so limited as to preclude the possibility 
 of constructing an apparatus of such mechanical 
 
 Interior of a Car on the Lehigh Valley Railroad, showing the Method of Operating 
 
 the Train Telegraph. 
 
 finish as to warrant my success in venturing 
 upon its public exhibition. I had no wish to ex- 
 pose to ridicule the representative of so many 
 hours of laborious thought. Prior to the sum- 
 mer of 1837, at which time Mr. Alfred Vail's at- 
 
 tei 
 
SAMUEL F. B. MOUSE 
 
 133 
 
 tention became attracted to my telegraph, I 
 depended upon my pencil for subsistence. In- 
 deed, so straitened were my circumstances that, 
 in order to save time to carry out my invention 
 and to economize my scanty means, I had for 
 many months lodged and eaten in my studio, 
 procuring my food in small quantities from some 
 grocery and preparing it myself. To conceal 
 from my friends the stinted manner in which I 
 lived, I was in the habit of bringing my food to 
 my room in the evenings, and this was my mode 
 of life for many years." 
 
 Before the telegraph was actually tried and 
 practised the cumbersome piano-key board de- 
 vised by Morse in his first experiments was done 
 away with and the simple device of a single key, 
 with which we are all familiar, was adopted. 
 Meantime Morse was practically abandoning art. 
 His friends among the profession had subscribed 
 $3,000 in order to enable him to paint the picture 
 he had in mind wlicn he applied for the govern- 
 ment work at Washington, " The Signing of the 
 First Compact on Board the Mayllower," and he 
 undertook the commission in 1838, only to give 
 it up in 1 841 and to return to the subscribers the 
 amount paid with interest. 
 
 While Morse had been in Paris, in 1839, ^^^ ^^^^ 
 heard of Daguerrc, who had discovered the 
 method of fixing the image of the camera, which 
 feat was then creating a great sensation among 
 scientific men. Professor Morse was anxious to 
 see the results of this discovery before leaving 
 Paris, and the American consul, Robert Walsh, 
 
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 134 
 
 INVENTORS 
 
 arranged an interview between the two inven- 
 tors. Daguerre promised to send to Morse a 
 copy of the descriptive publication which he in- 
 tended to make so soon as a pension he expected 
 from the Fren* h Government for the disclosure 
 of his discovery should be secured. He kept his 
 
 Diagram showing the Method of Telegraphing from a Moving Train by Induction. 
 
 promise, and Morse was probably the first recipi- 
 ent of the pamphlet in this country. From the 
 drawings it contained he constructed the first 
 photographic apparatus made in the United 
 States, and from a back window in the Univer- 
 sity Building he obtained a good representation 
 of the tower of the Church of the Messiah on 
 Broadway. This possesses an historical interest 
 
SAMUEL F. B. MORSE 
 
 135 
 
 as being the first photograph in America. It was 
 on a plate the size of a playing-card. With Pro- 
 fessor J. W. Draper, in a studio built on the roof 
 of the University, he succeeded in taking like- 
 nesses of the living human face. His subjects 
 were compelled to sit fifteen minutes in the 
 bright sunlight, with their eyes closed, of 
 course. Professor Draper shortened the process 
 and was the first to take portraits with the eyes 
 open. 
 
 At the session of Congress of 1842- 1843 Morse 
 again appeared with his telegraph, and on Feb- 
 ruary 21, 1843, John P. Kennedy, of Maryland, 
 moved that a bill appropriating $30,000, to be ex- 
 pended, under the direction of the Secretary of 
 the Treasury, in a series of experiments for test- 
 ing the merits of the telegraph, should be consid- 
 ered. The proposal met with ridicule. John- 
 son, of Tennessee, moved, as an amendment, that 
 one-half should be given to a lecturer on mes- 
 merism, then in Washington, to try mesmeric ex- 
 periments under the direction of the Secretary 
 of the Treasury; and Mr. Houston said that 
 Millerism ought to be included in the benefits of 
 the appropriation. After the indulgence of 
 much cheap wit, Mr. Mason, of Ohio, protested 
 against such frivolity as injurious to the charac- 
 ter of the House and asked the chair to rule the 
 amendments out of order. The chair (John 
 White, of Kentucky) ruled the amendments in 
 order because " it would require a scientific 
 analysis to determine how far the magnetism of 
 the mesmerism was analogous to that to be em- 
 
 
 
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 INVENTORS 
 
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 ployed in telegraphy." This wit was applauded 
 by peals of laughter, but the amendment was 
 voted down and the bill passed the House on 
 February 23d by the close vote of 89 to 83. In 
 the Senate the bill met with neither sneers nor 
 opposition, but its progress was discouragingly 
 slow. At twilight on the last evening of the 
 session (March 3, 1842) there were one hundred 
 and nineteen bills before it. It seemed impossi- 
 ble for it to be reached in regular course before 
 the hour of adjournment should arrive, and 
 Morse, who had anxiously watched the dreary 
 course of business all day from the gallery of the 
 Senate chamber, went with a sad heart to his 
 hotel and prepared to leave for New York at an 
 early hour the next morning. His cup of disap- 
 pointment seemed to be about full. With the 
 exception of Alfred Vail, a young student in the 
 University, through whose influence some money 
 had been subscribed in return for a one-fourth 
 interest in the invention, and of Professor L. D. 
 Gale, who had shown much interest in the work 
 and was also a partner in the enterprise, Morse 
 knew of no one who seemed to believe enough 
 in him and his telegraph to advance another 
 dollar. 
 
 As he came down to breakfast the next morn- 
 ing a young lady entered and came forward 
 with a smile, exclaiming, " I have come to con- 
 gratulate you." " Upon what ? " inquired the 
 professor. *' Upon the passage of your bill," 
 she replied. " Impossible ! Its fate was sealed 
 last evening. You must be mistaken." " Not 
 
SJVUEL F. B. MORSE 
 
 137 
 
 at all," answered the young lady, the daughter 
 of Morse's friend, the Commissioner of Patents, 
 H. L. Ellsworth ; " father sent me to tell you that 
 your bill was passed. He remained until the 
 session closed, and yours was the last bill but 
 one acted upon, and it was passed just five 
 minutes before the adjournment. And I am so 
 glad to be able to be the first one to tell you. 
 Mother says you must come home with me to 
 breakfast." 
 
 Morse, overcome by the intelligence, promised 
 that his young friend, the bearer of these good 
 tidings, should send the first message over the 
 first line of telegraph that was opened. 
 
 He writes to Alfred Vail that day : " The 
 amount of business before the Senate rendered 
 it more and more doubtful, as the session drew 
 to a close, whether the House bill on the tele- 
 graph would be reached, and on the last day, 
 March 3, 1843, I was advised by one of my 
 Senatorial friends to make up my mind for fail- 
 ure, as he deemed it next to impossible that it 
 could be reached before the adjournment. The 
 bill, however, was reached a few minutes before 
 midnight and passed. This was the turning 
 point in the history of the telegraph. My per- 
 sonal funds were reduced to the fraction of a 
 dollar, and, had the passage of the bill failed 
 from any cause, there would have been little 
 prospect of another attempt on my part to intro- 
 duce to the world my new invention." 
 
 The appropriation by Congress having been 
 made, Morse went to work with energy and 
 
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 138 
 
 INVfSNTORS 
 
 
 delight to construct the first line of his electric 
 telegraph. It was important that it should be 
 laid where it would attract the attention of the 
 government, and this consideration decided the 
 question in favor of a line between Washington 
 and Baltimore. He had as assistants Professor 
 Gale and Professor J. C. Fisher. Mr. Vail was 
 to devote his attention to making the instru- 
 ments and the purchase of materials. Morse 
 himself was general superintendent under the 
 appointment of the government and gave atten- 
 tion to the minutest details. All disbursements 
 passed through his hands. In point of accuracy, 
 the preservation of vouchers, and presentation of 
 accounts, General Washington himself was not 
 more precise, lucid, and correct. Ezra Cornell, 
 afterward one of the most successful constructors 
 of telegraph lines, was employed to take charge 
 of the work under Morse. Much time and 
 expense were lost in consequence of following a 
 plan for laying the wires in a leaden tube, and it 
 was only when it was decided to string them on 
 posts that work began to proceed rapidly. 
 
 In expectation of the meeting of the Nation- 
 al Whig Convention, May i, 1844, to nominate 
 candidates for President and Vice-President, 
 energy was redoubled, and by that time the 
 wires were in working order twenty-two miles 
 from Washington toward Baltimore. The day 
 before the convention met. Professor Morse 
 wrote to Vail that certain signals should mean 
 the nomination of a particular candidate. The 
 experiment was approaching its crisis. The con- 
 
SAMUEL F. B. MORSE 
 
 130 
 
 vention assembled and Henry Clay was nom- 
 inated by acclamation to the Presidency. The 
 news was conveyed on the railroad to the 
 point reached by the telegraph and thence in- 
 stantly transmitted over the wires to Washing- 
 ton. An hour afterward passengers arriving 
 at the capital, and supposing that they had 
 brought the first intelligence, were surprised to 
 
 Morse in his Study. 
 (From an old print.) 
 
 find that the announcement had been made al- 
 ready and that they were the bearers of old 
 news. The convention shortly afterward nom- 
 inated Frelinghuysen as Vice-President, and 
 the intelligence was sent to Washington in the 
 same manner. Public astonishment was great 
 and many persons doubted that the feat could 
 have been performed. Before May had elapsed 
 the line reached Baltimore. 
 
 On the 24th of May, 1844, Morse was prepared 
 
 
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 INVENTOliS 
 
 to put to final test the great experiment on which 
 his mind had been laboring for twelve anxious 
 years. Vail, his assistant, was at the Baltimore 
 terminus. Morse had invited his friends to as- 
 semble in the chamber of the United States 
 Supreme Court, where he had his instrument, 
 from which the wires extended to Baltimore. 
 He had promised his young friend. Miss Ells- 
 worth, that she should send the first message 
 over the wires. Her mother suggested the 
 familiar words of scripture (Numbers, xxiii. 23), 
 " What hath God wrought ! " The words v^ere 
 chosen without consultation with the inventor, 
 but were singularly the expression of his own 
 sentiment and his own experience in bringing his 
 work to successful accomplishment. Perfectl}'' 
 religious in his convictions, and trained from 
 earliest childhood to believe in the special super- 
 intendence of Providence in the minutest affairs 
 of man, he had acted throughout the whole of 
 his struggles under the firm persuasion that God 
 was working in him to do His own pleasure in 
 this thing. 
 
 The first public messages sent were a notice to 
 Silas Wright in Washington of his nomination 
 to the office of Vice-President of the United 
 States by the Democratic convention, then in 
 session (May, 1844) in Baltimore, and his re- 
 sponse declining it. Hendrick B. Wright, in a 
 letter written to Mr. B. J. Lossing, says: "As 
 the presiding officer of the body I read the de- 
 spatch, but so incredulous were the members as 
 to the authority of the evidence before them 
 
SAMUEL F. B. MORSE 
 
 141 
 
 that the convention adjourned over to the fol- 
 lowing day to await the report of the committee 
 sent over to Washington to get reliable informa- 
 tion on the subject." Mr. Vail kept a diary in 
 those early days of the telegraph, full of inter- 
 esting reminiscences. It was often necessary, in 
 order to convince incredulous visitors to the 
 office that the questions and replies sent over 
 the wire were not manufactured or agreed upon 
 beforehand, to allow them to send their own re- 
 marks. When the committee just mentioned by 
 Mr. Wriiirht returned from Baltimore and con- 
 firmed the correctness of the report given by 
 telegraph, the new invention received a splendid 
 advertisement. The convention having reassem- 
 bled in the morning, and the refusal of Wright 
 to accept the nomination having oeen communi- 
 cated, a conference was held between him and 
 his friends through the medium of Morse's wires. 
 In Washington Mr. Wright and Mr. Morse were 
 closeted with the instrument ; at Baltimore the 
 committee of conference surrounded Vail with 
 his instrument. Spectators and auditors were 
 excluded. The committee communicated to Mr. 
 Wright their reasons for urging his acceptance. 
 In a moment he received their communication 
 in writing and as quickly returned his answer. 
 Again and again these confidential messages 
 passed, and the result was finally announced to 
 the convention that Mr. Wright was inflexible. 
 Mr. Dallas then received the nomination and ac- 
 cepted it. The ticket thus nominated was suc- 
 cessful at the election of that year. The original 
 
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 INVENTORS 
 
 ^il 
 
 slips of paper on which some of the early mes- 
 sages were written are still preserved, among 
 others this request: "As a rumor is prevalent 
 here this morning that Mr. Eugene Boyle was 
 shot at Baltimore last evening, Professor Morse 
 will confer a great favor upon the family by 
 making inquiry by means of his electro-magnetic 
 telegraph if such is the fact." 
 
 The telegraph was shown at first without 
 charge. During the session of 1844 -1845 Con- 
 gress made an appropriation of $8,000 to keep it 
 in operation during the year, placing it under 
 the supervision of the Postmaster-General, who, 
 at the close of the session, ordered a tariff of 
 charges of one cent for every four characters 
 made through the telegraph. Mr. Vail was ap- 
 pointed operator for the Washington station and 
 Mr. H. J. Rogers for Baltimore. This new order 
 of things began April i, 1845, the object being 
 to test the profitableness of the enterprise. The 
 first day's income was one cent; on the fifth 
 day twelve and a half cents were received ; on 
 the seventh the receipts ran up to sixty cents ; 
 on the eighth to one dollar and thirty -two 
 cents ; on the ninth to one dollar and four 
 cents. It is worthy of remark, as Mr. Vail 
 notes, that the business done after the tariff 
 was fixed was greater than when the service 
 was gratuitous. 
 
 The telegraph was now a reality. Its com- 
 pletion was hailed with enthusiasm, and the 
 newspapers lauded the inventor to the skies. 
 Resolutions of thanks and applause were adopted 
 
 it 
 
 -'M 
 
SAMUEL F. B. MORSE 
 
 143 
 
 by popular assemblies. It was a favorite idea 
 with Professor Morse, from the inception of his 
 enterprise, that the telegraph should belong to 
 the government, and he sent a communication 
 to Congress making a formal offer. The overture 
 was not accepted, but the extension of the line 
 from Baltimore to Philadelphia and then to New 
 York was only a work of time. The aid of Con- 
 gress was sought in vain. The appropriation of 
 $8,000 was made, but further than that the gov- 
 ernment declined to go. The sum named as the 
 price at which the Morse Company would sell 
 the telegraph to the government was $100,000. 
 The subject was discussed in the report of Cave 
 Johnson, Postmaster -General under President 
 Polk. He was a member of Congress when the 
 bill came up before the House appropriating 
 $30,000 for the experimental line, and was one of 
 those who ridiculed the whole subject as unwor- 
 thy of the notice of sensible men. As Postmas- 
 ter-General he said in his report, after the ex- 
 periment had succeeded to the satisfaction of 
 mankind, that " the operation of a telegraph be- 
 tween Washington and Baltimore had not satis- 
 fied him that under any rate of postage that could 
 be adopted its revenues could be made equal to 
 its expenditures." Such an opinion, with the ev- 
 idence then in the possession of the department, 
 appears to be curious official blindness. But it 
 was fortunate for the inventor that the telegraph 
 was left to the private enterprise. Twenty-five 
 years after the government had declined to take 
 the telegraph at the price of $100,000, a project 
 
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 INVENTORS 
 
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 was started to establish lines of telegraph to be 
 used by the government a<= part of the mail postal 
 system. And in 1873 the Postmaster-General, 
 Mr. Cressvvell, said in his report that the entire 
 first cost of all the lines in the country, including 
 patents, was less than $10,000,000; but the prop- 
 erty of the existing telegraph company was al- 
 ready well worth $50,000,000. 
 
 Morse's position was far easier than it had 
 been for many years. His old friends, the artists 
 of New York, rallied in force and laid before 
 Congress a petition that the professor be em- 
 ployed to execute the painting to fill the panel 
 at the Capitol assigned to Inman, who had been 
 removed by death. But it came to nothing. 
 Morse was never again to take the brush in hand. 
 The first money that he received from his inven- 
 tion was the sum of $47, being his share of the 
 amount paid for the right to use his patent on a 
 short line from the Washington Post-office to 
 the National Observatory. The use he made of 
 the money was characteristic of the man. He 
 sent it to the Rev. Dr. Sprole, then a pastor in 
 Washington, requesting him to apply it for the 
 benefit of his church. 
 
 Early in June, 1846, the line from Baltimore 
 to Philadelphia was in operation, and that from 
 Philadelphia to New York. Abroad the system 
 was working its way steadily into favor. In 
 France an appropriation of nearly half a million 
 francs was made to introduce the Morse system. 
 But meantime violations of Morse's rights were 
 beginning to crop up on every side, both at home 
 
SAMUEL F. B. MORSE 
 
 145 
 
 and abroad. In a letter to Daniel Lord, his law- 
 yer, Morse says : 
 
 " The plot thickens all around me ; 1 think a 
 denouement not far off. I remember your con- 
 soling me under these attacks with bidding me 
 think that I had invented something worth con- 
 tending for. Alas! my dear sir, what encour- 
 agement is there to an inventor if, after years of 
 toil and anxiety, he has only purchased for him- 
 self the pleasure of being a target for every vile 
 fellow to shoot at, and in proportion as his inven- 
 tion is of public utility, so much the greater 
 effort is to be made to defame that the robbery 
 may excite the less sympathy ? I know, how- 
 ever, that beyond all this there is a clear sky ; 
 but the clouds may not break away till I am no 
 longer personally interested, whether it be foul 
 or fair, I wish not to complain, but I have feel- 
 ings, and cannot play the Stoic if I would." 
 
 Perhaps the most painful chapter of Morse's 
 life is the history of the lawsuits in which he 
 was involved in defence of his rights. His rep- 
 utation as well as his property were assailed. 
 Exceedingly sensitive to these attacks, the suits 
 that followed the success of the telegraph cost 
 him inexpressible distress. It is some satisfac- 
 tion to be able to record that after years of bit- 
 ter controversy the final decision was favorable 
 to the inventor. Honors began to pour in upon 
 him from even the uttermost parts of the earth. 
 The Sultan of Turkey was the first monarch to 
 acknowledge Morse as a public benefactor. This 
 was in 1848. 
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 The kings of Prussia and Wurtcm- 
 
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 146 
 
 INVENTORS 
 
 burg and the Emperor of Austria each gave him 
 a gold medal, that of the first named being set in 
 a massive gold snuff-box. In 1856 the Emperor 
 of the French made him a chevalier of the Le- 
 gion of Honor. Orders from t)enmark, Spain, 
 Italy, Portugal soon followed. In 1858 a special 
 
 
 The Siphon Recorder for Receiving Cable Messages — Office of the Conamercial 
 Cable Company, I Broad Street, New York. 
 
 congress was called by the Emperor of the 
 French to devise a suitable testimonial of the 
 nation to Professor Morse. Representatives 
 from ten sovereignties convened at Paris and by 
 a unanimous vote gave, in the aggregate, $80,000 
 as an honorary gratuity to Professor Morse. 
 The states participating in this testimonial were 
 France, Austria, Russia, Belgium, Holland, Svve- 
 
SAMUEL F. B. MORSE 
 
 147 
 
 den, Piedmont, the Holy See, Tuscany, and Tur- 
 key. 
 
 Professor Morse was one of the first to sug- 
 gest and the first to carry out the use of a ma- 
 rine cable. During the summer of 1842 he had 
 been making elaborate preparations for an ex- 
 periment destined to give wonderful develop- 
 ment to his invention. This was no less than 
 a submarine wire, to demonstrate the fact that 
 the current of electricity could be conducted 
 as well under water as through the air. Of 
 this he had entertained no doubt. " If I can 
 make it work ten miles, I can make it go around 
 the globe," was a favorite expression of his in the 
 infancy of his enterprise. But he wished to prove 
 it. He insulated his wire as well as he could 
 with hempen strands well covered with pitch, 
 tar, and india-rubber. In the course of the 
 autumn he was prepared to put the question 
 to the test of actual experiment. The wire was 
 only the twelfth of an inch in diameter. About 
 two miles of this, wound on a reel, was placed in 
 a small row-boat, and with one man at the oars 
 and Professor Morse at the stern, the work of 
 paying out the cable was begun. It was a beau- 
 tiful moonlight night, and those who had pro- 
 longed their evening rambles on the Battery must 
 have wondered, as they watched the proceedings 
 in the boat, what kind of fishing the two men 
 could be engaged in that required so long a line. 
 In somewhat less than two hours, on that eventful 
 evening of October 18, 1842, the first cable was 
 laid. Professor Morse returned to his lodgings 
 
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 INVENTORS 
 
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 and waited with some anxiety the time when he 
 should be able to test the experiment fully and 
 fairly. The next morning the New York Ner- 
 ald contained the following editorial announce- 
 ment : 
 
 "Morse's Electro-Magnetic Telegraph. 
 
 " This important invention is to be exhibited in 
 operation at Castle Garden between the hours of 
 twelve and one o'clock to-day. One telegraph 
 will be erected on Governor's Island and one at 
 the Castle, and messages will be interchanged 
 and orders transmitted during the day. Many 
 have been incredulous as to the powers of this 
 wonderful triumph of science and art. All such 
 may now have an opportunity of fairly testing it. 
 It is destined to work a complete revolution 
 in the mode of transmitting intelligence through- 
 out the civilized world." 
 
 At daybreak the professor was on the Battery, 
 and had just demonstrated his success by the 
 transmission of three or four characters between 
 the termini of the line, when the communication 
 was suddenly interrupted, and it was found im- 
 possible to send any messages through the con- 
 ductor. The cause of this was evident when he 
 observed no less than seven vessels lying along 
 the line of the submerged cable, one of which, in 
 getting under way, had raised it on her anchor. 
 The sailors, unable to divine its meaning, hauled 
 in about two hundred feet of it on deck, and find- 
 ing no end, cut off that portion and carried it 
 
SAMUEL F. B. MOUSE 
 
 149 
 
 away with them. Thus ended the first attempt 
 at submarine telegraphing. The crowd that had 
 assembled on the Battery dispersed with jeers, 
 most of them believing they had been made the 
 '/ictims of a hoax. 
 
 In a letter to John C. Spencer, then Secretary 
 of the Treasury, in August, 1843, concerning elec- 
 tro-magnetism and its powers, he wrote : 
 
 " The practical inference from this law is that 
 a telegraphic communication on the electro-mag- 
 netic plan may with certainty be established 
 across the Atlantic Ocean. Startling as this 
 may now seem, I am confident the time will 
 come when this project will be realized." 
 
 In 1 87 1 a statue of Professor Morse was erected 
 in Central Park, New York, at the expense of the 
 telegraph operators of the country. It was un- 
 veiled on June loth with imposing ceremonies. 
 There were delegates from every State in the 
 Union, and from the British provinces. In the 
 evening a public reception was given to the ven- 
 erable inventor at the Academy of Music, at 
 which William Orton, president of the Western 
 Union Telegraph Company, presided, assisted 
 by scores of the leading public men of the coun- 
 try as vice-presidents. The last scene was an im- 
 pressive one. It was announced that the tele- 
 graphic instrument before the audience was then 
 in connection with every other one of the ten 
 thousand instruments in America. Then Miss 
 Cornell, a young telegraphic operator, sent this 
 message from the key : " Greeting and thanks to 
 the telegraph fraternity throughout the world. 
 
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 INVENTORS 
 
 Glory to God in the highest, on earth peace, 
 good-will to men." The venerable inventor, the 
 personification of simplicity, dignity, and kindli- 
 ness, was then conducted to the instrument, and 
 touching the key, sent out : " S. F. B. Morse." 
 A storm of enthusiasm swept through the house 
 as the audience rose, the ladies waving their 
 handkerchiefs and the men cheering. 
 
 Professor Morse last appeared in public on 
 February 22, 1872, when he unveiled the statue 
 of Franklin, erected in Printing-house Square in 
 New York. He died, after a short illness, on 
 April 2, 1872, and was buried in Greenwood 
 Cemetery. On the day of the funeral, April 5th, 
 every telegraph office in the country was draped 
 in mourning. 
 
 Professor Morse was twice married. His first 
 wife died in 1825. In 1848 he married Sarah 
 Elizabeth Griswold, of Poughkeepsie, who still 
 lives. By the first marriage there were three 
 children, one of whom, a son, survives. By the 
 second marriage there were four children, three 
 of whom are alive — a daughter and two sons. 
 Miss Leila Morse, the daughter, was married in 
 1885 to Herr Franz Rummel, the eminent pianist. 
 The last years of his life were eminently peaceful 
 and happy. In the summer he lived at a place 
 called Locust Grove, on the banks of the Hudson, 
 near Poughkeepsie, and in the winter in a house 
 at No. 5 West Twenty-second Street, a few doors 
 west of Fifth Avenue. In recent years a marble 
 tablet has been affixed to the front of the house, 
 suitably inscribed. 
 
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 152 
 
 INVENTORS 
 
 Morse's life in the country was very simple and 
 quiet. His hour of rising was half-past six 
 o'clock in the morning, and he was in his library 
 alone until breakfast, at eight. He loved to hear 
 the birds in their native songs, and he could dis- 
 tinguish the notes of each species, and would 
 speak of the quality of their respective music. 
 He spent most of the day in reading and writ- 
 ing, rarely taking exercise, except walking in 
 his garden to visit his graperies, in which he 
 took special pride, or to the stable to see if his 
 horses were well cared for. He did not ride out 
 regularly with his family, preferring the repose 
 of his own grounds and the labors of his study. 
 But when he walked or rode in the country, he 
 was constantly disposed to speak of the beauty 
 and glory around him, as revealing to his mind 
 the beneficence, wisdom, and power of the infinite 
 Creator, who had made all these things for the 
 use and enjoyment of men. 
 
 One of his daughters writes of him in these 
 simple and tender words : " He loved flowers. 
 He would take one in his hand and talk for hours 
 about its beauty, its wonderful construction, and 
 the wisdom and love of God in making so many 
 varied forms of life and color to please our eyes. 
 In his later years he became deeply interested in 
 the microscope and purchased one of great ex- 
 cellence and power. For whole hours, all the 
 afternoon or evening, he would sit over it, exam- 
 ining flowers or the animalculae in different fluids. 
 Then he would gather his children about him and 
 
SAMUEL F. D. MORSE 
 
 153 
 
 give us a sort of extempore lecture on the won- 
 ders of creation invisible to the naked eye, but 
 so clearly brought to view by the magnifying 
 power of the microscope. He was very fond of 
 animals, cats, and birds in particular. He tamed 
 a little flying-squirrel, and it became so fond of 
 him that it would sit on his shoulder while he 
 was at his studies and would eat out of his hand 
 and sleep in his pocket. To this little animal he 
 became so much attached that we took it with 
 us to Europe, where it came to an untimely end, 
 in Paris, by running into an open fire." 
 His biographer, Prime, says of him : 
 " In person Professor Morse was tall, slender, 
 graceful, and attractive. Six feet in stature, he 
 stood erect and firm, even in old age. His blue 
 eyes were expressive of genius and affection. 
 His nature was a rare combination of solid intel- 
 lect and delicate sensibility. Thoughtful, sober, 
 and quiet, he readily entered into the enjoyments 
 of domestic and social life, indulging in sallies of 
 humor, and readily appreciating and greatly en- 
 joying the wit of others. Dignified in his inter- 
 course with men, courteous and affable with the 
 gentler sex, he was a good husband, a judicious 
 father, a generous and faithful friend. He had 
 the misfortune to incur the hostility of men who 
 would deprive him of the merit and the reward 
 of his labors. But his was the common fate of 
 great inventors. He lived until his rights were 
 vindicated by every tribunal to which they could 
 be referred, and acknowledged by all civilized 
 
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 INVENTORS 
 
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 the honor of having given birth to the only 
 electro-magnetic recording telegraph whose line 
 has gone out through all the earth and its words 
 to the end of the world." 
 
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VI. 
 
 CHARLES GOODYEAR. 
 
 India-rubber had been known for more than 
 a hundred years when Charles Goodyear under- 
 took to make of it thousands of articles useful in 
 common life. So long ago as 1735 a party of 
 French astronomers discovered in Peru a curi- 
 ous tree that yielded the natives a peculiar gum 
 or sap which they collected in clay vessels. 
 This sap became hard when exposed to the sun, 
 and was used by the natives, who made different 
 articles of every-day use from it by dipping a 
 clay mould again and again into the liquid. 
 When the article was completed the clay mould 
 was broken to pieces and shaken out. In this 
 manner they made a kind of rough shoe and an 
 equally rough bottle. In some parts of South 
 America the natives presented their guests with 
 these bottles, which served as syringes for 
 squirting water. Articles thus made were liable 
 to become stiff and unmanageable in cold weather 
 and soft and sticky in warm. Upon getting back 
 to France the travellers directed the attention 
 of scientists to this remarkable gum, which was 
 afterward found in various parts of South Amer- 
 ica, and the chief supplies of which still come 
 from Brazil. About the beginning of the pres- 
 
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 INVENTORS 
 
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 ent century this substance, known variously as 
 cachuchu, caoutchouc, gum-elastic, and india- 
 rubber, was first commercially introduced into 
 Europe. It was regarded merely as a curiosity, 
 chiefly useful for erasing pencil-marks. Ships 
 from South America took it over as ballast. 
 About the year 1820 it began to be used in 
 France in the manufacture of ;< renders and 
 garters, india-rubber threads be' nixed with 
 the material used in weaving jse a. tides. 
 Some years later Mackintosh, an English manu- 
 facturer, used it in his famous water-proof coats, 
 which were made by spreading a layer of the 
 gum between two pieces of cloth. 
 
 About the same time a pair of india-rubber 
 shoes were exhibited in Boston, where they were 
 regarded as a curiosity ; they were covered with 
 gilt-foil to hide their natural ugliness. Ir. 1823 a 
 Boston merchant, engaged in the South American 
 trade, imported five hundred pairs of these shoes, 
 made by the natives of Para, and found no dif- 
 ficulty in selling them. In fact, this became a 
 large business, although these shoes were terri- 
 bly rough and clumsy and were not to be de- 
 pended upon ; in cold weather they became so 
 hard that they could be used only after being 
 thawed by the fire, and in summer they could 
 be preserved only by keeping them on ice. If 
 during the thawing process they were placed 
 too near the fire, they would melt into a shape- 
 less mass ; and yet they cost from three to five 
 dollars a pair. 
 
 In 1830 E. M. Chaffee, of Boston, the foreman 
 
CHARLES GOODYEAR 
 
 157 
 
 of a patent leather factory in that city, attempt- 
 ed to replace patent leather by a compound of 
 india-rubber. He dissolved a pound of the gum 
 in spirits of turpentine, added to the mixture 
 enough lamp-black to produce a bright black 
 color, and invented a machine for spreading this 
 compound over cloth. When dried in the sun 
 it produced a hard, smooth surface, flexible 
 enough to be twisted into any shape without 
 cracking. With the aid of a few capitalists, 
 Chaffee organized, in 1833, ^ company called the 
 Roxbury India-rubber Company, and manufact- 
 ured an india-rubber cloth from which wagon- 
 covers, piano-covers, caps, coats, shoes, and other 
 articles were made. The product of the factory 
 sold well, and the success of the Roxbury Com- 
 pany led to the establishment of a number of sim- 
 ilar factories elsewhere. Apparently all who 
 were engaged in the production of rubber goods 
 were on the highway to wealth. 
 
 A day of disaster, however, came. Most of 
 the goods produced in the winter of 1 833-1 834 
 became worthless during the following summer. 
 The shoes melted to a soft mass and the caps, 
 wagon-covers, and coats became sticky and use- 
 less. To make matters worse they emitted an 
 odor so offensive that it was necessary to bury 
 them in the ground. Twenty thousand dollars' 
 worth of these goods were thrown back on the 
 hands of the Roxbury Company alone, and the 
 directors were appalled by the ruin that threat- 
 ened them. It was useless to go on manufactur- 
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 158 
 
 INVENTORS 
 
 moment. India-rubber stock fell rapidly, and by 
 the end of 1836 there was not a solvent rubber 
 .company in the Union, the stockholders losing 
 about $2,000,000. People came to detest the very 
 name of india-rubber. 
 
 One day, in 1834, a Philadelphia hardware 
 merchant, named Charles Goodyear, wag led by 
 curiosity to buy a rubber life-preserver. And 
 thus began for this unfortunate genius nearly 
 twenty-five years of struggle, misery, and dis- 
 appointment. Charles Goodyear was born in 
 New Haven, Conn., December 29, 1800. When 
 a boy his father moved to Philadelphia, where 
 he engaged in the hardware business, and 
 upon becoming of age, Charles Goodyear joined 
 him as a partner. In the panic of 1836-1837 the 
 house went down. Goodyear's attention had 
 been attracted for several years by the wonder- 
 ful success of the india-rubber companies. Upon 
 examining his life-preserver he discovered a de- 
 fect in the inflating valve and made an improved 
 one. Going to New York with this device, he 
 called on the agent of the Roxbury Company 
 and, explaining it to him, offered to sell it to 
 the company. The agent was impressed with 
 the improvement, but insteac' of buying it, told 
 the inventor the real state ot the india-rubber 
 business of the country, then on the verge of a 
 collapse. He urged Goodyear to exert his in- 
 ventive skill in discovering some means of im- 
 parting durability to india-rubber goods, and 
 assured him that if he could find a process to 
 effect that end, he could sell it at his own price. 
 
CHARLES GOODYEAR 
 
 159 
 
 He explained the processes then in use and their 
 imperfections. 
 
 Goodyear forgot all about his disappointment 
 in failing to sell his valve, and went home intent 
 upon experiments to make gum-elastic durable. 
 From that time until the close of his life he de- 
 voted himself solely to this work. He was thir- 
 ty-five years old, feeble in health, a bankrupt 
 in business, and had a young family depending 
 upon him. The industry in which he now en- 
 gaged was one in which thousands of persons 
 had found ruin. The firm of which he had been 
 a member owed $30,000, and upon his return to 
 Philadelphia he was arrested for debt and com- 
 pelled to live within prison limits. He began his 
 experiments at once. The price of the gum had 
 fallen to five cents per pound, so that he had no 
 difficulty in getting sufficient of it to begin work. 
 By melting and working it thoroughly and roll- 
 ing it out upon a stone table, he succeeded in pro- 
 ducing sheets of india-rubber that seemed to him 
 to possess new properties. A friend loaned him 
 enough money to manufacture a number of shoes 
 which at first seemed to be all that could be 
 desired. Fearful, however, of coming trouble, 
 Goodyear put his shoes away until the following 
 summer, when the warm weather reduced them 
 to a mass of so offensive an odor that he was 
 glad to throw them away. His friend was so 
 thoroughly disheartened by this failure as to 
 refuse to have anything more to do with 
 Goodyear's scheme. The inventor, nevertheless, 
 kept on. 
 
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 160 
 
 INVENTORS 
 
 It occurred to him that there must be some 
 substance which, mixed with the gum, would ren- 
 der it durable, and he began to experiment with 
 almost every substance that he could lay his 
 hands on. All proved total failures with the 
 exception of magnesia. By mixing half a pound 
 of magnesia with a pound of the gum he pro- 
 duced a substance whiter than the pure gum, 
 which was at first as firm and flexible as leather, 
 and out of which he made beautiful book-covers 
 and piano-covers. It looked as if he had solved 
 the problem ; but in a month his pretty product 
 was ruined. Heat caused it to soften ; fermen- 
 tation then set in, and finally it became as hard 
 and brittle as thin glass. His stock of money 
 was now exhausted. He was forced to pawn all 
 his own valuables and even the trinkets of his 
 wife. But he felt sure that he was on the road 
 to success and would eventually win both fame 
 and fortune. He removed his family to the coun- 
 try, and set out for New York, where he hoped 
 to find someone willing to aid him in carrying 
 his experiments further. Here he met two 
 acquaintances, one of whom offered him the use 
 of a room in Gold Street as a workshop, and the 
 other, a druggist, agreed to let him have on 
 credit such chemicals as he needed. He now 
 boiled the gum, mixed with magnesia, in quick- 
 lime and water, and as a result obtained firm, 
 smooth sheets that won him a medal at the fair 
 of the American Institute in 1835. He seemed 
 on the point of success, and easily sold all the 
 sheets he could manufacture, when, to his dismay, 
 
CHARLES GOODYEAR 
 
 161 
 
 he discovered that a drop of the weakest acid, 
 such as the juice of an apple or diluted vinegar, 
 would reduce his new compound to the old 
 sticky substance that had baffled him so often. 
 
 His first important discovery on the road to 
 real success was the result of accident. He 
 liked pretty things, and it was a constant effort 
 with him to make his productions as attractive 
 to the eye as possible. Upon one occasion, while 
 bronzing a piece of rubber cloth, he applied 
 aqua fortis to it for the purpose of removing part 
 of the bronze. It took away the bronze, but it 
 also destroyed the cloth to such a degree that he 
 supposed it ruined and threw it away. A day or 
 two later, happening to pick it up, he was aston- 
 ished to find that the rubber had undergone a re- 
 markable change, and that the effect of the acid 
 had been to harden it to such an extent that it 
 would now stand a degree of heat which would 
 have melted it before. Aqua fortis contained 
 sulphuric acid. Goodyear was thus on the 
 threshold of his great discovery of vulcanizing 
 rubber. He called his new process the " curing " 
 of india-rubber. 
 
 The "cured" india-rubber was subjected to 
 many tests and passed through them successfully, 
 thus demonstrating its adaptability to many im- 
 portant uses. Goodyear readily obtained a pat- 
 ent for his process, and a partner with a large 
 capital was found ready to aid him. He hired 
 the old india-rubber works on Staten Island and 
 opened a salesroom in Broadway. He was 
 thrown back for six weeks at this important 
 
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 INVENTORS 
 
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 time by an accident which happened to him 
 while experimenting with his fabrics and which 
 came n'iar causing his death. Just as he was re- 
 covering and preparing to begin the manufacture 
 of his goods on a large scale the terrible com- 
 mercial crisis of 1837 swept over the country, 
 and by destroying his partner's fortune at one 
 blow, reduced Goodyear to absolute beggary. 
 His family had joined him in New York, and he 
 was entirely without the means of supporting 
 them. As the only resource at hand he decided 
 to pawn an article of value — one of the few 
 which he possessed — in order to raise money to 
 procure one day's supply of provisions. At the 
 very door of the pawnbroker's shop he met one 
 of his creditors, who kindly asked if he could 
 be of any further assistance to him. Weak 
 with hunger and overcome by the generosity 
 of his friend the poor man burst into tears and 
 replied that, as his family was nn the point of 
 starvation, a loan of $15 would greatly oblige 
 him. The money was given him on the spot and 
 the necessity for visiting the pawnbroker averted 
 for several days longer. Still he was a frequent 
 visitor to that person during the year, and one 
 by one the relics of his better days disappeared. 
 Another friend loaned him $100, which enabled 
 him to remove his family to Staten Island, in the 
 neighborhood of the abandoned rubber works, 
 which the owners gave him permission to use 
 so far as he could. He contrived in this way to 
 manufacture enough of his " cured " cloth, which 
 sold readily, to enable him to keep his family 
 
i •' 
 
 I 1 
 
 ( • 
 
 ' 1 
 
 ' 1 
 
 CHARLES GOODYEAR 
 
 163 
 
 from starvation. He made repeated efforts to 
 induce capitalists to come to the iactory and see 
 his samples and the process by which they were 
 made, but no one would venture near him. 
 There had been money enough lost in such ex- 
 periments, these acquaintances said, and they 
 were determined to risk no more. 
 
 Indeed, in all the broad land there was but one 
 man who had the slightest hope of accomplish- 
 ing anything with india-rubber, and that one 
 was Charles Goodyear. His friends regarded 
 him as a monomaniac. He not only manufactured 
 his cloth, but even dressed in clothes made of it, 
 wearing it for the purpose of testing its dura- 
 bility, as well as of advertising it. He was cer- 
 tainly an odd figure, and in his appearance justi- 
 fied the remark of one of his friends, who, upon 
 being asked how Mr. Goodyear could be recog- 
 nized, replied : " If you see a man with an india- 
 rubber coat on, india-rubber shoes, and india- 
 rubber cap, and in his pocket an india-rubber 
 purse with not a cent in it, that is Goodyear." 
 
 In September, 1837, a new gleam of hope lit 
 up his pathway. A friend having loaned him a 
 small sum of money he went to Roxbury, taking 
 with him some of his best specimens. Although 
 the Roxbury Company had gone down with a 
 fearful crash, Mr. Chaffee, the inventor of the 
 first process of makin?- rubber goods in this 
 country, was still firm in his faith that india-rub- 
 ber would at some future time justify the ex- 
 pectations of its earliest friends. He welcomed 
 Goodyear cordially and allowed him to use the 
 
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 INVENTORS 
 
 abandoned works of the company for his experi- 
 ments. The result was that Goodyear succeeded 
 in making shoes and cloths of india-rubber of a 
 quality so much better than any that had yet 
 been seen in America that the hopes of the 
 friends of india-rubber were raised to a high 
 point. Offers to purchase rights for certain por- 
 tions of the country came in rapidly, and by the 
 
 Calenders Heated Internally by Steann, for Spreading India Rubber into Sheets or 
 upon Cloth, called the "Chaffee Machine." 
 
 sale of them Goodyear realized between four 
 and five thousand dollars. He was now able to 
 bring his family to Roxbury, and for the time 
 fortune seemed to smile upon him. 
 
 His success was but temporary, however. He 
 obtained an order from the general Government 
 for one hundred and fifty india-rubber mail-bags, 
 which he succeeded in producing, and as th. ^ 
 came out smooth, highly polished, hard, well 
 shaped, and entirely impervious to moisture, he 
 
CHARLES OOODYEAll 
 
 165 
 
 was delighted and summoned liis friends to in- 
 spect and admire them. All who saw them pro. 
 nounced them a perfect success, but alas! in a 
 single month they began to soften and ferment, 
 and finally became useless. Poor Goodyear's 
 hopes were dashed to the ground. It was found 
 that the aqua fortis merely "cured" the surface 
 of the material, and that only very thin cloth 
 made in this way was durable. His other goods 
 began to prove worthless and his promising 
 business came to a sudden and disastrous end. 
 All his possessions were seized and sold for debt, 
 and once more he was reduced to poverty. His 
 position was even worse than before, for his 
 family had increased in size and his aged father 
 also had become dependent upon him for sup- 
 port. 
 
 Friends, relatives, and even his wife, all de- 
 manded that he should abandon his empty 
 dreams and turn his attention to something that 
 would yield a support to his family. Four years 
 of constant failure, added to the unfortunate ex- 
 perience of those who had preceded him, ought 
 to convince him, they said, that he was hoping 
 against hope. Hitherto his conduct, entirely 
 had been absurd, though they admitted that he 
 was to some extent excused for it by his partial 
 success ; but to persist in it would be criminal. 
 The inventor was driven to despair, and being a 
 man of tender feelings and ardently devoted to 
 his family, might have yielded to them had he 
 not felt that he was nearer than ever to the dis- 
 covery of the secret that had eluded him so long. 
 
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 INVENTORS 
 
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 Just before the failure of his mail-bags had 
 brought ruin upon him, he had taken into his 
 employ a man named Nathaniel Hayward, who 
 had been the foreman of the old Roxbury works, 
 and who was still in charge of them when Good- 
 year came to Roxbury, and was making a few 
 rubber articles on his own account. He hard- 
 ened his compound by mixing a little powdered 
 sulphur with the gum, or by sprinkling sulphur 
 over the rubber cloth and drying it in the sun. 
 He declared that the process had been revealed 
 to him in a dream, but could give no further ac- 
 count of it. Goodyear was astonished to find 
 that the sulphur cured the india-rubber as thor- 
 oughly as the aqua fortis, the principal objection 
 being that the sulphurous odor of the goods was 
 frightful in hot weather. Hayward's process 
 was really the same as that employed by Good- 
 year, the "curing" of the india-rubber being 
 due in each case to the agency of the sulphur, 
 the principal difference between them being that 
 Hayward's goods were dried by the sun and 
 Goodyear's with nitric acid. Hayward set so 
 small a value upon his discovery that he readily 
 sold it to his new employer. 
 
 Goodyear felt that he had now all but con- 
 quered his difficulties. It was plain that sulphur 
 was the great controller of india-rubber, for he 
 had proved that when applied to thin cloth it 
 would render it available for most purposes. The 
 problem that now remained was how to mix sul- 
 phur and the gum in a mass, so that every part 
 of the rubber should be subjected to the agency 
 
ClIA RLES a 001) YKA R 
 
 107 
 
 of the sulphur. He experimented for weeks and 
 months with tlie most intense ea<^erness, but the 
 mystery eompletely baflled him. His friends 
 ur^ed him to go to work to do something for 
 his family, but he could not turn back. The 
 goal was almost in sight, and he felt that he 
 would be false to his mission were he to abandon 
 his labors now. To the wftrld he seemed a crack- 
 brained dreamer, and some there were who, see- 
 ing the distress of his family, did not hesitate to 
 apply still harsher names to him. Had it been 
 merely wealth that he was working for, doubt- 
 less he would have turned back and sought some 
 other means of obtaining it; but he sought more. 
 He felt that he had a mission to fulfil, and that 
 no one else could perform it. 
 
 He was right. A still greater success was 
 about to crown his labors, but in a manner far 
 different from his expectations. His experiments 
 had developed nothing; chance was to nakethc 
 revelation. It was in the spring of 1839, and in 
 the following manner: Standing before a stove 
 in a store at Woburn, Mass., he was explaining 
 to some acquaintances the properties of a piece 
 of sulphur-cured india-rubber which he held in 
 his hand. They listened to him good-naturedly, 
 but with evident incredulity, when suddenly he 
 dropped the rubber on the stove, which was red 
 hot. His old clothes would have melted instantly 
 from contact with such heat ; but, to his surprise, 
 this piece underwent no such change. In amaze- 
 ment he examined it, and found that while it had 
 charred or shrivelled like leather, it had not soft- 
 
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 INVENTORS 
 
 ened at all. The bystanders attached no impor- 
 tance to this phenomenon, but to him it was a 
 revelation. He renewed his experiments with 
 enthusiasm, and in a little while established the 
 facts that india-rubber, when mixed with sulphur 
 and exposed to a certain degree of heat for a 
 specified time, would not melt or soften at any 
 degree of heat ; that it would only char at two 
 hundred and eighty degrees, and that it would 
 not stiffen from exposure to any extent of cold. 
 The aifficulty now consisted in finding out the 
 exact degree of heat neci ^ary for the perfecting 
 of the rubber and the exact length of time re- 
 quired for the heu. ng. 
 
 He made this discovery in his darkest days, 
 when, in fact, he was in constant danger of arrest 
 U " debt, having already b^^en a frequent inmate 
 oi the debtors' prison. He was in the dcptlis of 
 bitter poverty and in such feeble health that he 
 was constantly haunted by the fear of dying be- 
 fore he had perfected his discovery — before he 
 had fulfilled his mission. He needed an appara- 
 tus for producing a high and uniform heat for his 
 experiments, and he wr.j unable to obtain it. He 
 used to bake his compound in his wife's bread- 
 oven and steam it over the spout of her tea- 
 kettle, and to p :iss the kitchen fire into his ser- 
 vice so far as it would go. When this failed, he 
 would go down to the shops in the vicinity of 
 Woburn and beg to be allowed to use the ovens 
 and boilers after working hours were over. The 
 workmen regarded him as a lunatic, but were too 
 good-natured to deny him the request. Finally 
 
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 170 
 
 INVENTORS 
 
 he induced a bricklayer to make him an oven, 
 and paid him in masons' aprons of india-rubber. 
 The oven was a failure. Sometimes it would 
 turn out pieces of perfectly vulcanized cloth, 
 and again the goods would be ciiarred and 
 ruineJ.. Goodyear was in despair. 
 
 All this time he lived on the charity of his 
 friends. His neighbors pretended to lend him 
 money, but in reality gave him the means of 
 keeping his family from starvation. He has de- 
 clared that all the while he felt sure he would, 
 before long, be able to pay them back, but they 
 have declared with equal emphasis that, at that 
 time, they never expected to witness his success. 
 He was yellow and shrivelled in face, with a 
 gaunt, lean figure, and his habit of wearing an 
 india-rubber coat, which was charred and black- 
 ened from his frequent experiments with it, gave 
 him a wild and singular appearance. People 
 shook their heads solemnly when they saw him, 
 and said that the mad-house was thr^ proner place 
 for him. 
 
 The winter of 1839-40 was long v" severe. 
 At the opening of the season Goodyear received 
 a letter from a house in Paris, making him a hand- 
 son ) offer for the use of his process of curing 
 india - rubber with aqua fortis. Here was a 
 chance for him to rise out of his misery. A 
 year before he would have closed with the offer, 
 but since then he had discovered the effects of 
 sulphur and heat on his compound, and had 
 passed far beyond the aqua-fortis stage. Disap- 
 pointment and want had not warped his con- 
 
CHARLES GOODYEAR 
 
 171 
 
 science, and he at once declined to enter into any 
 arrangements with the French house, informing 
 them that although the process they desired to 
 purchase was a valuable one, it was about to be 
 entirely replaced by another which he was then 
 on the point of perfecting, and which he would 
 gladly sell them as soon as he had completed it. 
 His friends declared that he was mad to refuse 
 such an offer; but he replied that nothing would 
 induce him to sell a process which he knew was 
 about to be rendered worthless by still greater 
 discoveries. 
 
 A few weeks later a terrible snow-storm passed 
 over the land, one of the worst that New Eng- 
 land had ever known, and in the midst of it 
 Goodyear made the appalling discovery that he 
 had not a particle of fuel or a mouthful of food 
 in the house. He was ill enough to be in bed 
 himself, and his purse was entirely empty. It 
 was a terrible position, made worse, too, by the 
 fact that his friends who had formerly aided him 
 had turned from him, vexed with his pertinacity, 
 and abandoned him to his fate. In his despair 
 he bethought him of a mere acquaintance named 
 Coleridge, who lived icveral miles from his cot- 
 tage, and who but a few days before had spoken to 
 him with more of kindness than he had received of 
 late. This gentleman, he thought, would aid him 
 in his distress, if he could but reach his house, but 
 in such a snow the journey seemed hopeless to a 
 man in his feeble health. Still the effort must be 
 made. Nerved by despair, he set out and pushed 
 his wav resolutely tlirough the heavy drifts. 
 
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 INVENTORS 
 
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 The way was long, and it seemed to him that 
 he would never accomplish it. Often he fell 
 prostrate on the snow, almost fainting with fa- 
 tigue and hunger, and again he would sit down 
 wearily in the road, feeling that he would gladly 
 die if his discovery were but completed. At 
 length, however, he reached the end of his jour- 
 ney, and fortunately found his acquaintance at 
 home. To this gentleman he told the story 
 of his discovery, his hopes, his struggles, and 
 his present sufferings, and implored him to help 
 him. Mr. Coleridge listened to him kindly, and 
 after expressing the warmest sympathy for him, 
 loaned him money enough to support his family 
 during the severe weather and to enable him to 
 continue his experiments. 
 
 Seeing no prospect of success in Massachu- 
 setts, he now resolved to make a desperate effort 
 to get to New York, feeling confident that the 
 specimens he could take with him would coi,- 
 vince someone of the superiority of his new 
 method. He was beginning to understand the 
 cause of his many failures, but he saw clearly 
 that his compound could not be worked with 
 certainty without expensive apparatus. It was 
 a very delicate operation, requiring exactness 
 and promptitude. The conditions upon which 
 success depended were many, and the failure of 
 one spoiled all. It cost him thousands of fail- 
 ures to learn that a little acid in his sulphur 
 caused the blistering; that his compound must 
 be heated ahiiost immediate!}^ after being mixed 
 or it would never vulcanize ; that a portion of 
 
 
GIIARLKS GOODYEAR 
 
 173 
 
 white lead in the compound greatly facilitated 
 the operation and improved the result ; and when 
 he had learned these facts, it still required costly 
 and laborious experiments to devise the best 
 methods of compounding his ingredients in the 
 best proportions, the best mode of heating, the 
 proper duration of the heating, and the various 
 useful effects that could be produced by varying 
 
 COUNCIL MEDAL, OF THE EXHIBITION. 
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 the proportions and the degree of heat. He 
 tells us that many times when, by exiiausting 
 every resource, he had prepared a cpiantity of 
 his compound for heating, it was spoiled because 
 he could not, with his iiiadcf;uatc appviratus, 
 apply the heat soon enough. 
 
 T(j New York, then, he ciirectcd his thoughts. 
 Merely to get there c «st him a severer and a 
 longer effort tlian men in general are capable of 
 uiakiuif. First he w;ilked t<> Boston, leii miles 
 
p^ 
 
 174 
 
 IN VE IV TORS 
 
 
 distant, where he hoped to borrow from an old 
 acquaintance $50, with which to provide for 
 his family and pay his fare to New York. He 
 not only failed in this, but he was arrested for 
 debt and thrown into prison. Even in prison, 
 while his old father was negotiating to procure 
 his release, he labored to interest men of capital 
 in his discovery, and made proposals for found- 
 ing a factory in Boston. Having obtained his 
 liberty, he went to a hotel and spent a week in 
 vain efforts to effect a small loan. Saturday 
 night came, and with it his hotel bill, which he 
 had no means of discharging. In an agony of 
 shame and anxiety, he went to a friend and en- 
 treated the sum of $5 to enable him to return 
 home. He was met with a point-blank refusal. 
 In the deepest dejection, he walked the streets 
 till late in the night, and strayed at length, 
 almost beside himself, to Cambridge, where he 
 ventured to call upon a friend and ask shelter 
 for the night He was hospitably entertained, 
 and the next morning walked wearily home, 
 penniless and despairing. At the door of his 
 house a member of his family met him with the 
 news that his youngest child, two years old, 
 whom he had left in perfect health, was dying. 
 In a few hours he had in his house a aead 
 child, but not the means of burying it, and five 
 living dependents without a morsel of food to 
 give them. A storekeeper near by had prom- 
 ised to supply the family, but, discouraged by 
 the unforeseen length of the father's absence, he 
 had that day refu^^d to trust them further. In 
 
CHARLES GOODYEAR 
 
 175 
 
 \^ 
 
 these terrible circumstances he applied to a 
 friend, upon whose generosity he knew he could 
 rely, one who never failed him. He received in 
 reply a letter of severe and cutting reproach, 
 enclosing $7, which his friend explained was 
 given only out of pity for his innocent and suf- 
 ering family. A stranger who chanced to be 
 present when this letter arrived sent them a bar- 
 rel of flour, a timely and blessed relief. The 
 next day the family followed on foot the remains 
 of the little child to the grave. 
 
 This was about the darkest hour of poor Good- 
 year's life, but it was before the dawn. He man- 
 aged to obtain $50, with which he went to 
 New York, and succeeded in interesting two 
 brothers, William and Emory Rider, in his dis- 
 coveries. They agreed to advance to him a 
 certain sum to complete his experiments. By 
 means of this aid he was enabled to keep his 
 family from want, and his experiments were pur- 
 sued with greater ease and certainty. His 
 brother-in-law, William De Forrest, a rich wool 
 manufacturer, also came to his aid, now that 
 success seemed in view. Nevertheless, the ex- 
 periments of that and the following year cost 
 nearly $50,000. Thanks to this timely aid, he 
 was able in 1844, ten years after beginning his 
 work, to produce perfect vulcanized india-rub- 
 ber with economy and certainty. To the end of 
 his life he was at work, however, endeavoring 
 to improve the material and apply it to new uses. 
 He took out more than sixty patents cover- 
 ing different processes of making rubber goods. 
 
 
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176 
 
 INVRNrORS 
 
 If Goodyear had been a man of business in- 
 stincts and habiis, the years following the comple- 
 tion of his g-reat W(jrk might have brought him 
 an immense fortune ; but everywhere he seems 
 to have been unfortunate in protecting his rights. 
 In France and Enghuul he lost his patent rights 
 by technical defects. In the latter country an- 
 other man, who had received a copy of the 
 
 GBANDE MEDAILLE D'H ONN EUIt. 
 
 EXrotlTION UNIVCRSCLLE 01 1859. 
 
 Oonnc p«ur la OcNuverte de la Vuldnni'Mllcn «( Ourusserneit du CaoulcKouc 
 fAC^lMILS GOLD. 
 
 American patent, actually applied and obtained 
 the English rights in his own name. Goodyear, 
 however, obtained the great council medal at 
 the London Exhibition of 185 1, a grand medal at 
 Paris, in 1855, and later the ribbon of the Legion 
 of Honor. In this country he was scarcely less 
 unfortunate. His patents were infringed right 
 and left, he was cheated by business associates 
 and plundered of the profits of his invention. 
 The United States Commissioner of Patents, in 
 1858, thus spoke (^f his losses: 
 
CHAULES GOODYEAR 
 
 177 
 
 ** No inventor, probably, has ever been so 
 harassed, so trampled upon, so plundered by 
 that sordid and licentious class of infringers 
 known in the parlance of the world as * pirates.' 
 The spoliation of their incessant guerilla war- 
 fare upon his defenceless rights has unquestion- 
 ably amounted to millions." 
 
 Goodyear died in New York in July, i860, 
 worn out with work and disappointment. Nei- 
 ther Europe nor America seemed disposed to 
 accord him any reward or credit for having 
 made one of the greatest discoveries of the time. 
 Notwithstanding his invention, which has made 
 millions for those engaged in working it, he died 
 insolvent, and left his family heavily in debt. A 
 few years after his death an effort was made to 
 procure from Congress an extension of his pat- 
 ent for the benefit of his family and creditors. 
 The opposition of the men who had grown rich 
 and powerful by successfully infringing his 
 rights prevented that august body from doing 
 justice in the matter and the effort came to 
 nothing. 
 
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 VII. 
 
 JOHN ERICSSON. 
 
 Captain John Ericsson, although not by 
 birth an American, rendered such signal services 
 to this country and lived here for so many years 
 that we may fairly consider him in the light of 
 an American inventor. The inventions to which 
 he devoted the best years of his life were made 
 in this country. He loved America, he died 
 here, and though his ashes have been sent back 
 to wSweden, the wo'-ld of Europe, in common 
 with ourselves, probably thinks of Ericsson as 
 an American. 
 
 By the roadside near a mountain hamlet of 
 Central Sweden stands a pyramid of iron cast 
 from ore dug from the adjacent mines and set 
 upon a base of granite quarried from the hills 
 which overlook the valley. This monument bears 
 the information that two brothers. Nils Erics- 
 son and John Ericsson, were born in a miner's 
 hut at that place, respectively, January 31, 1802, 
 and July 31, 1803. Nils Ericsson was a man of 
 unusual distinction, who held high position in 
 Sweden as engineer of the canals and railroads 
 of the kingdom. The name of his brother is 
 known the world over. These two notable 
 Swedes were sons of Olof Ericsson, a Swedish 
 
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 23 WEST MAIN STREET 
 
 WEBSTER, N.Y. 14580 
 
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JOHN ERICSSON 
 
 179 
 
 miner. Poverty was one of the bits of good 
 fortune that fell to the lot of the two boys, and 
 ai. ong John's earliest recollections is that of the 
 seizure of their household effects by the sheriff. 
 The mother was a woman of intelligence and 
 somewhat acquainted with the literature of her 
 time. In boyhood John Ericsson worked in the 
 iron mines of Central Sweden. Machinery was 
 his first love and his last. Before he was eleven 
 years old, during the winter of 1813, he had pro- 
 duced a miniature saw-mill of ingenious con- 
 struction, and had planned a pumping-engine 
 designed to keep the mines free from water. 
 The frame of the saw -mill was of wood; the 
 saw-blade was made from a watch-spring and 
 was moved by a crank made from a broken tin 
 spoon. A file, borrowed from a neighboring 
 blacksmith, a gimlet, and a jack-knife were the 
 only tools used in this work. His pumping-en- 
 gine was a more ambitious affair, to be operated 
 by a wind-mill. • 
 
 The family then lived in the wilderness, sur- 
 rounded by a pine forest, where Ericsson's father 
 was engaged in selecting timber for the lock- 
 gates of a canal. A quill and a pencil were the 
 boy's tools in the way of drawing materials. He 
 made compasses of birch wood. A pair of steel 
 tweezers were converted into a drawing-pen. 
 Ericsson had never seen a wind-mill, but foUow- 
 mg as well as he could the description of those 
 who had, he succeeded in constructing on paper 
 the mechanism connecting the crank of a wind- 
 mill with the pump-lever. The plan, conceived 
 
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JOHN ERICSSON 
 
 181 
 
 and executed under such circumstances by a 
 mere boy, attracted the attention of Count 
 Platen, president of the Gotha Ship Canal, on 
 which Ericsson's father was employed, and when 
 Ericsson was twelve years old he was made 
 a member of the surveying party carrying out 
 the canal work and put in charge of a section. 
 Six hundred of the royal troops looked for direc- 
 tions in their daily work to this boy, one of his 
 attendants being a man who followed him with 
 a stool, upon which he stood to use the survey- 
 ing instruments. The amusements of this boy 
 engineer, even at the age of fifteen, are indicated 
 by a portfolio of drawings made in his leisure 
 moments, giving maps of the most important 
 parts of the canal, three hundred miles in length, 
 and showing all the machinery used in its con- 
 struction. His precocity was, however, the nor- 
 mal and healthy development of a mind as fond 
 of mechanical principles as Raphael was of color. 
 It was in 1811 that Ericsson made his first 
 scale drawing of the famous Sunderland Iron 
 Bridge, and from that time on his career in 
 Sweden was a brilliant one. After serving as an 
 engineer upon the Gotha Canal he became an 
 officer in the Swedish army, from which circum- 
 stance he got his title of captain. Most govern- 
 ment work was then done by army officers, espe- 
 cially in field surveying. The appointments of 
 government surveyors being offered soon after- 
 ward to competitive examination among the ofii- 
 cers of the army, Ericsson went to Stockholm 
 and entered the lists. Detailed maps of fifty 
 
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 INVENTORS 
 
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 square miles of Swedish territory, still upon file at 
 Stockholm, show his skill. Though his work as 
 a surveyor exceeded that of any of his compan- 
 ions, he was not satisfied. He sought an outlet 
 for his superfluous activity in preparing the draw- 
 ings and engraving sixty-four large plates for a 
 work illustrating the Gotha Canal His faculty 
 for invention was shown here by the construc- 
 tion of a machine-engraver, with which eighteen 
 copper-plates were completed by his own hand 
 within a year. 
 
 From engraving young Ericsson turned his 
 attention to experiments with flame as a means 
 of producing mechanical power, and it is inter- 
 esting to note that forty years afterward a large 
 part of his income in this country was derived 
 from his gas- or flame-engine, thousands of which 
 are now in use in New York City alone for 
 pumping water up to the tops of the houses. 
 His early flame-engine, as it was called, turned 
 out so well that after building one of ten horse- 
 power, he obtained leave of absence to go to 
 England to introduce the invention. He never 
 returned to Sweden for any length of time, 
 although he remained a Swede at heart, and 
 many Swedish orders and decorations have been 
 conferred upon him. In addition to the monu- 
 ment near Ericsson's birthplace, already men- 
 tioned, the government has erected a granite 
 shaft, eighteen feet high, in front of the cot- 
 tage in which he was born. This shaft, bearing 
 the inscription, " John Ericsson was born here 
 in 1803," was dedicated on September 3, 1867, 
 
JOHN ERICSSON 
 
 183 
 
 when work was suspended in the neighboring 
 mines and iron furnaces, and a holiday was held 
 in honor of Sweden's famous son. Poems were 
 read, the chief engineer of the mining district 
 delivered an oration, and Dr. Pallin, a savant 
 from Philipstad, reminded his hearers that seven 
 cities in Greece contended for the honor of be- 
 ing Homer's birthplace. " Certificates of bap- 
 tism did not then exist," said Dr. Pallin, "and 
 there is no doubt with us as to Ericsson's birth- 
 place ; yet to guard against all accidents we 
 have here placed a record of baptism weigh- 
 ing eighty thousand pounds." The monument 
 stands on an isthmus between two lakes sur- 
 rounded by green hills. 
 
 Ericsson's life in England began in 1826. For- 
 tune did not smile upon his efforts to introduce 
 his flame - engine, for the coal fire which had 
 to be used in England was too severe for the 
 workirg parts of the apparatus. But Ericsson 
 possessed a capacity for hard work that recog- 
 nized no obstacles. He undertook a new series 
 of experiments which resulted finally in the com- 
 pletion of an engine which was patented and 
 sold to John Braithwaite. Young Ericsson's ca- 
 pacity for work and for keeping half a dozen ex- 
 periments in view at the same time seems to have 
 been as remarkable in those early days as when 
 he became famous. Records of the London 
 Patent Office credit him with invention after 
 invention. Among these were a pumping-engine 
 on a new principle ; engines with surface con- 
 densers and no smoke-stack, as applied to the 
 
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 steamship Victory in 1828; an apparatus for 
 making salt from brine ; for propelling boats 
 on canals; a hydrostatic weighing machine, to 
 which the Society of Arts awarded a prize ; an 
 instrument to be used in taking deei»-sea sound- 
 ings; a file-cutting machine. The list covers 
 some fourteen patented inventions and forty ma- 
 chines. 
 
 Perhaps his most important work at this pe- 
 riod was a device for creating artificial draught 
 in locomotives, to which aid the development of 
 our railroad owes much. In 1829 the Liverpool 
 & Manchester Railroad offered a prize of $2,500 
 for the best locomotive capable of doing cer- 
 tain work. The prize was taken by Stephenson 
 with his famous Rocket ; but his sharpest com- 
 petitor in this contest was John Ericsson. Four 
 locomotives entered the contest. The London 
 Timi-s of October 8, 1829, speaks highly of the 
 Novelty, the locomotive entered by Messrs. 
 Braithwaite & Ericsson, saying : " It was the 
 lightest and most elegant carriage on the road 
 yesterday, and the velocity with which it moved 
 surprised and amazed every beholder. It shot 
 along the line at the amazing rate of thirty miles 
 an hour. It seemed indeed to fly, presenting 
 one of the most sublime spectacles of human 
 ingenuity and human daring the world ever 
 beheld." 
 
 The railroad directors, at whose invitation this 
 test was made, had asked for ten miles an hour; 
 Ericsson gave them thirty. The excitement of 
 the witnesses found vent in loud cheers. Within 
 
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 an hour the shares of the railroad company rose 
 ten per cent., and the young engineer might well 
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 Ericsson on his Arrival in England, aged tw«nty-three. 
 
 he had beaten his rival ten miles an hour, the 
 judges determined to make traction power, 
 rather than speed, the critical test, and the prize 
 was awarded to Stephenson's Rocket, which 
 
JOHN KlilCSSON 
 
 187 
 
 drew seventeen tons for seventy miles at the rate 
 of thirteen miles an hour. Stephenson's enj^inc 
 weighed twice as much as Ericsson's. Ncvcrthe- 
 
 Mrs. John Ericsson, n4e Amelia Byam, 
 (From an early claguerreotyj)* ) 
 
 less Ericsson's success with the Novelty was 
 such as to keep him busy in this particular field. 
 He followed it up with a steam fire-engine that 
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 Rooms, in 1829, when for the first time, as one 
 of the local papers remarked, " fire was ex- 
 tinguished by tlie mechanical power of fire." 
 Another engine, of larger power, built for the 
 King of Prussia, soon after rendered excellent 
 service in Berlin, and a third was built for Liv- 
 erpool in 1830. Ten years afterward the Me- 
 chanics' Institute of New York awarded a gold 
 medal to Ericsson as a prize for the best plan of 
 a steam-engine. 
 
 Disappointed in his ill success with inven- 
 tions pertaining to locomotives, Ericsson now 
 turned his attention to his early flame-engine, 
 and the working model of a caloric '^ligine of 
 five-horse power soon attracted the attention of 
 London. At first there seemed to be a great 
 future for engines upon this principle, but after 
 many years of experiments, at great expense, 
 Ericsson found that the principle was useful only 
 for purposes requiring small power. In 185 1 he 
 built a heat-engine for the ship Ericsson, a vessel 
 two hundred and sixty feet in length, and tells 
 the result as follows : " The ship after comple- 
 tion made a successful trip from New York to 
 Washington and back during the winter season ; 
 but the average speed at sea proving insufficient 
 for commercial purposes, the owners, with re- 
 gret, acceded to my proposition to remove the 
 costly machinery, although it had proved perfect 
 as a mechanical combination. The resources of 
 modern engineering having been exhausted in 
 producing the motors of the caloric ship, the im- 
 portant question. Can heated air, as a mechan- 
 
 
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 ical motor, compete on a large scale with steam ? 
 has forever been set at rest. The commercial 
 world is indebted to American enterprise for 
 having settled a question of such vital impor- 
 tance^ The marine engineer has thus been en- 
 couraged to renew his efforts to perfect the 
 steam-engine without fear of rivalry from a mo- 
 tor depending on the dilation of atmospheric air 
 by heat." 
 
 Before leaving this question of heat-engines 
 and passing to the more important inventions by 
 which Ericsson will be remembered, it may be 
 as well to say a few words concerning the solar- 
 eneines to which he devoted many years' time, 
 and one of which I saw in operation in the back 
 yard of the pleasant old house in Beach Street, 
 opposite the freight depot of the Hudson River 
 Railroad. This house, by the way, which Erics- 
 son occupied for nearly forty years, faced on St. 
 John's Park, the pleasant square which was after- 
 ward filled up by the railroad company. Tow- 
 ard the last years of Ericsson's life the neigh- 
 borhood became anything but a pleasant one to 
 live in ; it was dirty and noisy. Nevertheless 
 Ericsson refused to move. Perhaps the unpleas- 
 antness of the surroundings made him the recluse 
 he was. It is not surprising that he should have 
 been attracted by the possibility of obtaining 
 power from the heat of the sun. In an early 
 pamphlet on the subject he says : " There is a 
 rainless region extending from the northwestern 
 coast of Africa to Mongolia, nine thousand miles 
 in length and nearly one thousand miles wide. 
 
JOHN ElilVSSON 
 
 191 
 
 In the Western Hemisphere, Lower California, 
 the table-lands of Guatemala, and the west coast 
 of South America, for a distance of more than two 
 thousand miles, suffer from a continuous radiant 
 
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 Solar-engine Adapted to the Use of Hot Air. 
 (Patented as a pumping-enginc, 1880.) 
 
 heat." Ericsson estimated that the mechanical 
 power that would result from utilizinjr the solar 
 heat on a strip of land a single mile wide and 
 eight thousand miles long would suffice to keep 
 twenty-two million solar-engines, of one hundred 
 
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 horse-power each, going nine hours a day. He 
 believed that with the exhaustion of European 
 coal-fields the day for the solar-engine would 
 come, and that those countries which possessed 
 unfailing sunshine, such as Egypt, would displace 
 England, France, and Germany as the manufact- 
 uring powers of the world, for the European 
 would have to move his machinery to the bor- 
 ders of the Nile. By concentrating the rays of 
 the sun upon a small copper boiler filled with 
 air Ericsson was enabled to work a little motor, 
 and for some years he also attempted to produce 
 steam by means of heat from the sun. He was 
 not successful, however, in making anything of 
 commercial value in this direction, and so far as 
 I have been able to learn none of the tropical 
 countries invited by him to take up the problem 
 for its own benefit responded to the invitation. 
 
 Ericsson's studies and improvements of the 
 screw as a means of propelling boats began in 
 England. A model boat, two feet long, fitted 
 up with two screws, was launched in a London 
 bath-house, and, supplied by steam from a boiler 
 placed at the side of the tank, was sent around 
 at a speed estimated at six miles an hour. Erics- 
 son was so delighted with it that he built a boat 
 eight feet by forty, armed with two propellers, 
 in the hope that the British Admiralty might 
 adopt the invention. This boat went through 
 the water at the rate of ten miles an hour, or 
 seven miles an hour towing a schooner of one 
 hundred and forty tons burden. He invited the 
 Admiralty to see the work of his screw. Steam- 
 
JOHN ERICSSON 
 
 193 
 
 ing up to Somerset House with his little ves- 
 sel, Ericsson took the Admiralty barge in tow, to 
 the wonder of the watermen, who could make 
 nothing of the novel craft with no apparent 
 means of propulsion. The British Admiralty, 
 however, was uot easily convinced. These wise- 
 acres said nothing, but Ericsson professed to 
 have heard that their verdict was against him 
 because one of the authorities of the board de- 
 cided that " even if the propeller had the power 
 of propelling a vessel it would be found alto- 
 gether useless in practice, because the power, 
 being applied to the stern, it would be abso- 
 lutely impossible to make the vessel steer." 
 
 This official blindness cost England the ser- 
 vices of the inventor. The United States hap- 
 pened to have as consul in Liverpool at that day 
 (1837) Mr. Francis B. Ogden, a pioneer in steam 
 navigation on the Ohio River. Ogden saw 
 Ericsson's invention and introduced him to Cap- 
 tain Robert F. Stockton, of the United States 
 Navy. With Stockton, seeing was believing, and 
 when he returned from a trip on Ericsson's boat, 
 he exclaimed : " I do not want the opinion of 
 your scientific men. What I have seen to-day 
 satisfies me." Before the vessel had completed 
 her trip, Ericsson received from Stockton an 
 order for two boats. Upon Stockton's assur- 
 ance that the United States would try his pro- 
 peller upon a large scale, Ericsson closed up his 
 affairs in England and embarked for the United 
 States. Through the good offices of Stockton, 
 but after considerable delay, a vessel called the 
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 INVENTORS 
 
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 Princeton was ordered and completed. She 
 carried a number of radical improvements des- 
 tined to make a revolution in naval warfare. 
 The boilers and engines were below the water- 
 line, out of the way of shot and shell. The 
 smoke-stack was a telescopic affair, replacing 
 the tall pipe that formed so conspicuous a target 
 upon the old boats. Centrifugal blowers in the 
 hold, worked by separate engines, secured in- 
 creased draught for the furnaces. The Prince- 
 ton was a wonder, and everyone was ready to 
 praise the inventive genius of Ericsson and the 
 daring of Captain Stockton in adopting so many 
 radical novelties. An entry in the diary of John 
 Quincy Adams, dated February 28, 1844, tells 
 the sad story of the public exhibition of the 
 Princeton at Washington : 
 
 *' I went into the chamber of the Committee of 
 Manufactures and wrote there till six. Dined 
 with Mr. Grinnell and Mr. Winthrop. While 
 we were at dinner John Barney burst into the 
 chamber, rushed up to General Scott and told 
 him, with groans, that the President wished to 
 see him ; that the great gun on board the Prince- 
 ton had burst and killed the Secretary of State, 
 Upshur; the Secretary of the Navy, T. W.Gil- 
 mer ; Captain Beverly Kennon, Virgil Maxey, a 
 Colonel Gardiner, of New York, a colored ser- 
 vant of the President, and desperately wounded 
 several of the crew." 
 
 So tragic an introduction was not needed to 
 direct public attention to the Princeton. Erics- 
 son had placed th'j United States at the head of 
 
 
JOHN ERICSSON 
 
 105 
 
 naval powers in the application of steam-power 
 to warfare. He had made the experiment of the 
 Princeton at a great cost to himself, and two 
 years of concentrated effort had been devoted 
 to the service of the Government. For his 
 time, labor, and necessary expenditures he ren- 
 dered a bill of $15,000, leaving the question of 
 what, if anything, should be charged for his 
 patent rights entirely to the discretion and gen- 
 erosity of the Government. The bill was refused 
 payment by the Navy Department because of 
 its limited discretion. Ericsson went to Con- 
 gress with it, but a dozen years passed without 
 the slightest progress toward a settlement. A 
 court of claims rendered a unanimous decree in 
 his favor, but Congress, to which the bill was 
 again sent, failed to make an appropriation, and 
 there the matter has remained, notwithstanding 
 the brilliant services since rendered to this coun- 
 try by the inventor. 
 
 Various nations claim the invention of the 
 screw as applied to boats. At Tricst and at 
 Vienna stand statues erected to Joseph Ressel, 
 for whom the Austrians lay claim. Commodore 
 Stevens, of New Jersey, is also said by Professor 
 Thurston to have built and worked a screw-pro- 
 peller on the Hudson in 18 12. Whatever may 
 be the final decision as to Ericsson's claim in 
 this matter, there can be no doubt as to the 
 value of the services he rendered in building the 
 Monitor. The suggestion of the Monitor was 
 first made in a communication from Ericsson to 
 Napoleon III., dated New York, September* 
 
 
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 1854. This paper contained a description of an 
 iron-clad vessel surmounted by a cupola substan- 
 tially as in the Monitor as finally built. The 
 emperor, through General Favre, acknowledged 
 the communication. Favre wrote: "The em- 
 peror has himself examined with the greatest 
 care the new system of naval attack which you 
 have communicated to him. His Majesty charges 
 me with the honor of informing you that he has 
 found your ideas very ingenious and worthy of 
 the celebrated name of their author." For eight 
 years Ericsson continued working upon his idea 
 of a revolving cupola or turret upon an iron-clad 
 raft, but found no opportunity to test the practi- 
 cal value of the device. His time finally came 
 when, in 1861, the Navy Department appointed 
 a board to examine plans for iron-clads. The 
 board consisted of Commodores Joseph Smith, 
 Hiram Paulding, and Charles H. Davis. Erics- 
 son, having learned to distrust his own powers 
 as a business agent, engaged the assistance of C. 
 S. Bushnell, a Connecticut man of some wealth, 
 who went to Washington and presented the de- 
 signs of the Monitor to the board. 
 
 Colonel W. C. Church, Ericsson's biographer, 
 who has just been honored by Sweden for his 
 publications upon the life of the inventor, tells 
 an interesting story of the negotiations concern- 
 ing the vessel which was to render such signal 
 services to the country. Bushnell could make 
 no headway with the board and decided that 
 Ericsson's presence in Washington was necessary. 
 But the inventor was then, as during his whole 
 
1 
 
 JOHN KlilCSSON 
 
 197 
 
 life, averse to any sclf-advcrtiscmcnt, and pre- 
 ferred his workshop to any place on earth. But 
 as he possessed a sort of rude eloquence due to 
 enthusiasm, Bushnell got him to Washington by 
 subterfuge. He was told that the board ap- 
 proved his plans for an iron-clad and that it 
 would be necessary for him to go to the capital 
 and complete the contract. Presenting himself 
 before the board, what was his astonishment to 
 find that he was not only an unexpected but ap- 
 parently an unwelcome visitor. He was not 
 long in doubt as to the meaning of this recep- 
 tion. To his indignation and astonishment he 
 was informed that the plan of a vessel submitted 
 by him had already been rejected. His first im- 
 pulse was to withdraw at once. Mastering his 
 anger, however, he inquired the reason for this 
 decision. Commodore Smith explained that the 
 vessel had not sufficient stability ; in other words, 
 it would be liable to upset. Captain Ericsson 
 was too experienced a naval designer to have 
 overlooked this point, and in a lucid explanation 
 put his views before the board, winding up with 
 the declaration : " Gentlemen, after what I have 
 said, I consider it to be your duty to the country 
 to give me an order to build the vessel before I 
 leave this room." 
 
 Withdrawing to a corner the board held a con- 
 sultation and invited the inventor to call again 
 at one o'clock. When Ericsson returned he 
 brought with him a diagram illustrating more 
 fully his reasons for considering his proposed 
 vessel to be perfectly stable. Commodore, after- 
 
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 INVENTORS 
 
 ward Admiral, Paulding was convinced, and ad- 
 mitted that Ericsson had taught him much about 
 the stability of vessels. Secretary Welles was 
 informed that the board reported favorably upon 
 Ericsson's plan, and told the inventor that he 
 might return to New York and begin work, as 
 the contract would follow him. When the con- 
 
 Sectional View of Monitor through Turret and Pilot-house. 
 
 tract came it was found to be a singularly one- 
 sided affair. If the Monitor proved vulnerable 
 — in other words, if it was not a success — the 
 money paid for it by the Navy Department was 
 to be refunded. 
 
 It took one hundred days to build the Monitor. 
 During those three months Ericsson scarcely 
 slept, and even in his dreams he went over the 
 details of the new-fangled war-engine he was 
 
( 11 
 
 JOHN ERICSSON 
 
 IJM) 
 
 building. lie named her Monitor because, he 
 said, she would warn the 
 nations of the world that 
 a new era in naval warfare 
 had begun. The story of 
 his untiring activity has 
 been told almost as often 
 as that of the battle be- 
 tween the Monitor and 
 the Merrimac. He was at 
 the ship-yard before any 
 of the workmen, and was 
 the last to leave. In the 
 construction of so novel a 
 craft difficulties of a puz- 
 zling nature came up every 
 day. If Ericsson could not 
 solve them on the spot, he 
 studied the matter in the 
 quiet of the night, and was 
 ready with his drawings 
 in the morning. The re- 
 sult of the naval battle in 
 Hampton Roads, on the 
 9th of March, 1862, be- 
 tween the little Monitor 
 and the big Merrimac 
 made Ericsson the hero of 
 the hour. Had no David 
 appeared to stop the rav- 
 ages of the Confederate 
 Goliath, it is hard to say 
 
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 Union by the terrible Merrimac. The United 
 States Navy was virtually panic-stricken when 
 the Monitor, this "Yankee cheese -box on a 
 plank," as the Southerners called her, came to 
 the rescue. 
 
 Notwithstanding the tremendous service ren- 
 dered the country, Ericsson declined to receive 
 more compensation for the Monitor than his con- 
 tract called for. In reply to a resolution of the 
 New York Chamber of Commerce calling for 
 " a suitable return for his services as will evince 
 the gratitude of the nation," Ericsson said : " All 
 the remuneration I desire for the Monitor I 
 get out of the construction of it. It is all-suf- 
 ficient." Our grateful nation took him at his 
 word. But honors of another and less costly 
 kind were showered upon him. Chief Engineer 
 Stimers, who was on the Monitor during her 
 battle with the Merrimac, wrote to Ericsson: 
 " I congratulate you on your great success. 
 Thousands have this day blessed you. I have 
 heard whole crews cheer you. Every man feels 
 that you have saved this place to the nation by 
 furnishing us with the means to whip an iron- 
 clad frigate that was, until our arrival, having 
 it all her own way with our most powerful 
 vessels." 
 
 War vessels upon the plan of the Monitor 
 speedily appeared among the navies of several 
 nations. England refused at first to admit the 
 value of the invention and was not converted un- 
 til the double-turreted Miantonomoh visited her 
 waters in i866, when one of the London papers 
 
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 described her appearance amoiifj the Britisli fleet 
 as that uf a wolf amon^ a Hock of sheep. The 
 day of the bi^ wooden war- vessels was over. It 
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 ficer, Captain Cowper Coles, who sought to de- 
 prive Ericsson of t^^e honor of his invention. 
 Coles declared that he had devised a ship during 
 the Crimean war, in which a turret or cupola 
 was to protect the guns. Ericsson's letter to 
 
JOHN KliiaSSON 
 
 2(»3 
 
 Napoleon 111., written in 1S54, is sufficient answer 
 to this, besides which Hricsson's scheme includes 
 more than a stationary shield for tiie guns, which 
 is all that Coles claimed. Coles succeeded, how- 
 ever, in inducing the British Admiralty to build 
 a vessel according to his plans. This ill-fated 
 craft upset off Cape Finisterre on the night of 
 September 6, 1870, and went to the bottom with 
 Coles and a crew of nearly five hundred men. 
 
 Having devised an apparatus that made 
 wooden war-vessels useless, Ericsson turned his 
 attention to the destruction of iron-clads, and de- 
 voted ten years of his life to the construction of 
 his famous torpedo-boat, the Destroyer, uj)on 
 which he spent about all the money he amassed 
 by other work. According to his belief, no ves- 
 sel afloat could escape annihilation in a battle 
 with his Destroyer. This vessel is designed to 
 run at suflficicnt speed to overtake any of the 
 inm-clads. It offers small surface to the shot of 
 an enemy, and besides being heavily armored, it 
 can be partly submerged beneath the waves. 
 When within fighting distance it fires under 
 water, by compressed air, a projectile containing 
 dynamite sufficient to raise a big war-ship out of 
 the water. The explosion takes place when the 
 projectile meets w^ith resistance, such as the sides 
 of a ship. To Ericsson's great disappointment, 
 the United States Government persistently re- 
 fused to purchase the Destroyer or to commis- 
 sion Ericsson to build more vessels of her type. 
 
 Of Ericsson's home life there is not much to 
 be told. He was utterly wrapped up in his work. 
 
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 With his devoted secretary, Mr. Arthur Taylor, 
 his days knew scarcely any variation. Of social 
 recreation he had none. In conversation he was 
 
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 Development of the Monitor Idea. 
 
 abrupt and somewhat peculiar, apparently re- 
 garding all other talk than that relating to me- 
 chanics and germane subjects as a waste of 
 words. His shrewd face, with its blue eyes and 
 
JOHN ERICSSON 
 
 205 
 
 fringe of white hair, was not an unkindly one, 
 however, and the few workmen he employed in 
 the Beach Street house were devoted to him. 
 No great man was ever more intensely averse to 
 personal notoriety. Although often advised to 
 make his Destroyer better known by means of 
 newspaper articles, he persistently refused to see 
 newspaper men ; and the professional interviewer 
 and lion-hunter were his pet aversions. It was 
 perhaps to avoid them that he left his house only 
 after nightfall, and then but for a walk in the 
 neighborhood. 
 
 His time was divided according to rule. For 
 thirty years he was called by his servant at seven 
 o'clock in the morning, and took a bath of very 
 cold water, ice being added to it in summer. 
 After some gymnastic exercises came breakfast 
 at nine o'clock, always of eggs, tea, and brown 
 bread. His second and last meal of the day, 
 dinner, never varied from chops or steak, some 
 vegetables, and tea and brown bread again. Ice- 
 water was the only luxury that he indulged in. 
 He used tobacco in no form. During the day- 
 time he was accustomed to work at his desk or 
 drawing-table for about ten hours. After dinner 
 he resumed work until ten, when he started out 
 for the stroll of an hour or more, which always 
 ended his day. The last desk work accomplished 
 every day was to make a record in his diary, al- 
 ways exactly one page long. This diary is in 
 Swedish and comprises more than fourteen thou- 
 sand pages, thus covering a period of forty years, 
 during which he omitted but twenty days, in 1856, 
 
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 when he had a finger crushed by machinery. He 
 scarcely knew what sickness was, and just be- 
 fore his death said that he had not missed a meal 
 for fifteen years. He was a widower and left no 
 children. He died in the Beach Street house, 
 after a short illness, on March 8, 1889, and his 
 remains were transferred to Sweden with naval 
 honors. 
 
 The Room in which Ericsson Worked for More than Twenty Years. 
 
 
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 Cyrus Hall McCormicU. 
 
 
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 VIII. 
 
 • CYRUS HALL McCORxVIICK. 
 
 In the course of an argument before the Com- 
 missioner of Patents, in 1859, the hite Reverdy 
 Johnson declared that the McCormick reaper 
 was worth $55,000,000 a year to this country, 
 an estimate that was not disputed. At about 
 the same time the late William H. Seward 
 said that " owing to Mr. McCormick's invention 
 the line of civilization moves westward thirty 
 miles each year." Already the London Times, 
 after ridiculing the McCormick reaper exhibited 
 at the London World's Fair of 1851, as *' a cross 
 between an Astley (circus) chariot, a wheel- 
 barrow, and a flying-machine," confessed, when 
 the reaper had been tested in the fields, that it 
 was " worth to the farmers of England the whole 
 cost of this exhibition." Writing of this irl<>i"ious 
 success, Mr. Seward said : " So the reaper of 
 1831, as improved in 1845, iichieved for its in- 
 ventor a triumph which all then felt and ac- 
 knowledged was not more a personal one than 
 it was a national one. It was justly so regarded. 
 No general or consul, drawn in a chariot through 
 the streets of Rome by order of the Senate, ever 
 conferred upon mankind benefits so great as he 
 who thus vindicated the genius (A (juf country 
 
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 208 
 
 INVENTORS 
 
 at the World's Exhibition of Art in the metrop- 
 olis of the British empire in 185 1." In 1861, 
 though declining to extend the patent for the 
 reaper, the Commissioner of Patents, D. P. Hol- 
 loway, paid the inventor this remarkable tribute : 
 " Cyrus H. McCormick is an inventor whose 
 fame, while he is yet living, has spread through 
 the world. His genius has done honor to his 
 own country, and has been the admiration of 
 foreign nations, and he will live in the grateful 
 recollection of mankind as long as the reaping- 
 machine is employed in gathering the harvest." 
 Nevertheless the extension of the patent of 1834, 
 which act of justice would have given the invent- 
 or an opportunity to obtain an adequate reward 
 for his work, was refused upon the extraordinary 
 ground that " the reaper was of too great value 
 to the public to be controlled by any individual." 
 In other words, the benefit conferred by McCor- 
 mick upon the country was too great to be paid 
 for ; therefore no effort should be made to pay 
 for it. Finally, the French Academy of Sciences, 
 when McCormick was elected to the Institute 
 of France — an honor paid but to few Americans 
 — mentioned the election as due to " his having 
 done more for the cause of agriculture than any 
 other living man." 
 
 It is thus evident that the tremendous service 
 done to the civilized world by the invention of the 
 McCormick reaper was appreciated years ago. 
 Yet it is improbable that the whole value of the 
 invention was fully realized. To-day the Mc- 
 Cormick works at Chicago turn out yearly, and 
 
CYRUS HALL McCORMICK 
 
 200 
 
 ny 
 
 have turned out for several years, more than one 
 hundred thousand reapers and mowers. At a 
 moderate estimate every McCormick reaper, and 
 every reaper founded upon it and containini^ 
 its essential features, saves the labor of six men 
 during the ten harvest days of the year. The 
 
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 Farm where Cyrus H. McCormick w«s Born and Raised. 
 
 present number of reapers in operation to-day, 
 all of them based upon the McCormick pat- 
 ents, is estimated at about two million, so that, 
 counting a man's labor at $i a day, here is a 
 yearly saving of more than $100,000,000. The 
 reaper thus stands beside the steam-engine and 
 the sewing-machine as one of the most impor- 
 tant labor-saving inventions of our time, relieving 
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 INVENTORS 
 
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 millions of men from the most arduous drudg- 
 ery and increasing the world's wealth by hun- 
 dreds of millions of dollars every year. It is 
 some satisfaction to know that the inventor of 
 the reaper lived to enjoy the fruits of his work. 
 A remarkable man in every respect, his in- 
 genuity, perseverance, courage under injustice, 
 and generosity finally won him not only the 
 material rewards that were his by right, but the 
 esteem and honor of the civilized world. 
 
 Like Fulton and Morse, Cyrus Hall McCor- 
 mick came of Scotch-Irish blood, a race marked 
 by fixed purpose, untiring industry in carrying 
 out that purpose, a strong sense of moral obliga- 
 tion, and an unswerving determination to do 
 right by the light of conscience though the heav- 
 ens fall. He was born on the 15th of February, 
 1809, at Walnut Grove, in Rockbridge County, 
 Va., and was the eldest of eight children, six of 
 whom lived to grow up. His father, Robert 
 McCormick, in addition to farming, had work- 
 shops of considerable importance on his farm, 
 as well as a saw-mill and grist-mill and smelting 
 furnaces. In these workshops young Cyrus 
 McCormick probably got his first love for me- 
 chanical devices. Robert McCormick was an 
 inventor of no mean attainment. He devised 
 and built a thresher, a hemp-breaker, some mill 
 improvements, and in 1816 he made and tried 
 a mechanical reaper. In those days so much of 
 the farmer's hard labor was expended in swing- 
 ing the scythe that it seems strange we have 
 no record of more attempts to make a machine 
 
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 CYRUS HALL McCORMICK 
 
 211 
 
 re 
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 do the work. A schoolmaster named Ogle is 
 said to have built a reaper in 1822, but, accord- 
 ing to his own admission, it would not work. 
 Bell, a Scotch minister, also contrived a reaping- 
 machine that was tried in 1828. In the course 
 of the subsequent patent litigation over the 
 reaper the claims of these early inventors were 
 made the most of by McCormick's opponents, 
 but the courts of last resort invariably settled 
 the question in McCormick's favor. 
 
 As a farmer boy, young Cyrus McCormick 
 began his day's work in the fields at five o'clock. 
 In winter he went to the Old Field School. 
 During his boyhood he would watch his fa- 
 ther's experiments and disappointments. His 
 first attempt in the same direction was the con- 
 struction, at the age of fifteen, of a harvesting- 
 cradle by which he was enabled to keep up with 
 an able-bodied workman. His first patented in- 
 vention (183 1) was a plough which threw alternate 
 furrows on either side, being thus either a right- 
 hand or left-hand plough. This was superseded 
 in 1833 by an improved plough, also by McCor- 
 mick, called the self-sharpening plough, which 
 did excellent work. His father having worked 
 long and unsuccessfully at a mechanical reaper, 
 it was natural that young McCormick's mind 
 should turn over the same problem from time to 
 time, and his father's failures did not deter him, 
 although Robert McCormick had suffered so 
 much in mind and pocket through the impractica- 
 bility of his reaper that he warned his son against 
 wasting more time and money upon the dream. 
 
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 212 
 
 INVENTORS 
 
 111 
 
 One martyr to mechanical progress was enough 
 for the McCormick family. But the possibility 
 of making a machine do the hard, hot work of 
 the harvest-field had a fascination for the young 
 man, and the more he studied the discarded 
 reaping-machine made by his father in 1816, the 
 more firmly he became convinced that while the 
 
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 Exterior of the Blacksmith Shop where the First Reaper was Built. 
 
 principle of that device was wrong, the work 
 could be done. In those days the development 
 of the country really depended upon some bet- 
 ter, cheaper way of harvesting. The land was 
 fertile, and there was practically no end of it. 
 But labor was scarce. 
 
 Cyrus McCormick's plough was a success that 
 encouraged him to take hold of the more diffi- 
 cult problem of the reaper. He found that some 
 
CYIU'S JfALL AfcCOIiAflCK 
 
 213 
 
 device, such as his father's, wouhl cut ^rain after 
 a fashion, provided it was in perfect condition 
 and stood up straight ; the moment it became 
 matted and tangled and beaten down by wind 
 and rain the machine was useless. Other de- 
 vices had been arranged whereby a fly-wheel 
 armed with sickles slashed off the heads of the 
 wheat, leaving the stalks ; but here again such a 
 machine would work only when the field was in 
 prime condition. He determined that no device 
 was of any value which would not cut grain as 
 it might happen to stand, stalk and all. After 
 months of labor in his father's shop, making 
 every part of the machine himself, in both wood 
 and iron, as he said, he turned out, in 1831, the 
 first reaper that really cut an average field of 
 wheat satisfactorily. Its three great essential 
 features were those of the reaper of to-day — a 
 vibrating cutting-blade, a reel to bring the grain 
 within reach of the blade, a platform to receive 
 the falling grain, and a divider to separate the 
 grain to be cut from that to be left standing. 
 This machine, drawn by horses, was tested in a 
 field of six acres of oats, belonging to John Steele, 
 within a mile of Walnut Grove. Its work aston- 
 ished the neighboring farmers who gathered to 
 witness the test. The problem of cutting stand- 
 ing grain by machinery had been solved. 
 
 There were, however, certain defects in the 
 reaper which caused Cyrus McCormick not to 
 put the machine on the market. All the cog- 
 wheels were of wood. There was no place upon 
 it for either the driver or the raker. The for- 
 
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 mcr rode on the near horse and the latter fol- 
 lowed on foot, rakinf^ the j^rain from it gis best 
 he could. But it cut j^rain fast, and both father 
 and son were so impressed by its possibilities as 
 foreshadowed in even this crude affair, that for 
 the next few years they devoted their time, 
 money, and thoughts to it. Robert McCormick 
 was as enthusiastic as his son, and he is rightly 
 entitled to a share of the honor, for his invention 
 of 1816 turned the attention of his son to the 
 problem and pointed out the radical errors to be 
 avoided. A year after its first trial, with certain 
 improvements, the reaper cut fifty acres of wheat 
 in so perfect and rapid a manner as to insure its 
 practical value beyond all doubt. The self-re- 
 straint shown by McCormick in refusing to sell 
 machines until he was satisfied with them shows 
 the man. The patent was granted in 1834, but 
 for six years he kept at work experimenting, 
 changing, improving, during the short periods 
 of each harvest. In a letter to the Commis- 
 sioner of Patents, on file in the Patent Office, 
 Mr. McCormick said : " From the experiment of 
 1 83 1 until the harvest of 1840 I did not sell a 
 reaper, although during that time I had many 
 exhibitions of it, for experience proved to me 
 that it was best for the public as well as for my- 
 self that no sales were made, as defects presented 
 themselves that would render the reaper unprof- 
 itable in other hands. Many improvements were 
 found necessary, requiring a great deal of thought 
 and study. I was sometimes flattered, at other 
 times discouraged, and at all times deemed it best 
 
CTIiUS UALL .)fcCOIt.yfJ('fr 
 
 21:. 
 
 not to attempt the sale of machines until satisfied 
 that the reaper would succeed." 
 
 About 1835 the McCormicksengaj;ed in a part- 
 nership for the smeltin*^ of iron ore. The reaper, 
 as a business pursuit, was yet in the distance, and 
 the new iron industry offered lar^e [irofits. The 
 panic of 1837 swept away these hopes. Cyrus 
 
 Interior of the Blacksmith Shop where the First Reaper was Built. 
 
 sacrificed all he had, even the farm i^ivcn him by 
 his father, to settle his debts, and his scrupulous 
 integrity in this matter turned disaster into bless- 
 ing, for it compelled him to take up the reaper with 
 renewed energy. With the aid of his father and 
 of his brothers, William and Leandcr, he began 
 the manufacture of the machine in the primitive 
 workshop at Walnut Grove, turning out less than 
 fifty machines a year, all of them made under 
 
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 j^rcat disadvantages. The sickles were made 
 forty miles away, and as there were no railroads 
 in those days, the blades, six feet long, had to be 
 carried on horseback. Neither was it easy, when 
 once the machines were made, to get them to 
 market. The first consignment sent to the West- 
 ern prairies, in 1844, was taken in wagons from 
 Walnut Grove to Scottsville, then down the 
 canal to Richmond, Va. ; thence by water to 
 New Orleans, and tnen up the Mississippi and 
 Ohio Rivers to Cincinnati. 
 
 The great West, with its vast prairies, was the 
 natural market for the reaper. Upon the small 
 farms of the East hand labor might still suffice 
 for the harvest; in the West, where the farms 
 were enormous and labor scarce, it was out of 
 the question. Realizing that while his reaper 
 was a luxury in Virginia, it was a necessity in 
 Ohio and Illinois, Cyrus McCormick went to 
 Cincinnati in the autumn of 1844 and began 
 manufacturing. At the same time he made 
 some valuable improvements and obtained a 
 second patent. The reaper had become known 
 and the inventor rode on horseback through 
 Illinois and Wisconsin, obtaining farmers' orders 
 for reapers, which he offered to A. C. Brown, 
 of Cincinnati, as security for payment, if he 
 would use his workshops for manufacturing 
 them. McCormick was enabled also to arrange 
 with a firm in Brockport, N. Y., to make his 
 reapers on a royalty, and this business pro- 
 vided the great wheat district of Central New 
 York with machines. In 1847 ^^^ ^848 he ob- 
 
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 (Ji'Ul S HALL McCOHMlCK 
 
 1>17 
 
 tained still other patents for new features of the 
 reaper. 
 
 In 1846 he had already fixed upon Chicago as 
 the best centre of operations for the reaper busi- 
 ness, and at the close of the year he moved there. 
 The next year the sale of the reapers rose to 
 seven hundred, and more than doubled in 1849. 
 
 The First Reaper. 
 
 Having associated his two brothers, William S. 
 and Leander J., with him, Cyrus McCormick 
 found time to devote himself to introducing the 
 reaper in the Old World. The American exhibit 
 at the London World's Fair of 185 1 was rather a 
 small one, redeemed largely bv the McCormick 
 reaper, which the London Times, as I have already 
 said, praised as worth to the farmers of Great 
 Britain more than the whole cost of the exhibi- 
 
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 218 
 
 INVENTORS 
 
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 tion. To it was awarded the grand prize, known 
 as the council medal. 
 
 The reaper's advance in public favor was as 
 steady on the other side of the water as here, and 
 medals and honors were awarded McCormick at 
 many important exhibitions. During the Paris 
 Exposition of 1867 McCormick superintended 
 the work of his reapers at a field trial held by the 
 exposition authorities, and so conclusively de- 
 feated all competitors that Napoleon III., who 
 walked after the reapers, expressed his deter- 
 mination to confer upon the inventor, then and 
 there, the Cross of the Legion of Honor. At 
 the French Exposition of 1878 the McCormick 
 wire-binder won the grand prize. From 1850 
 the success of the reaper was assured. Mr. Mc- 
 Cormick might have rested content with what 
 had been achieved, but it was not his nature. 
 He not only continued to bear upon his shoul- 
 ders the larger share of responsibility of the rap- 
 idly growing business, but he labored persistent- 
 ly to add to the effectiveness of his invention. 
 
 The great fire that swept Chicago in 1871 left 
 nothing of the already important works estab- 
 lished by Mr. McCormick. But, as might be 
 expected from such a man, he was a tower of 
 strength to the city in her time of distress, and 
 one of those to rally first from the blow and to 
 inspire hope. Within a year, assisted by his 
 brother Leander, he had raised from the ashes an 
 immense establishment, which with the growth 
 of the last few years now covers forty acres of 
 ground. More than 2,000 men are here em- 
 
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 emus HALL McCOIiMICK 
 
 2iy 
 
 ployed. The statistics for last 3'ear show that 
 more than 20,000 tons of special bar-iron and steel, 
 2,800 tons of sheet steel, and 26,000 tons of cast- 
 ings were uscvd in making the 142,000 machines 
 sold. Ten million feet of lumber were used, 
 chiefly in boxing and crating, as very little wood 
 is now used in the reaper. 
 
 This is a marvellous development fr^ci the 
 little Virginia shop of 1840, with its output of 
 one machine a week, and the growth means far 
 more for the country at large than might be 
 inferred from these figures ; the farmers of the 
 world owe more to the McCormick reaper than 
 they can repay. The whir of the American 
 reaper is heard around the world. In Egypt, 
 Russia, India, Australia the machine is help- 
 ing man with more than a giant's strength. Re- 
 cent American travellers through Persia have 
 described the singular effect produced upon 
 them by seeing the McCormick reaper doing 
 its steady work in the fields over which Ha- 
 roun Al Raschid may have roamed. And this 
 wonderful machine is followed with awe by the 
 more ignorant of the natives, who look upon its 
 achievements as little short of magical. They 
 are not far wrong, however, for it is more amaz- 
 ing than any wonder described in their "Arabian 
 Nights." . 
 
 The last years of Cyrus H. McCormick's life 
 were such as have fallen to few of the world's 
 benefactors, for as a rule the pioneer who shows 
 the road has a hard time of it, even unto the 
 end. Mr. McCormick had the satisfaction of 
 
 
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 knowing not only that by his invention he had 
 conferred a blessing upon the workmen of the 
 world, but that the world had acknowledged the 
 debt. Material prosperity, however, was not 
 considered any reason for luxurious idleness. 
 To the close of his life Mr. McCormick con- 
 tinued to supervise the business of his firm and 
 to make the reaper more perfect. No great ex- 
 hibition abroad or in this country passed without 
 some of its honors falling to the share of the 
 McCormick reaper. 
 
 The private life of Cyrus H. McCormick was 
 a happy one, and to this may be attributed no 
 small share of the elasticity and courage that 
 recognized no defeat as final. Congress failed 
 to do him justice ; his business was attacked by 
 hordes of rivals ; it was interrupted by the fire of 
 1 87 1 and afterward threatened by labor strikes 
 incited by self-seeking demagogues. Hard work 
 was the rule of his life and not the exception. 
 But that his nature remained sweet and just is 
 shown by his untiring work upon behalf of oth- 
 ers. His home life, as I have just remarked, 
 was unusually blessed. In 1858 he married Miss 
 Nettie Fowler, a daughter of Melzar Fowler, of 
 Jefferson County, New York. Of the seven chil- 
 dren born of this marriage, five lived to grow up, 
 his son, Cyrus H. McCormick, now occupying 
 his father's place at the head of the great works 
 in Chicago. One of the daughters, Anita, is the 
 widow of Emmons Blaine. The inventor of the 
 reaping-machine died on the 13th of May, 1884. 
 Robert H. Parkinson, of Cincinnati, speaks as 
 
tf-i 
 
 GYRUS HALL McCORMIGK 
 
 221 
 
 follows of one of the last interviews he had with 
 Mr. McCormick: " Though struggling with the 
 infirmities of age, he took on a kind of majesty 
 which belongs alone to that combination of great 
 mental and moral strength, and he surprised me 
 by the power with which he grappled the matters 
 under discussion, and the strong personality be- 
 fore which obstacles went down as swiftly and in- 
 evitably as grain before the knife of his machine. 
 I think myself fortunate in having had this 
 glimpse of him and in being able to remember 
 with so much personal association a life so com- 
 plete in its achievements, so far-reaching in its 
 impress, alike upon the material, moral, and re- 
 ligious progress of the country, and so thor- 
 oughly successful and beneficial in every depart- 
 ment of activity and influence which it entered." 
 One of his friends, speaking of Mr. McCormick, 
 said: "That which gave intensity to his purpose, 
 strength to his will, and nerved him with perse- 
 verance that never failed was his supreme regard 
 for justice, his worshipful reverence for the true 
 and right. The thoroughness of his conviction 
 that justice must be done, that right must be 
 maintained, made him insensible to reproach 
 and impatient of delay. I do not wonder that 
 his character was strong, nor that his purpose 
 was invincible, nor that his plans were crowned 
 with an ultimate and signal success, for where 
 conviction of right is the motive-power and the 
 attainment of justice the end in view, with faith 
 in God there is no such word as fail." 
 
 C3TUS H. McCormick was not only the in- 
 
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 222 
 
 INVENTORS 
 
 ventor of a great labor-saving device, but he 
 helped his fellow-man in other ways. Philan- 
 thropy, religion, education, journalism, and poli- 
 tics received a share of his attention. More 
 than thirty years ago he was already an active 
 power for good in the councils of his church. In 
 1859 ^6 proposed to the General Assembly of 
 the Presbyterian Church to endow with $100,000 
 the professorships of a theological seminary, to 
 be est ' 'i'hca in Chicago. This was done, and 
 during his ^" time he gave about half a mill- 
 ion dollars to thfs institution — the Theological 
 Seminary of the Northwest. The McCormick 
 professorship of natural philosophy in the 
 Washington and Lee University of Virginia, and 
 gifts to the Union Theological Seminary at 
 Hampden-Sidney, and to the college at Has- 
 tings, Neb., also attest his solicitude for the 
 church in which he had been reared and of 
 which he had been a member since 1834. In 
 1872 he came to the aid of the struggling organ 
 of the Presbyterian Church in the Northwest, the 
 Interior^ and used it to foster union between the 
 Old and the New Schools in the church, to aid 
 in harmonizing the Presbyterian Church in the 
 North and South, to advance the interests of the 
 Theological Seminary, and to promote the wel- 
 fare of the Presbyterian Church in the North- 
 west. Under his care and advice the Interior 
 grew to be a mighty voice, expressing the con- 
 victions, the aspirations, and hopes of a great 
 church. 
 
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 Thomas A. Eilisnr 
 
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 IX. 
 
 THOMAS A. EDISON. 
 
 Thomas A. Edison is sometimes spoken of 
 rather as a master mechanic than as a master in- 
 ventor or discoverer, and with regard to some of 
 his work — I might even say most of it — this 
 characterization holds true. Edison's fame is 
 chiefly associated in the popular mind with the 
 electric light. Yet it is perfectly well known to 
 every student of the matter, that in all that he 
 has done toward making the electric light a use- 
 ful every-day — or perhaps I should say every- 
 night — affair, he has simply made practicable 
 what other men had invented or discovered be- 
 fore him. The fundamental discovery upon 
 which the incandescent electric lamp is founded 
 — that a wire of metal or other substance if 
 heated to incandescence in a glass bulb from 
 which the air has been exhausted will give light 
 for a longer or shorter time, according to the 
 character of the apparatus and the degree to 
 which a perfect vacuum has been effected in 
 the bulb — this dates from the first half of the 
 century. As early as 1849 Despretz, the French 
 scientist, described a series of experiments with 
 sticks of carbon sealed in a glass globe from 
 which air had been exhausted. When a power- 
 
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 224 
 
 INVEJ^TORH 
 
 Edison's Paper Carbon 
 Lamp. 
 
 ful current was passed through the carbon 
 filament it became luminous and remained so for 
 a short time. This was, perhaps, the first of a 
 
 long line of similar experiments 
 in which a number of American 
 physicists — Farmer, Draper, 
 Henry, Morse, and Maxim 
 among them — took part. But 
 notwithstanding the labors of a 
 score of experts in Europe and 
 this country, the incandescent 
 electric light — the wire in a glass 
 bulb exhausted of its air — re- 
 mained a laboratory curiosity 
 up to the time, fifteen years ago, 
 when Edis(jn took hold of it. It 
 gave light only for a short time 
 and was too expensive a toy for practical use. 
 The carbon burned out or disintegrated, and 
 the lamp failed. Edison took hold of the mechan- 
 ical difficulties of the problem. With a patience, 
 an ingenuity, a fertility of device in which he 
 stands alone, he got to the bottom of each radical 
 defect and remedied it. The lamp would not 
 burn long because the platinum wire used gave 
 out, partly because platinum was not fitted for the 
 work, fusing at too low a temperature. Edison 
 substituted carbonized strips of paper. These 
 in turn failed, and he found a species of bamboo 
 that answered. The lamp would not burn be- 
 cause air still remained in the little bulbs not- 
 withstanding the most careful manipulation with 
 Sprengel pumps to exhaust the air. Edison in- 
 
THOMAS A. KDIHON 
 
 225 
 
 vented new pumps and devices by which the 
 air, down to one millionth part, was excludcfl. 
 The lamp cost too much to operate, because lar^e 
 copper wires were needed to carry the current, 
 and the generators used up steam power too 
 fast. Edison devised new forms of conductors 
 and generators. All such work called more for 
 mechanical ingenuity than for actual invention. 
 No new principles were involved — merely the 
 better adaptation of known methods. Given a 
 perfect carbon, a globe perfectly free from air, 
 cheap electric current, and cheap means of carry- 
 ing it from the generating machine to the lamps, 
 and the problem was solved. 
 
 Edison, as a master mechanic, furnished all 
 this, or at least so nearly solved the problem as 
 to entitle him to claim credit for having given 
 the electric light to the world — a better illumi- 
 nant than gas in every way, and destined some 
 day to be infinitely cheaper. 
 
 With regard to Edison's work upon the tele- 
 graph, telephone, electric railway, dynamo, the 
 ore-extracting machines, the electric pen, and a 
 score of other inventions which have made him 
 the most profitable customer of the United States 
 Patent Office in this or any other generation, the 
 labor of this remarkable genius has also been 
 largely that of one who made practical and use- 
 ful the dreams of others. And I am by no 
 means sure that the man who does this is not en- 
 titled to more credit than he who simply suggests 
 that such and such a wonder might be accom- 
 plished and stops there. It is certain that before 
 
 15 
 
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 liSVKNTOliS 
 
 
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 t'ii 
 
 
 I 
 
 Edison \vc had no electric lights; now we have 
 thcni in every important l)uilding in the country, 
 and ere long shall have them everywhere. 
 
 Edison dislikes intensely the term discoverer 
 as applied to himself. " Discovery is not inven- 
 tion," he once remarked in the course of an in- 
 teresting talk with Mr. George Parsons Lathrop, 
 printed in Harper s Magazine. " A discovery is 
 more or less in the nature of an accident. A man 
 walks along the road intending to catch the 
 train. On the way his foot kicks against some- 
 thing, and looking down to see what he has hit, 
 he sees a gold bracelet embedded in the dust. 
 He has discovered that, certainly not invented 
 it. lie did not set out to find a bracelet, yet the 
 value of it is just as great to him at the moment 
 as if, after long years of study, he had invented 
 a machine for making a gold bracelet out of 
 common road metal. Goodyear discovered the 
 way to make hard rubber. He was at work ex- 
 ])erimcnting with india-rubber, and quite by 
 chance he hit upon a process which hardened it 
 — the last result in the world that he wished or 
 expected to attain. In a discovery there must 
 be an element of the accidental, and an impor- 
 tant one, too ; while an invention is purely de- 
 ductive. In my own case but few, and those the 
 least important, of my inventions owed anything 
 to accident. Most of them have been hammered 
 out after long and patient labor, and are the re- 
 sult of countless experiments all directed toward 
 attaining some well-defined object. All mechan- 
 ical improvements may safely be said to be in- 
 
THOMAS A. K 1)1 soy 
 
 
 ventions and not discoveries. The sewin^-nia- 
 chinc was an invention. So were the steam- 
 engine and the typewriter. Speaking of this 
 hitter, did I ever tell you that I made the first 
 twelve typewriters at my old factory in Railroad 
 Avenue, Newark ? This was in 1869 or 1870, and 
 I myself had worked at a machine of similar 
 
 ! !i 
 
 f J' 
 1 1» 
 
 
 Editon Listening to his Phonograph. 
 
 ing 
 Ired 
 
 re- 
 lard 
 lan- 
 
 in- 
 
 character, but never found time to develop it 
 fully." 
 
 There is one great invention, however, for 
 which Edison deserves credit, b(^th as discoverer 
 and practical inventor — the phonograph. Here 
 was a genuine discovery. The phonograph 
 knows no other parent than Edison, and he has 
 brought it to its present condition by devotion 
 and tireless skill. I have always believed in the 
 phonograph as an instrument destined to play 
 
'mw^ 
 
 ■\ I ■ 
 
 
 l!)1;H 
 
 :ii,i::M! 
 
 22S 
 
 IJS'VENTORS 
 
 some day an important part among the blessings 
 that ingenuity has given to man. There are still 
 obstacles in the way of its practical success, but 
 that the missing screw or spring — perhaps no 
 more than that — will be found in the near future, 
 is not doubted by any competent observer. 
 
 Thomas Alva Edison was born February ii, 
 1847, ^t Milan, Erie County, O., an obscure canal 
 village. When a small boy, his family, a most 
 humble one (his father being a village jack-of- 
 all-trades, living upon odd jobs done for neigh- 
 boring farmers), moved to Port Huron, Mich., 
 where Edison's boyhood was passed. There his 
 father was in turn tailor, well-digger, nursery- 
 man, dealer in grain, lumber, and farm lands. 
 His parents were of Dutch-Scotch descent and 
 gave him the iron constitution that enables him 
 to-day, at the age of forty-seven, to tire out the 
 most robust of his assistants. One of his ances- 
 tors lived to the age of one hundred and two, 
 and another to the age of one hundred and three, 
 so that we may reasonably expect the famous in- 
 ventor to open the door for us to still other won- 
 ders of which we do not yet even dream. His 
 mother, born in Massachusetts, had a good edu- 
 cation and at one time taught school in Canada. 
 Of regular schooling, young Edison had but two 
 months in his life. Whatever else he knew as 
 a boy he learned from his mother. There are 
 no records showing extraordinary promise on 
 his part. He was an omniverous reader, having 
 an intense curiosity about the world and its 
 great men. At ten years of age he was reading 
 
Tiro.WAS A. irDL^ON 
 
 2l>0 
 
 Hume's " Eni^land," Gibbon's " Rome," the Pen- 
 ny Encyclopaedia, and some books on chemistry. 
 
 At the age of twelve he entered upon his life 
 work as newsboy on the Grand Trunk Railroad 
 of Canada and the Michigan Central, selling pa- 
 pers, books, candies, etc., to the passengers. 
 
 " Were you one of the train-boys," he was once 
 asked, " who sold figs in boxes with bottoms half 
 an inch thick?" 
 
 '* If I recollect aright," he replied, with a merry 
 twinkle, " the bottoms of my boxes were a good 
 inch." 
 
 Perhaps the twelve-year-old boy learned some- 
 thing from the books and papers he sold. At 
 all events he says that the love of chemistry, 
 even at that age, led him to make the corner of 
 the baggage-car where he stored his wares a 
 small laboratory, fitted up with such retorts and 
 bottles as he could pick up in the railroad work- 
 shops. He had a copy of Fresenius's " Qualita- 
 tive Analysis," into which he plunged with the 
 ardor a small boy usually shows for nothing liter- 
 ary unless it has a yellow cover decorated with 
 an Indian's head. He seems also to have had a 
 habit of " hanging around " all interesting places, 
 from a machine-shop to a printing-office, keep- 
 ing his eyes very wide open. In one such expe- 
 dition he received as a gift from W. F. Storey, 
 of the Detroit Free Press, three hundred pounds 
 of old type thrown out as useless. With an old 
 hand-press he began printing a paper of his own, 
 the Grand Trunk Herald, of which he sold sever- 
 al hundred copies a week, the employees of the 
 
 
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 I 
 
 r» 
 
 'S' 
 
'TJV 
 
 Wi 
 
 230 
 
 JM'KNTOIiS 
 
 road being his best customers. " My news," he 
 says, talking of this time, " was purely local. But 
 I was proud of my newspaper and looked upon 
 
 r 
 
 Port Huroi> F '■u«<7 3rd 18C2, 
 
 GBAKD TRUN 
 
 ! 
 
 'UAILROADX 
 
 Express. le»ves PoroJHuron.7.05 PM 
 
 Niwd For. 1J« Iroit, le»vei p-*''"^'^;;) jy," \^ 
 "T., , GOING lUST. ^ ' 'r' 
 
 Ex?«Si le*v«*DetroH, Fo (Toronto, at 6 15 A,M 
 Mi«<li IFpr Pt, Hur«n J.Vive;i at 4.00 P.M 
 Two*Freight Tr»in-J >i'» wey. 
 
 ' C, R, Chnalie, Supt 
 
 I 
 
 STAGtS. 
 
 NEAV BALTlMOiJE STATION^ 
 A tri-wtthlyjtRg* )«*vJMj»*osrejnMne(tj;tol- 
 ToiTcvery^fay'for^few Italfriore Algonac.Svjn 
 
 Cre«R, and Ncwpo»t. gj^ 
 
 Gikvcj proplelor, 
 
 MAIL IJ^JPRSS. 
 P\ily Exprws l»av«» ,«SSW Baltimore StatUn 
 every morniiig or> arrlvV/f the Train from Det- 
 roit. For BalUtnvr*. AJgi^c Swan CreeH. and 
 Newport. O JV 4 Bennett. 
 
 MARKEl'S 
 
 Nc* Bsllimor 
 Butler .•! lOto 12cts ptrlb f 
 
 Ejjtjs nt IC cts, i>ei- dox. /sj;/' 
 
 LaiU at 7 •<• 'Jfents pe.- Il' W 
 
 Dressed Hoe», at 3.0<) lo 3 W per 1100X3. 
 Flcdr-nl 450 to 47.") |)*'- W)l. 
 BuckwhcMM 1.50 VflO""" "^ 
 MoU-in-nl' 4no 5 els per lb, 
 B««»j-»t 1.00 to I.20 pti'm>h I* \ ^ *. 
 Polnlocs »^ 60 )^JJ5 {i.vit»r Koch _1 "^ j-^— ' 
 
 Corunt 30 lno5 f|> pii'bukh. '■ "^ ,.., 
 
 Turkeys ft 5(.> In *5.f Is ex'.V 1 IB, 
 Chickei'S »I lUlo lUcN'v'lS. .i 3 
 
 Cee»e «l 25 lo 35 c.«»l' «»<H "^"^ \ 
 
 Pucks' i>l 30 cent* per pmr. "^ > 
 
 i 
 
 At UAltininre StAtini* j 
 
 "iTie^ljoS'i. rt.imul Hotrl ii now oprn fn» (lie r»- 
 
 -£^'-T™H''.Jvi^~*'-- ---■''''*-" ^^-'•! jlill.^'""'^'"! 
 h(it 'drLiquors and ertr>- eS^'ion Wi.4 
 
 *ilh^ 
 
 beiiiaTCtjJhejEp.uforl o( the'Cuts>s/'\ 
 
 S. DjviS Prop«dor 
 
 ■I 
 
 f\, HU RON 
 
 An Oinn'ibtuLj£.i>ves the 
 
 on the arrival of all Trai 
 
 Fur, 
 
 \Tio*r 
 
 Satlon for Pi 
 
 LOST LOSl} 
 A small parrti of CMHJ 
 The Finder wili be lib.'. 
 
 ^ 
 
 Bcen's. Olcy Agcnl 
 jLOST, 
 
 SriENDID POKTABLE COPYING 1 
 
 press;:,? for SALE AT v', 
 
 KU CLEMENS OHDKRS TAKEN, )' 
 
 BY THE NEWS AGENT ON THE MIXED.; 
 
 llidj^owny Refrechmcitt Booms —I wndj^intofrtt 
 niy frici<d> lh«t 1 have oprnrda fefreshaicnt 
 room forlhcaccoinatlAticnoi Ihe traveling public 
 P, Alkn. pi'opiclor, [f 
 
 TO THE UAI LROAO MEN . " 
 Raltrosd Mrr\ »cnd |.i youi'ordeis fof Bullrf, 
 I E.'IX'-S Iwd. Cl\«'.'< Turkey. ChitUjnf. and 
 r.. lost on the WS; Gcrjc W^, 0. Hxilcls New B»ltlinore SlMluti./ 
 
 I!y rewa>"di"d. 
 
 ; 
 
 From Edison's Newspaper, the " Grand Trunk Herald." 
 
 myself as a full-fledged newspaper man. My 
 items used to run about like this : * John Rob- 
 inson, baggage-master at James's Creek Station, 
 lell off the platform yesterday and hurt his leg. 
 
rjf().\fAS A. EDISON 
 
 231 
 
 The boys arc sorry for John.' Or, * No. 3 Bur- 
 lington engine has gone into the shed for re- 
 
 • » »» 
 pairs. 
 
 This was Edison's only dip into a literary occu- 
 pation. He has no predilection in that way. He 
 realizes the value of newspapers and books, but 
 chiefly as tools, and his splendid library at the 
 Orange laboratory, kept with scrupulous system, 
 is filled with scientific books and periodicals 
 only. Telegraphy was to be the field in which 
 he was to win his first laurels. Some years ago 
 he told the story as follows : 
 
 ** At the beginning of the civil war I was slav- 
 ing late and early at selling papers ; but, to tell 
 the truth, I was not making a fortune. I worked 
 on so small a margin that I had to be mighty 
 careful not to overload myself with papers that 
 I could not sell. On the other hand, I could not 
 afford to carry so few that I should find mvself 
 sold out long before the end of the trip. To en- 
 able myself to hit the happy mean, I formed a 
 plan which turned out admirably. I mctde a 
 friend of one of the compositors of the Free 
 Press office, and persuaded him to show me every 
 day a * galley-proof ' of the most important news 
 article. From a study of its head-lines I soon 
 learned to gauge the value of the day's news and 
 its selling capacity, so that I could form a toler- 
 ably correct estimate of the number of papers I 
 should need. As a rule I could dispose of about 
 two hundred ; but if there was any special news 
 from the seat of war, the sale ran up to three 
 hundred or over. Well, one day my compositor 
 

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 INVENTOliS 
 
 brought me a proof-slip of which nearly the 
 whole was taken up with a gigantic display head. 
 It was the first report of the battle of Pittsburgh 
 Landing — afterward called Shiloh, you know — 
 and it gave the number of killed and wounded 
 as sixty thousand men. 
 
 " I grasped the situation at once. Here was a 
 chance for enormous sales, if only the people 
 along the line could know what had happened ! 
 if only they could see the proof-slip 1 was then 
 reading ! Suddenly an idea occurred to me. I 
 rushed off to the telegraph-operator and gravely 
 made a proposition to him which he received just 
 as gravely. He on his part was to wire to each 
 of the principal stations on our route, asking the 
 station-master to chalk up on the bulletin-board — 
 used for announcing the time of arrival and de- 
 parture of trains — the news of the great battle, 
 with its accompanying slaughter. This he was 
 to do at once, while I, in return, agreed to sup- 
 ply him with current literature * free, gratis, for 
 nothing ' during the next six months from that 
 date. 
 
 " This bargain struck, I began to bethink me 
 how I was to get enough papers to make the 
 grand coup I intended. I had very little cash 
 and, I feared, still less credit. I went to the su- 
 perintendent of the delivery department, and 
 preferred a modest request for one thousand 
 copies of the Free Press on trust. I was not 
 much surprised when my request was curtly and 
 gruffly refused. In those days, though, I was a 
 pretty cheeky boy and I felt desperate, for I saw 
 
TIIO.UAS A. hJDISON 
 
 238 
 
 a small fortune in prospect if my telegraph oper- 
 ator had kept his word — a point on which I was 
 still a trifle doubtful. Nerving myself for a great 
 stroke, I marched upstairs into the office of Wil- 
 bur F. Storey himself and asked to see him. A 
 ic\y minutes later I was shown in to him. I told 
 who 1 was, and that T wanted fifteen hundred 
 copies of the paper on credit. The tall, thin, 
 dark-eyed, ascetic-looking man stared at me for 
 a moment and then scratched a few words on a 
 slip of paper. * Take that downstairs,' said he, 
 ' and you will get what you want.' And so I 
 did. Then I felt happier than I have ever felt 
 since. 
 
 " I took my fifteen hundred papers, got three 
 boys to help me fold them, and mounted the 
 train all agog to find out whether the telegraph 
 operator had kept his word. At the town where 
 our first stop was made I usually sold two pa- 
 pers. As the train swung into that station I 
 looked ahead and thought there must be a riot 
 going on. A big crowd filled the platform and 
 as the train drew up I began to realize that they 
 wanted my papers. Before we left I had sold a 
 hundred or two at five cents apiece. At the 
 next station the place was fairly black with 
 people. I raised the 'ante' and sold three hun- 
 dred papers at ten cents each. So it went on 
 until Port Huron was reached. Then I trans- 
 ferred my remaining stock to the wagon which 
 always waited for me there, hired a small boy to 
 sit on the pile of papers in the back, so as to dis- 
 count any pilfering, and sold out every paper I 
 
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 234 
 
 J.\ VKNTOUS 
 
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 had at a quarter of a dollar or more per copy. 
 I remember I passed a church full of worship- 
 pers, and stopped to yell out my news. In ten 
 seconds there was not a soul left in meeting. 
 All of them, including the parson, were clus- 
 tered around me, bidding against each other for 
 copies of the precious paper. 
 
 " You can understand why it struck me then 
 that the telegraph must be about the best thing 
 going, for it was the telegraphic notices on the 
 bulletin-boards t-hat had done the trick. I deter- 
 mined at once to become a telegraph-operator. 
 But if it hadn't been for Wilbur F. Storey I 
 should never have fully appreciated the wonders 
 of electrical science." 
 
 Telegraphy became a hobby with the boy. 
 From every operator along the road he picked 
 up something. He strung the basement of his 
 father's house at Port Huron with wires, and 
 constructed a short line, using for the batteries 
 stove-pipe wire, old bottles, nails, and zinc which 
 urchins of the neighborhood were induced to 
 cut out from under the stoves of their unsuspect- 
 ing mothers and bring to young Edison at three 
 cents a pound. In order to save time for his 
 experiments, he had the habit of leaping from a 
 train while it was going at the rate of twenty- 
 five miles an hour, landing upon a pile of sand 
 arranged by him for that purpose. An act of 
 personal courage — the saving of the station- 
 master's child at Port Clements from an advanc- 
 ing train — was a turning-point in his career, for 
 the grateful father taught him telegraphing in 
 
n 
 
 THOMAS A. h'J)JS(>\ 
 
 :>:J5 
 
 the regular way. Telegraphy was then in its in- 
 fancy, comparatively speaking ; operators were 
 few, and good wages could be earned by means 
 of much less proficiency than is now required. 
 Still, Edison had so little leisure at his disposal 
 for learning the new trade, that it took him sev- 
 eral years to become an expert operator. Most 
 of his studies were carried on in the corner of 
 the baggage-car that served him as printing- 
 office, laboratory, and business headquarters. 
 With so many irons in the fire, mishaps were 
 sure to occur. Once he received a drubbing on 
 account of an article reflecting unpleasantly 
 upon some employee of the road. One day 
 during his absence a bottle of phosphorus upset 
 and set the old railroad caboose on fire, where- 
 upon the conductor threw out all the painfully 
 acquired apparatus and thrashed its owner. 
 
 Edison's first regular employment as telegraph- 
 operator was at Indianapolis when he was 
 eighteen years old. He received a small salary 
 for day-work in the railroad office there, and 
 at night he used to receive newspaper reports 
 for practice. The regular operator was a man 
 given to copious libations, who was glad enough 
 to sleep off their effects while Edison and a young 
 friend of his named Parmley did his work. " 1 
 would sit down," says Edison, " for ten minutes, 
 and 'take' as much as I could from the instru- 
 ment, carrying the rest in my head. Then while 
 I wrote out, Parmley would serve his turn at 
 ' taking,* and so on. This worked well until they 
 put a new man on at the Cincinnati end. He 
 
m ;= 
 
 
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 L>;jt) 
 
 JAVhWroliS 
 
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 » It 
 
 
 was one of the quickest despatchers in tlie busi- 
 ness, and we soon found it was hopeless for us tc 
 try to keep up with him. Then it was that 1 
 worked out my first invention, and necessity was 
 certainly the mother of it. 
 
 " I got two old Morse registers and arranged 
 them in such a way that by running a strip of 
 paper through them the dots and dashes were 
 recorded on it by the first instrument as fast as 
 they were delivered from the Cincinnati end, 
 and were transmitted to us through the other in- 
 strument at any desired rate of speed. They 
 would come in on one instrument at the rate of 
 forty words a minute, and would be ground out 
 of our instrument at the rate of twenty-five. 
 Then weren't we proud ! Our copy used to be 
 so clean and beautiful that we hung it up on ex- 
 hibition; and our manager used to come and 
 gaze at it silently with a puzzled expression. 
 He could not understand it, neither could any of 
 the other operators ; for we used to hide my im- 
 promptu automatic recorder when our toil was 
 over. But the crash came when there was a big 
 night's work — a Presidential vote, I think it was 
 — and copy kept pouring in at the top rate of 
 speed until we fell an hour and a half or two 
 hours behind. The newspapers sent in frantic 
 complaints, an investigation was made, and our 
 little scheme was discovered. We couldn't use 
 it any more. 
 
 " It was that same rude automatic recorder that 
 indirectly led me long afterward to invent the 
 phonograph. I'll tell you how this came about. 
 
THOMAS A. EDISON 
 
 0'>7 
 
 After thinking over the matter a great deal, I 
 came to the point where, in 1877, I had worked 
 out satisfactorily an instrument that would not 
 only record telegrams by indenting a strip of 
 paper with dots and dashes of the Morse code, 
 but would also repeat a message any number of 
 times at any rate of speed required. I was then 
 experimenting with the telephone also, and my 
 mind was filled with tlieories of sound vibra- 
 
 Edson's Tinfoil Pnonograph— tht.- First Practical Machine 
 
 tions and their transmission by diaphragms. 
 Naturally enough, the idea occurred to me: if 
 the indentations on paper could be made to 
 give forth again the click of the instrument, why 
 could not the vibrations of a diaphragm be 
 recorded and similarly reproduced? I rigged 
 up an instrument hastily and pulled a strip of 
 paper through it, at the same time shouting, 
 'Hallo'! Then the paper was pulled through 
 again, my friend Batchelorand I listening breath- 
 lessly. We heard a distinct sound, which a 
 strong imagination might have translated into 
 
•If^ 
 
 238 
 
 INVEXTORS 
 
 
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 I 
 
 It 
 
 »;« I: 
 
 
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 I 
 
 't'l ' 
 
 m 
 
 the original * Hallo.' That was enough to lead 
 me to a further experiment. But Batchelor was 
 vSceptical, and bet me a barrel of apples that I 
 couldn't make the thing go. I made a drawing 
 of a model and took it to Mr. Kruesi, at that 
 time engaged on piece-work for me, but now as- 
 sistant general manager of our machine-shop at 
 Schenectady. 1 told him it was a talking-ma- 
 chine. He grinned, thinking it a joke ; but he 
 set to work and soon had the model ready. I 
 arranged some tinfoil on it, and spoke into the 
 machine. Kruesi looked on, still grinning. But 
 when I arranged the machine for transmission 
 and we both heard a distinct sound from it, he 
 nearly fell down in his fright. I was a little 
 scared myself, I must admit. I won that barrel 
 of apples from Batchelor, though, and was 
 mighty glad to get it." 
 
 To go back to earlier days, the story of Edi- 
 son's first years as a full-fledged operator shows 
 that from the beginning he was more of an in- 
 ventor than an operator. He was full of ideas, 
 some of which were gratefully received. One 
 day an ice-jam broke the cable between Port 
 Huron, in Michigan, and Sarnia, on the Canada 
 side, and stopped communication. The river is 
 a mile and a half wide and was impassable. 
 Young Edison jumped upon a locomotive and 
 seized the valve controlling the whistle. He had 
 the idea that the scream of the whistle might be 
 broken into long and short notes, corresponding 
 to the dots and dashes of the telegraphic code. 
 
THOMAS A. KDISON 
 
 239 
 
 "Hallo there, Sarnia ! Do you get me? Do 
 you hear what I say?" tooted the locomotive. 
 
 No answer. 
 
 "Do you hear what I say, Sarnia? " 
 
 A third, fourth, and fifth time the message 
 went across without response, but finally the 
 idea was caught on the other side ; answering 
 toots came cheerfully back and the connection 
 was recovered. 
 
 Anything connected with the difficulties of 
 telegraphy had a fascination for him. He lost 
 many a place because of unpardonable blunders 
 due to his passion for improvement. At Strat- 
 ford, Canada, being required to report the word 
 " Six " every half hour to the manager to show 
 that he was awake and on duty, he rigged up a 
 wheel to do it for him. At Indianapolis he kept 
 press reports waiting while he experimented with 
 new devices for receiving them. At Louisville, 
 in procuring some sulphuric acid at night for his 
 experiments, he tipped over a carboy of it, ruining 
 the handsome outfit of a banking establishment be- 
 low. At Cincinnati he abandoned the office on 
 every pretext to hasten to the Mechanics' Libra- 
 ry to pass his day in reading. 
 
 An indication of his thirst for knowledge, and 
 of a fta'ivc ignoring of enormous difficulties, is 
 found in a project formed by him at this time to 
 read through the whole public library. There 
 was no one to tell him that a summary of human 
 knowledge may be found in a moderate number 
 of volumes, nor to point out to him what they 
 are. Each book was to him a j)art of the great 
 
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 1 ' 'Ti 1 
 
 240 
 
 iNVhjyroHs 
 
 f'i' 
 
 I-"' I 
 
 
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 1 
 
 
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 domain of knowlcdj^e, none of which he meant 
 to lose. He began with the solid treatises of a 
 dusty lower shelf and actually read, in the ac- 
 complishment of his heroic purpose, fifteen feet 
 along that shelf. He omitted no book and noth- 
 ing in the book. The list contained Newton's 
 •* Principia," Ure's Scientific Dictionary, and 
 Burton's " Anatomy of Melancholy." 
 
 At that time a message sent from New Orleans 
 to New York had to be taken at Memphis, re- 
 telegraphed to Louisville, taken down again by 
 the operator there, and telegraphed to another 
 centre, and so on till it reached New York. 
 Time was lost and the chance of error was in- 
 creased. Edison was the first to connect New 
 Orleans and New York directly. It was just 
 after the war. He perfected an automatic re- 
 peater which was put on at Memphis and did 
 its work perfectly. The manager of the ofBce 
 there, one Johnson, had a relative who was also 
 busy on the same problem, but Edison solved it 
 ahead of him and received complimentary no- 
 tices from the local papers. He was discharged 
 without cause. He got a pass as far as Decatur 
 on his way home, but had to walk from there to 
 Nashville, a hundred and fifty miles. From 
 there he got a pass to Louisville, where ho ir 
 rived during a sharp snow-storm, clad in . »eu 
 duster. 
 
 It was soon after this that Edison, already 
 a swift and competent operator when he de- 
 voted himself to practical work, received prom- 
 ise of employment in the Boston ofifice. The 
 
 
fl 
 
 J'JU/.VAS A. Kb I SON 
 
 241 
 
 ic 
 
 weather was quite cold and his peculiar dress, 
 topped with a slouchy broad-brimmed hat, made 
 something of a sensation. Miit Fi)disoii then cared 
 as little for dress as he docs to-day. So one raw 
 wet day a tall man with a limp, wet duster clinsj^- 
 ing to hi:: 'ejrs, stalked int(3 the superintendent's 
 room, and sa.'d : 
 
 " Here I am." 
 
 The superintendent eyed him from head to 
 foot, and said : 
 
 " Who are ^ou ? " 
 
 " Tom Edison." 
 
 " And who on earth mic^ht Tom Edison be?" 
 
 The young man explained that he had been 
 ordered to report for duty at the Boston office, 
 and was finally told to sit down in the operating- 
 room, where his advent created much merriment. 
 The operators guyed him loudly enough for him 
 to hear. He didn't care. A few moments later 
 a New York sender noted for his swiftness called 
 up the Boston office. There was no one at lib- 
 erty. 
 
 " Well," said the office chief," let that new fel- 
 low try him." Edison sat down, and for four 
 hours and a half wrote out messages in his pecul- 
 iarly clear round hand, stuck a date and number 
 on them and threw them on the floor for the 
 office boy to pick up. The time he took in 
 numbering and dating the sheets were the only 
 seconds he was not writing out transmitted 
 words. Faster and faster ticked the instrument, 
 and faster and faster went Edison's fingers, until 
 the rapidity with which the messages came tum- 
 IG 
 
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 242 
 
 INVENTORS 
 
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 bling on the floor attracted the attention of the 
 other operators, who, when their work was done, 
 j^athered around to witness the spectacle. At 
 tiie close of the four and a half hours' work 
 there flashed from New York the salutation : 
 
 "Hello!" 
 
 " Hello yourself," ticked back Edison. 
 
 "Who the devil are you?" rattled into the 
 Boston office. 
 
 "Tom Edison." 
 
 " You are the first man in the country," ticked 
 the instrument, " that could ever take me at 
 my fastest, and the only one who could ever 
 sit at the other end of my wire for more than 
 two hours and a half. I'm proud to know 
 you." 
 
 Edison was once asked with what invention he 
 really began his career as an inventor. 
 
 " Well," said he, in reply, " my first appearance 
 at the Patent Office was in i868, when I was 
 twenty-one, with an ingenious contrivance which 
 I called the electrical vote recorder. I had been 
 impressed with the enormous waste of time in 
 Congress and in the State Legislatures by the 
 taking of votes on any motion. More than half 
 an hour was sometimes required to count the 
 'Aves* and 'Noes.' So I devised a machine 
 somewhat on the plan of the hotel annunciator 
 that was invented long afterward, only mine 
 was a great deal more complex. In front of 
 each member's desk were to have been two but- 
 tons, one for * Aye,' the other for * No,' and by 
 the side of the Speaker's desk a frame with two 
 
If 
 
 THOMAS A. EDISON 
 
 243 
 
 dials, one showing the total of * Ayes ' and the 
 other the total of ' Noes.' When the vote was 
 called for, each member could press the button 
 
 he wished and the re- 
 
 suit would appear auto- 
 matical! v before the 
 Speaker, who c o u 1 d 
 j^lance at the dials and 
 announce the result. 
 This contrivance would 
 save several hours of 
 public time every day 
 in the session, and I 
 thought my fortune 
 was made. I interested 
 a moneyed man in the 
 thing and we went to- 
 gether to Washington, 
 where we soon found 
 the right man to get 
 the machine adopted. 
 
 I set forth its merits. Imagine my feelings 
 when, in a horrified tone, he exclaimed : 
 
 '"Young man, that won't do at all. That is 
 just what we do not want. Your invention 
 would destroy the only hope the minority have 
 of influencing legislation. It w^ould deliver 
 them over, bound hand and foot, to the majority. 
 The present system gives them time, a weapon 
 which is invaluable, and as the ruling majority 
 always knows that they may some day become a 
 minority, they will be as much averse to any 
 change as their opponents.' I saw the force of 
 
 Vote Recorder — Edison's Fiist Patented 
 Invention. 
 
W'^ 
 
 im^i 
 
 .11'.' 
 
 244 
 
 INVENTORS 
 
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 these remarks, and the vote recorder got no 
 further than the Patent Office." 
 
 But he began to believe in himself. His next 
 work was upon the applications of the vibratory 
 principle in telegraphing, upon which so many of 
 his subsequent inventions were founded. His 
 first ambitious attempt was in the direction of a 
 multiplex system for sending several messages 
 over one wire at the same time. It was not 
 much of a success, howe . , and Edison drifted 
 to New York, where, a^ . vain attempt to in- 
 terest the telegraph compu iies in nis inventions, 
 he established himself as an electrical expert 
 ready for odd jobs and making a specialty of 
 telegraphy. One day the Western Union Com- 
 pany had trouble with its Albany wire. The wire 
 wasn't broken, but wouldn't work, and several 
 days of experimenting on the part of the com- 
 pany's electricians only served to puzzle them 
 the more. As a forlorn hope they sent for 
 young Edison. 
 
 "How long will you give me?" he asked. 
 *' Six hours? " 
 
 The manau^er lauo;hed and told him he would 
 need longer than that. 
 
 Edison sat down at the instrument, established 
 communication with Albany by way of Pitts- 
 burgh, told the Albany office to put their best 
 man at the instrument, and began a rapid series 
 of tests with currents of all intensities. He 
 directed the tests from both ends, and after two 
 hours and a half told the company's officers that 
 the tnnible existed at a certain point he named 
 
if ', 
 
 ti .1 m 
 
 T/f().\rAS A. KD/soy 
 
 245 
 
 on the line, and he told them what it was. They 
 telegraphed the office nearest this point the 
 necessary directions, and an hour later the wire 
 was working properly. This incident first es- 
 tablished his value in New York as an expert, 
 and the business became profitable. Moreover, 
 it led the different telegraph companies to give 
 respectful attention to what he had to offer in 
 the way of patented devices. 
 
 Edison's mechanical skill soon became so noted 
 that he was made superintendent of the repair 
 shop of one of the smaller telegraph companies 
 then in existence, all of which were using what 
 was known as the Page sounder, a device for 
 signalling, the sole right to which was claimed 
 by the Western Union Company. Owing to the 
 latter company's success in a patent suit over 
 this sounder, there came a time when an injunc- 
 tion was obtained, silencing all sounders of that 
 type, and practically putting a serious obstacle in 
 the way of rapid work. Edison was called into 
 the president's office and the situation explained. 
 For a long time, according to one who was pres- 
 ent, he stood chewing vigorously upon a mouth- 
 ful of tobacco, looking first at the sounder in his 
 hand, and then falling into a brown study. At 
 length he picked up a sheet of tin used as a 
 " back" for manifolding on thin sheets of paper, 
 and began to twist and cut it into queer shapes; 
 a group of persons gathered around and watched. 
 Not a word was spoken. Finally Edison tore off 
 the Page sounder on the instrument before him, 
 and substituting his bit of tin, began working. 
 
 i!^ 
 
 Ill 
 -.11 
 
II 
 
 n 
 
 'h 
 
 I I! 
 
 
 ■*ta. 
 
 •51!" * 
 
 
 24*; 
 
 INVENTORS 
 
 It was not so good as the patented arrangement 
 discarded, but it worked. In four hours a hun- 
 dred such devices were in use ov^er the line, and 
 what would have been a ruinous interruption to 
 business was avoided. 
 
 Edison's first large sums of money came from 
 the sale of an improvement in the instruments 
 used to record stock quotations in brokers' of- 
 fices, commonly known as " tickers." His suc- 
 cess in this direction led him to take a contract 
 to manufacture some hundreds of " tickers," and 
 his only venture in this direction was carried out 
 with considerable success at a shop he rented in 
 Newark about 1875. But as he told me a few 
 years later, in talking about this incident in his 
 career, manufacturing was not in his line. Like 
 Thoreau, who having succeeded in making a 
 perfect lead -pencil, declared he should never 
 make another, he hates routine. " I was a poor 
 manufacturer," said he, " because I could not let 
 well enough alone. My first impulse upon tak- 
 ing any apparatus into my hand, from an egg- 
 beater to an electric-motor, is to seek a way of 
 improving it. Therefore, as soon as I have fin- 
 ished a machine I am anxious to lake it apart 
 again in order to make an experiment. That is 
 a costly mania for a manufacturer," 
 
 It was his success .^'ith a device for printing 
 stock quotations upon paper tape that finally in- 
 duced several New York capitalists to accept 
 Edison's offer to experiment with the incandes- 
 cent electric light, they to pay the expense of the 
 experiments and share in the inventions if any 
 
d 
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 III: 
 
 
 Edison in his Laboratory. 
 
TiroXfAS .!. KDTSOS 
 
 L>47 
 
 were made. For the sake of quiet Edison moved 
 out to Menlo Park, a little station on the Penn- 
 sylvania road about twenty-five miles beyond 
 Newark, and built a shop twenty-eii^^ht feet wide, 
 one hundred feet long, and two stories high. It 
 was here that I first made his acquaintance, in 
 January, 1879, soon after the newspapers had 
 announced that he had solved the problem 
 of the electric light. It may be remembered 
 that gas stock tumbled in price at that time, and 
 there was a rush to sell before the new light 
 should displace gas altogether. One cold day 1 
 climbed the hill from the station, and once past 
 the reception-room, in which every new-comer 
 was carefully scrutinized, for inventors are apt to 
 have odds and ends lying about that they do not 
 want seen by everyone, I found myself in a long 
 big work-shop. To anyone accustomed to the 
 orderly appearance of the ideal machine-shop, 
 it presented a curious appearance, for evidently 
 half the machines in it — forges, lathes, furnaces, 
 retorts, etc. — were dismantled for the moment 
 and useless. Half a dozen workmen were busy 
 in an apparently aimless manner. 
 
 Upstairs, in a room devoted to chemical ex- 
 periments, I found Edison himself. He is to-day 
 just what he was then. Prosperity has not 
 changed him in the least, except perhaps in one 
 particular. In those days of struggle the inven- 
 tor was far less affable with visitors than he is to- 
 day. One felt instinctively that he was a man 
 struggling to accomplish some serious task to 
 which he was devoting every waking thought 
 
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 F-t- 
 
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 Ii\Vh\VT(JJiS 
 
 And probably (hTaniiii^ about it at niii^ht. As [ 
 strode across tlic laboratory in the direction in- 
 dicated by one of the workmen present, a com- 
 pactly built but not tall man, with rather a boy- 
 isl., clean-shaven face, prematurely old, was 
 holding a vial of some liquid up to the light. 
 He had on a blouse such as chemists wear, but 
 it was hardly necessary, as his clothes were well 
 stained with acids ; his hands were covered with 
 some oil with which his hair was liberally streaked, 
 as he had a habit of wiping his fingers upon his 
 head. " Good clothes are wasted upon me," he 
 once explained to me. " I feel it is wrong to 
 wear any, and I never put on a new suit when 
 1 can help it." Kdison has been slightly deaf 
 for a number of years, and like all persons of de- 
 fective hearing, closely watches anyone with 
 whom he talks. His patience with visitors is 
 proverbial, and provided any intelligence is 
 shown, he will plunge into long explanations. 
 As he goes on from point to point, warming up 
 to his subject, he is sometimes quite oblivious to 
 the fact that it is all lost upon his visitor until 
 brought back by some question or comment 
 which shows that he might as well talk Sanscrit. 
 Then he laughs and goes back to simpler mat- 
 ters. 
 
 I watched him for a few moments before pre- 
 senting myself. After a long look at his bottle, 
 held up against the light, he put it down again 
 on the table before him, and resting his head be- 
 tween his hands, both elbows on the table, he 
 peered down at the bottle as if he expected it to 
 
THOMAS .1. K 1)1 SOX 
 
 •J41> 
 
 SUV somcthiiiLr. riien, alter a moment's brown 
 study, he would seize it again, give it a shake, as 
 if to shake its secret out, and hold it up to the 
 light. As pantomime nothing could have been 
 more expressive. That liquid contained a secret 
 it would not give u}), but if it could be made to 
 give it up, Edison was the man to do it, as a ter- 
 rier might worry the life out of a rat. 
 
 The secret of his success might well be " Per- 
 sistency, more persistency, still more persist- 
 ency." One of his foremen relates that once in 
 Newark when his printing telegraph suddenly 
 refused to work, he locked himself into his labor- 
 atory, declaring that he would not come out till 
 the trouble was found. It took him sixty hours, 
 during which time his only food consisted of 
 crackers and cheese eaten at the bench ; then he 
 went to bed and slept twenty hours at a stretch. 
 At another time, during the height of the first 
 electric-light excitement, all the lamps he had 
 burning in Menlo Park, about eighty in all, sud- 
 denly went out, one after another, without appar- 
 ent cause. Everything had gone well for nearl}^ 
 a month and the great success of the experiment 
 had been published to the world. If the lamps, 
 with their carbon filaments of charred paper 
 would burn for a month there seemed to be no 
 reason why they should not burn for a year, and 
 Edison was stunned by the catastrophe. The 
 trouble was evidently in the lamps themselves, 
 for new lamps burned well. Then began the 
 most exciting and most exhaustive series of ex- 
 periments ever undertaken by an American phys- 
 
 Ji 
 
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 11 
 
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 ^ 1 r :i 
 
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 'nr:i« 
 
 25U 
 
 INVF.NTons 
 
 icist. For five days Edison rcmiiincd day and 
 night at the laboratory, sleeping only when his 
 assistants took his place at whatever was going 
 on. The difficulties in the way of experimenting 
 with the incandescent lamp are enormous because 
 the light only burns when in a vacuum. The 
 instant the glass is broken, out it goes. Edison's 
 
 Edison's Menio Park Electric Locomotive ( i88o). 
 
 eyes grew weak studying the brilliant glow of 
 the carbon filament. At the end of the five days 
 he took to his bed, worn out with excitement and 
 sick with disappointment. During the last two 
 days and nights he ate nothing. He could not 
 sleep, for the moment he left the laboratory and 
 closed his eyes some new test suggested itself. 
 Neither was there much sleep for hii Jaithful 
 
THOMAS A. N/HSffX 
 
 •251 
 
 o 
 
 force. Ordinarily one of the most considerate 
 of men, he seemed quite surprised when rest and 
 refreshments were sometimes sug<jested as in 
 order after fifteen hours' incessant work. The 
 trouble was finally discovered to be one that time 
 alone could have proved. The air was not suf- 
 ficiently exhausted from the lamps. To add to 
 the discomfiture of the inventor, a professor of 
 physics in one of the well-kn(j\vn colleges de- 
 clared in a newspaper article widely circulated 
 that the Edison lamp would never last long 
 enough to pay for itself. 
 
 " I'll make a statue of that man," said Edison 
 to me one day when he was still groping in the 
 dark for the secret of his temporary defeat, " and 
 I'll illuminate it brilliantly with Edison lamps 
 and inscribe it : * This is the man who said the 
 Edison lamp would not burn.' " 
 
 To go back to Edison, shaking his bottle in 
 the sunlight, his brown study gave way to a 
 pleasant smile of welcome when I had made my 
 business known. *' Take a look at these filings," 
 he said, making room for me at the bench. " See 
 how curiously they settle when I shake the bottle 
 up. In alcohol they behave one way, but in oil 
 in this way. Isn't that the most curious thing 
 you ever saw — better than a play at one of your 
 city theatres, eh?" and he chuckled to himself 
 as he shook them up again. 
 
 " What I want to know," he went on, more to 
 himself than to me, " is what they mean by it, 
 and I'm going to find out." To me the interest- 
 ing spectacle was Edison tossing up his bottle 
 
T 
 
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 l^\ 
 
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 mi . 
 
 
 ri! >■' 
 
 ri 
 
 SI 
 
 'Ml' 
 
 
 lyvi'jy/'oiis 
 
 and watchin*^ the filiii^j^s settle, and not the curi- 
 ous behavior of the filings. 
 
 When he put the bottle by, with a deep sigh, 
 he took me over the whole place, pointing out 
 with particular pride the apparatus for making 
 the paper carbons for the lamps, and the new 
 forms of Sprengel mercury pumps that did bet- 
 ter work in extracting air from the lamps than 
 any yet devised. 
 
 Looking back to that first visit to Edison, the 
 first of perhaps a score that 1 have had occasion 
 to make him in the last fifteen years, what im- 
 pressed me most was the immensity of the field 
 in which he takes an interest. Ask Edison what 
 he thinks will be the next step in the develop- 
 ment of the sewing-machine, or the telescope, the 
 microscope, the steam-engine, the electric-motor, 
 the reaping-machine, or any device by which 
 man accomplishes much work in little time, and 
 invariably it will be found that he has some novel 
 ideas upon the subject, perhaps fanciful in the 
 extreme, but practical enough to show that he 
 has pondered the matter. He shares the opinion 
 of the gentleman who insists that whatever is is 
 wrong, but only to this extent : that whatever is 
 might be better. Authority means nothing to 
 him ; he must test for himself. For instance, it 
 is well known that he rejects the Newtonian 
 theory in part and holds that motion is an inher- 
 ent property of matter ; that it pushes, finding 
 its way in the direction of least resistance, and is 
 not pulled or attracted. " It seems to me," he 
 said once, " that every atom is possessed by a 
 
THOMAS A. K I) I HON 
 
 253 
 
 certain amount of i)rimitivc intelligence. Look 
 at the thousand ways in wiiich atoms of hydro- 
 gen combine with those of other elements, form- 
 in<^ the most diverse substances. Do you mean 
 to say that tiiey do this without intelligence? 
 Atoms in harmonious and useful relation assume 
 beautiful or interesting shapes and colors, or 
 give forth a pleasant perfume, as if expressing 
 their satisfaction. In sickness, death, decompo- 
 sition, or filth the disagreement of the compo- 
 nent atoms immediatelv makes itself felt bv bad 
 odors." It is partly due to this belief in the sen- 
 sibility of atoms that Edison attributes his faith 
 in an intelligent Creator. 
 
 It is hard to say into what field of inquiry Edi- 
 son has not dipped. He told me once that when- 
 ever he travelled he carried a note-book with 
 him, in which he jotted down suggestions for 
 experiments to be made. Railway journeys, at a 
 time when Edison was a constant traveller, were 
 productive of much material of this kind, for the 
 inventor never sleeps when travelling, and his 
 brain works, going over, even in a doze, the thou- 
 sand and one aspects of his work, and cvol/ing 
 theories tu be dismissed almost as soon as 
 evolved. His mind, when at rest, reviews his 
 day's work almost automatically, just as a chess- 
 player's brain will, after an exciting game, go 
 over every situation in a half dream-like condi- 
 tion and evolve new solutions. He has great 
 respect for even what appear to be the most in- 
 consequential observations, provided they are 
 made by a competent person, and a large force 
 
f^^mmmm 
 
 254 
 
 INVENTOliS 
 
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 It. 
 
 
 5 ^ "■ 
 
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 ^ #1 
 
 liir 
 
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 in his splendid laboratory at Orange is always 
 employed in studies that appear to the outsider 
 
 '£4>i«a< 
 
 l\oulSyfrf 
 
 
 
 \o^%fC r^te^t^tt pa^VxCu 
 
 £ie.A 
 
 ijLii 
 
 
 -n O (>oJLa4 e,\^C CCLA^ ct €A *XA*<iTKi 
 
 il 
 
 
 da: 
 
 
 to be aimless; for instance, the action of chemi- 
 cals upon various substances or upon each '^ther. 
 Strips of ivory in a certain oil become trans- 
 parent in six weeks. A globule of mercury in 
 
THOMAS A. EDISON 
 
 255 
 
 water takes various shapes for the o|)posite poles 
 of the electric-battery upon the addition of a lit- 
 tle potassium. There is no present use for the 
 knowledge of such facts, but it is recorded in 
 vcjluminous note-books, and some day the con- 
 necting-link in the chain of an invaluable discov- 
 ery may here be found. 
 
 My next visit to Menlo Park was a few months 
 later, when 1 found Edison in bed sick with dis- 
 appointment. The lamps had again taken to an- 
 tics for which no remedy or explanation could 
 be discovered. There was an air of desolation 
 over the place. The laboratory was cold and 
 comfortless. Upon every side were signs of 
 strict economy. Most of the assistants were 
 young men glad to work for little or nothing. 
 For the last month Edison had been working in 
 the direction of a geneial improvement of all 
 parts of the lamp instead of devoting himself to 
 one feature. Expert glass-blowers were brought 
 to Menlo Park, the air-pumps were made more 
 perfect, new substances were tried for carbons. 
 All this had taken time, during which outsiders 
 freely predicted failure. The stock in the enter- 
 prise fell to such a price that it was hard to raise 
 money fc" the maintenance of the laboratory. It 
 was argued, and with some truth, as I have had 
 occasion to remark, that Edison had really dis- 
 covered nothing new; he had attempted to do 
 what a dozen famous men had tried before him 
 and he had failed. The quotations oi New York 
 gas stocks rose again. 
 
 The next time I visited the laboratory, a few 
 
 
W'^ ■ 
 
 256 
 
 INVENTORS 
 
 
 ti 
 
 « I? I' 
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 H 
 
 ir^ 
 
 Ci!-''f 
 
 mil 
 
 »«i' 
 
 ^ : 
 
 days later, Edison was iij) iigain an talking 
 cheerfully. But he had grown five years older 
 in five months. " 1 shall succeed," he said to me, 
 " but it may take me longer than I at first sup- 
 posed. Everything is so new that each step is 
 in the dark ; I have to make the dynamos, the 
 lamps, the conductors, and attend to a thousand 
 details that the world never hears of. At the 
 same time I have to think about the expense of 
 my work. That galls me. My one ambition is 
 to be able to work without regard to the ex- 
 pense. What I mean is, that if I want to give up 
 a whole month of my time and that of my whole 
 establishment to finding out why one form of a 
 carbon filament is slightly better than another, I 
 can do it without having to think of the cost. 
 My greatest luxury would be a laborator}^ more 
 perfect than any we have in this country. I 
 want a splendid collection of material — every 
 chemical, every metal, every substance in fact 
 that may be of use to me, and I hardly know 
 what may not be of use. J w^ant all this right at 
 hand, within a few ieet of mv own house. Give 
 me these advantages an- 1 I i ill gladly devote 
 fifteen hours a day to soli*'' ' ork. i want none 
 of the rich man's usual toys, no matter how rich 
 I may become. I want no horses or yachts — 
 have no time for them. I want a perfect work- 
 shop." 
 
 In the last twelve years Edison has seen his 
 dream fulfilled. His eleciric light has not dis- 
 placed gas, by any means, but it has been the 
 foundation of a business large enough to make 
 
THOMAS A. EDISON 
 
 257 
 
 the inventor sufficiently rich tc build the finest 
 laboratory in the world, in the most curious 
 room of which are to be found the three hun- 
 dred models of machinery and apparatus of vari- 
 ous kinds devised by Edison in the last twenty 
 years and made by himself or under his eye. He 
 is still a gaunt fellow, with a slight stoop, a clean- 
 shaven face, and a low voice. His hands arc still 
 
 'y''^;> 
 
 n^ 
 
 The Home of Thomas A. Edison. 
 
 soiled with acids, his clotlies arc shabby, and 
 there is always a cigar in his mouth. 
 
 The Edison ].iboratory deserves a chapter by 
 itself. In 1886 Edison bought a fine villa in Llew- 
 ellyn Park at a cost of $150,000. He took the 
 house as it stood, with all its luxurious httings, 
 rather to please his wife than himself; a corner 
 of the laboratory would suit him (]uitc as well. 
 Right outside the gates of the park and within 
 17 
 
mm II 
 
 258 
 
 INVENTORS 
 
 • lii 
 
 ;l I 
 
 
 An I 
 
 view of the house, he bought ten acres of land 
 and began his hiboratory. Two handsome struct- 
 ures of brick, each 60 feet wide, 100 feet long, 
 and four stories high, accommodate the machine- 
 sliop, library, lecture-room, experimental work- 
 shops, assistants' rooms and store-rooms. The 
 boiler-house and dynamo-rooms are outside the 
 main buildings. Also, in a separate room, the 
 floor of which consists of immense blocks of 
 stone, are the delicate instruments of precision 
 
 T^rwm0r^ 
 
 
 ■■:A 
 
 •..,.v;!l:.J' + 
 
 ,'"• - -..^S'-^ -^ 
 
 Edison's Laboratory. 
 
 used in testing electric currents. The instru- 
 ments in this one room, twenty feet square, cost 
 $18,000 to make and to import from Europe. 
 I'pon first entering the main building, the visi- 
 tor finds what is apparently a busy factory of 
 some sort, with long rows of machinery, from 
 steam-hammers to diamond-lathes. Everywhere 
 workmen are busy at their tasks, and Edison has 
 good reason to be proud (jf his laboratory force, 
 for it consists of the picked workmen of the 
 country. Whenever he finds in one of the Edison 
 
THOMAS A. EDISON 
 
 250 
 
 factories in Newark, New York, Schenectady, or 
 elsewhere a particularly expert and intelliij^ent 
 man, he has him transferred to the Granite labor- 
 atory, where, at increased i)ay for shorter hours, 
 the man not only finds life pleasanter, but has 
 a chance of learning and becoming somebody. 
 The whole place hums with the rattle of ma- 
 chinery and glows with electric light. There 
 are eighty assistants, who have charge of the va- 
 rious departments. The most expert iron-work- 
 ers, glass-blowers, wood-turners, metal-spinners, 
 screw-makers, chemists, and machinists in the 
 country are to be found here. A rough drawing 
 of the most complicated model is all they re- 
 quire to work from. 
 
 The store-rooms contain all the material 
 needed. Four store-keepers are employed to 
 keep the supplies, valued at $100,000, in order 
 and ready for use at a moment's notice. Each 
 article is put down in a catalogue which shows 
 the shelf or bottle where it may be found. Every 
 known metal, every chemical known to science, 
 every kind of glass, stone, earth, wood, fibre, 
 paper, skin, cloth, is to be found there. In mak- 
 ing up the chfMiiical collection an assistant was 
 kept at work for wrecks going through the three 
 most exhaustive works on chemistry in English, 
 French, and German, making a note of every 
 substance mentioned, and this list constituted 
 the order for chemicals, aii order, l)y Ihc way, 
 which it required seven months to till. In the 
 glass department, for instance, there is every 
 known kind of j^-lass, from plates two inches 
 
 I : 
 
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 200 
 
 INVENTORS 
 
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 ;m; 
 
 
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 Mil 
 
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 thick to the finest film, and if anything else in 
 the way of glass is needed, the glass-workers 
 are there to make it. This stupendous collec- 
 tion of material, filling one floor, is intended to 
 guard against annoying delays that might occur 
 at critical times for want of some rare material. 
 In 1885, when working upon an apparatus for 
 getting a current of electricity directly from heat 
 — the thermo-electric generator — Edison's work 
 was brought to a standstill for want of a few 
 pounds of nickel, an article not then to be found 
 in any quantity in this country. The store-room 
 was organized to avert such delays. The library 
 is the only part of the main building that shows 
 any attempt at decoration. It is a superb room, 
 60 feet by 40, with a height of 25 feet. Gal- 
 leries run around the second story. At one 
 end is a monumental fireplace, and in the centre 
 of the hall a fine group of palms and ferns. The 
 room is finished in oiled hard wood and lighted 
 by electricity. Fine rugs cover the floors. The 
 shelves contain nothing but scientific works and 
 the files of the forty-six scientific periodicals in 
 English, French, and German to which Edison 
 subscribes. They are indexed by a librarian as 
 soon as received, so that Edison can see at a 
 glance what they contain concerning the special 
 fields in which he is interested. 
 
 Nothing in this big establishmjnt, often em- 
 ploying more than one hundred persons, is made 
 for sale. It is wholly devoted to experimental 
 work and tests. Its expenses, said to be more 
 than $150,000 a vear, are paid by the commer- 
 
THOMAS A. liJDISON 
 
 2(11 
 
 cial companies in which Edison is interested, lie, 
 on his part, giving them tlie benefit of any im- 
 provements made. Thus in one room hundreds 
 of incandescent electric hunps burn night and 
 day the year through. Each lamp is specially 
 marked and when it burns out more quickly than 
 the average, or lasts longer, a special study is 
 made as to the contributing causes. It may 
 seem impossible that the suggestions of one man 
 can keep busy a big workshop upon experiments 
 the year round, but Edison says that the tempta- 
 tion is always to increase the force. When it is 
 remembered that the list of Edison's patents 
 reaches to seven hundred and forty, and that on 
 the electric light alone he has worked out sev- 
 eral hundred theories, the wonder ceases. Ten 
 minutes' work with a pencil may sketch an ap- 
 paratus that a dozen men cannot finish inside of 
 a fortnight. 
 
 When the new Orange laboratory was finished 
 and Edison found himself with time and means 
 at his disposal, his first thought was to take up his 
 phonograph. The history of the great hopes 
 built upon the phonograph and the bitter dis- 
 appointment that followed is too familiar to need 
 repetition here. As may be imagined, Edison 
 is most keenly bent upon tightening the loose 
 screw that has prevented it from doing all that 
 its friends predicted for it. lie still works at 
 other problems, but chiefly as relaxation. He 
 rests from inventing one thing by inventing 
 something else. 
 
 One day recently, when I found him less con- 
 
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THOMAS A. KDJSOA 
 
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 tidcnt tliaii usual as to the triunij)!! ol the phono- 
 graph in the near future, lie said: "There are 
 some difficulties about the problem that seem 
 insurmountable. I i^o on smoothly until at a 
 certain point I run my head ai^ainst a stone 
 wall ; I cannot get under, over, or around it. 
 After butting my head against that wall until it 
 aches, I go back to the beginning again. It is 
 absurd to say that because 1 can sec no possible 
 solution of the problem to-day, that 1 may not 
 see one to-morrow. The very fact that this cen- 
 tury has accomplished so much in the way of 
 invention, makes it more than probable that the 
 next century will do far greater things. We 
 ought to be ashamed of ourselves if we are con- 
 tent to fold our hands and say that the tele- 
 graph, telephone, steam-engine, dynamo, and 
 camera having been invented, the held has been 
 exhausted. These inventicjns are so many won- 
 derful tools with which we ought to accomplish 
 far greater wonders. Unless the coming gener- 
 ations are particularly lazy, the world ought to 
 possess in 1993 a dozen marvels of the usefulness 
 of the steam-engine and dynamo. The next step 
 in advance will perhaps be the discovery of a 
 method for transforming heat directly into elec- 
 tricity. That will revolutionize modern life by 
 making heat, power, and liglit almost as cheap 
 as air. Inventors are already feeling their way 
 toward this wonder. I have gone far enough on 
 that road to know that there are several stone 
 walls ahead. But the problem is one of the most 
 fascinating in view." 
 
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 ALEXANDER GRAHAM BELL. 
 
 Sir Charles Wiikatstone, the eminent Eng- 
 lish electrician, while engaged in perfecting 
 his system of telegraphy discovered that wires 
 cliarged with electricity often carried noises in 
 a curious manner. He made and exhibited at 
 the Royal Society, in 1840, a clock in which the 
 tick of another clock miles away was conveyed 
 through a wire. This experiment appears to 
 have been one of the germs of the telephone. In 
 1844 Captain John Taylor, also an Englishman, 
 invented an instrument to which he gave the 
 name of the telephone, but it had nothing elec- 
 trical about it. It was an apparatus for con- 
 veying sounds at sea by means of compressed 
 air forced through trumpets. He could make 
 his telephone heard six miles away. The first 
 real suggestion of the telephone as we know it 
 comes from Reis, the German professor of phys- 
 ics at Friedrichsdorf, who in i860 constructed 
 with a coil of wire, a knitting-needle, the skin of 
 a German sausage, the bung of a beer-barrel, and 
 a strip of platinum an instrument which repro- 
 duced the sound of the voice by the vibration of 
 the membrane and sent a series of clicks along 
 an electric wire to an electro-magnetic receiver 
 

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ALKXAMJKIi (Hi A HAM IIKLL 
 
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 at the other end of the wire. The same idea 
 was taken ui) in this country by Elisha Gray, 
 Edison, and by Alexander Graham I3ell, wlio 
 i.rst exhibited at the Centennial Exhibition an 
 apparatus that transmitted speech by electricity 
 in a fairly satisfactory manner. The American 
 claimants to the honor of havin<^ invented the 
 telephone include Daniel Drawbaugh, a back- 
 woods genius of Pennsylvania, who claims to 
 have made and used a practical telephone in 
 1867-68. A large fortune has been spent in 
 fighting Drawbaugh's claims against the Bell 
 monopoly, but the courts have finally decided in 
 favor of the latter. It should be recorded as a 
 matter of justice to Mr. Gray, that he appears to 
 have solved the problem of conveying speech by 
 electricity at about the same time as Bell. Both 
 these inventors filed their caveats upon the tele- 
 phone upon the same day — February 14, 1876. 
 It was Bell's good fortune to be the first to make 
 his device practically effective. 
 
 Alexander Graham Bell is not an American 
 by birth. He was born in Edinburgh, Scotland, 
 on the 1st of March, 1847. ^^is father, Alexan- 
 der Melville Bell, was the inventor of the sys- 
 tem by which deaf people are enabled to read 
 speech more or less correctly by observing 
 the motion of the lips. I lis mother was the 
 daughter of Samuel Symonds, a surgeon in the 
 British navy. 
 
 In 1872 the Bells moved to Canada, and young 
 Alexander Bell became widely known in Boston 
 as an authority in the teaching of the deaf and 
 
20(! 
 
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 dumb. He first carried to great perfection in 
 this country the art of enabling the deaf and 
 dumb to enunciate intelligible words and sounds 
 that they themselves have never heard. Most 
 of his art he acquired from his father, one of tlie 
 most expert of teachers in this field. The elder 
 Bell is still active in his work, constantly de- 
 vising new methods and experiments. He lives 
 in Washington with his son and is frequently 
 heard in lectures in New York and Boston. 
 
 In 1873 Alexander Bell began to study the 
 transmission of musical tones by telegraph. It 
 was in the line of his work with deaf and dumb 
 people to make sound vibrations visible to the 
 eye. With the phonautograph he could obtain 
 tracings of such vibrations upon blackened pa- 
 per by means of a pencil or stylus attached to 
 a vibrating cord or membrane. He also suc- 
 ceeded in obtaining tracings upon smoked glass 
 of the vibrations of the air produced by vowel 
 sounds. He began experimenting with an ap- 
 paratus resembling the human ear, and upon the 
 suggestion of Dr. Clarence J. Blake, the Boston 
 aurist, he tried his work upon a prepared speci- 
 men of the ear itself. Observation upon the 
 vibrations of the various bones within the ear 
 led him to conceive the idea of vibrating a piece 
 of iron in front of an electro-magnet. 
 
 Mr. Bell was at this time an instructor in 
 phonetics, or the art of visible speech, in Mon- 
 roe's School of Oratory in Boston. One of his 
 old pupils describes him then as a swarthy, 
 foreign - looking personage, more Italian than 
 
ALh:XANIH':U UliAHAM liKLl. 
 
 20: 
 
 En.i^lisli in appearance, with jct-l)lack hair aiul 
 dark skin. I lis manner was earnest and lull of 
 conviction. lie was an entiiusiast in his work, 
 and only eniers^ed from his habitual difhdence 
 when called upon to talk upon his studies and 
 views. He was miserably i)oor and almost with- 
 out friends. When he was attacked with muscu- 
 lar rheumatism, in 1S73, his hospital expenses 
 were paid by his employer, and his only visit(jrs 
 were some oi the pupils at the sciiool. 
 
 Until the close of 1S74. Bell's experiments 
 seemed to promise nothiiii^ of practical value. 
 But in 1875 he bei^an to transmit vibrations be- 
 tween two armatures, one at each end of a wire. 
 He was much interested at the time in multiple 
 teleji^raphy and fancied that somethins^ mij^ht 
 come of some such arrani^ement of manv niai^- 
 netic armatures responding U) the vibrations set 
 up in one. 
 
 In November, 1875, he discovered that the 
 vibrations created in a reed by the voice could 
 be transmitted so as t(3 reproduce words and 
 sounds, (^nc day in January, 1876, he called a 
 dozen of the pupils at Monroe's school into his 
 room and exhibited an [ipparatus by which 
 sini^ins^ was more or less satisfactorily transmit- 
 ted by wire from the cellar of the buildiui^ to a 
 room on the fourth floor. The exhibition creat- 
 ed a sensation amoni^ the pui)ils, but, althou«^h 
 no attempts were made by Bell to conceal what 
 he was doinj^, or how he did it, the noise of his 
 discovery does not seem to have reached the 
 outside world. With an old ci^ar-box, two 
 
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 208 
 
 JNVENTOns 
 
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 hundred feet of wire, two maii^nets from a toy 
 fish-pond, the first Bell telephone was broui^ht 
 into existence. The apparatus was, however, 
 not yet the practical telephone as wc know it, 
 but it was sufficient of a curi(jsity to warrant 
 its exhibition in an improved form at the Cen- 
 tennial Exhibition, when Sir William Thomson 
 spoke of it as " perhaps the greatest marvel 
 hitherto achieved by the electric telegraph." 
 
 The next year Bell succeeded in bringing the 
 telephone to the condition in which it became 
 of immediate practical value. Strange to say, 
 the public was at first slow to appreciate the 
 great importance of the invention, and when 
 Bell took it to England, in 1877, he could find 
 no purchaser for half the European rights at 
 $10,000. In this country, thanks to the business 
 energy of Professor Gardiner Hubbard, of Har- 
 vard, Bell's father-in-law, the telephone was soon 
 made commercially valuable, and there are now 
 said to be nearly six hundred thousand telephones 
 in use in the United States alone. 
 
 Professor Bell, as may be imagined, is not idle. 
 His vast fortune has enabled him to continue 
 costly experiments in aiding deaf and dumb 
 people, and it will probably be in this field that 
 his next achievement will be made. Personally, 
 he is a reserved and thoughtful man, wholly 
 given up to his scientific work. His wife, whom 
 he married in 1876, was one of his deaf and dumb 
 pupils. It is often said that it was largely due 
 to his intense desire to soften her misfortune 
 that his experiments were so exhaustive and 
 
ALEX AND Kli G UAH AM BELL 
 
 2(10 
 
 finally became so productive in another direction. 
 His home life in Washinj^^ton, where he bought, 
 in 1885, the superb house on Scott Circle known 
 as '' Broadhead's Folly," after the man who built 
 it and ruined himself in so doin<;, is said to be 
 an ideally peaceful and happy one, given up to 
 study and efforts to alleviate the troubles of the 
 deaf and dumb. 
 
 As in the case of most inventions of such im- 
 mense vr.lue as the telephone, a fortune has had 
 to be spent in order to protect the patent rights; 
 but in Bell's case the inventor's money reward 
 has been ample and is now said to amount to more 
 than $1,000,000 a year. Just at present Mr. Bell 
 is engaged upon a modification of the phono- 
 graph, which may enable persons not wholly 
 deaf to hear a phonographic reproduction of the 
 human voice, even if they cannot hear the voice 
 itself. Honors have poured in upon him within 
 the last fifteen years. In 1880 the French Gov- 
 ernment awarded him the Volta prize of $10,000, 
 which Mr. Bell devoted to founding the Volta 
 Laboratory in Washington, an institution for the 
 use of students. In 1882 he also received from 
 France the ribbon of the Legion of Honor. 
 
XI. 
 
 AMERICAN INVENTORS, PAST AND 
 
 PRESENT. 
 
 flip 
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 There arc now in force in this country nearly 
 tliree hundred thousand patents for inventions 
 and devices of more or less importance and aid 
 to everyone. To how f^reat a degree the world 
 is indebted to the inventor, very few of us real- 
 ize. The more we think of the matter, however, 
 the more arc we likely to believe that the in- 
 ventor is mankind's great benefactor. Watt 
 should stand before Napoleon in the hero- 
 worship of the age, and the man who perfected 
 the friction-match before the author of an epic. 
 Some day this redistribution of the world's 
 honors will surely take place, and it should be a 
 satisfaction to us Americans that our country 
 stands so high in the ranks of inventive genius. 
 Within the last half century Americans have 
 contributed, to mention only great achievements, 
 the telegraph, the telephone, the electric light, 
 the sewing-machine, the reaper, and vulcanized 
 rubber, to the world's wealth — a far larger con- 
 tribution than that of any other nation. What 
 may not the next generation produce? Some 
 people seem to believe that so much has already 
 been invented as to have exhausted the field. In 
 
PAST AND PUESKNT 
 
 «71 
 
 this connection I have quoted in another place 
 some remarks Mr. Edison once made to me as 
 to what the next fifty years might bring forth. 
 wStill more astonishing tlian our past fecundity 
 in invention would be future barrenness. This 
 century has done its work and produced its 
 marvels with comparatively blunt tools, or no 
 t(j()ls at all. The next century will be able to 
 work with superb instruments of which our 
 grandfathers knew nothing. The school-boy to- 
 day knows more of the forces of nature and their 
 useful application than the magician of fifty years 
 ago. It has been said that the fifteen blocks in 
 the " Gem " puzzle can be arranged in more than 
 a million different ways. The material in the 
 game at which man daily plays is so infinitely 
 more complex that the number of combi- 
 nations cannot be written out in figures. The 
 role played by invention in modern life is 
 infinitely greater than during preceding ages. 
 One invention, by affording a new tool, makes 
 others possible. The steam-engine made pos- 
 sible the dynamo, the dynamo made possible the 
 electric light. In its turn the electric light may 
 lead to wonders still more extraordinary. 
 
 The degree to which invention has contributed 
 to civilization is far from suspected by the care- 
 less observer. Almost everything we have or 
 use is the fruit of invention. Man might be de- 
 fined as the animal that invents. The air we 
 breathe and the water we drink are jjrovided by 
 Nature, but we drink water from a vessel of 
 some kind, an invention of man. Even if we 
 
>, : ( 
 
 i ■ 
 
 272 
 
 INVENTOna 
 
 '><■ i!:" 
 
 1 1' 
 
 drink from a shell or a gourd, \vc shape it to 
 serve a new purpose. If we want our air hot- 
 ter or colder, we resort to invention, and a vast 
 amount of inj^enuity has been expended upon put- 
 tin<^ air in motion by means of fans, blowers, 
 ventilators, etc. We take but a small part of our 
 food as animals do — in the natural state. The 
 savaji^e who first crushed some kernels of wheat 
 between two stones invented flour, and we are 
 yet hard at it inventing improvements upon his 
 process. The earliest inventions probably had 
 reference to the procuring and preparing of 
 food, and the ingenuity of man is still exercised 
 upon these problems more eagerly than ever be- 
 fore. During the last fifty years the power of 
 man to produce food has increased more than 
 during the preceding fifteen centuries. Sixty 
 years ago a large part of the wheat and other 
 grain raised in the world was cut, a handful at a 
 time, with a scythe, and a man could not reap 
 much more than a quarter of an acre a day. 
 With a McCormick reaper a man and two horses 
 will cut from fifteen to twenty acres of grain a 
 day. In the threshing of grain, invention has 
 achieved almost as much. A man with a ma- 
 chine will thresh ten times as much as he for- 
 merly could with a flail. 
 
 It is less than sixty years since matches have 
 come into common use. Many old men remem- 
 ber the time in this country when a fire could be 
 kindled only with the embers from another fire, 
 as there were no such things as matches. Most 
 of us who have reached the age of forty remem- 
 
PAST AND PliKSKNV 
 
 273 
 
 i 
 
 ber the abominable, clumsy sulphur-matches of 
 i860, as bulky as they were unpleasant. And yet 
 the first sulphur-matches, made about 1S30, cost 
 ten cents a hundred. To-day the safety match, 
 certain and odorless, is sold at one-tenth of this 
 price. The introduction of kerosene was one 
 of the blessinj^s of modern life. It added sev- 
 eral hours a day to the useful, intelligent life 
 of man, and who can estimate the influence of 
 these eveninj^ hours upon the advance of civiliza- 
 tion ? The evening, after the day's work is done, 
 has been the only hour when the workingman 
 could read. Before cheap and good lights were 
 given him, reading was out of the question. Gas 
 marked a step in advance, but only for large 
 towns, and now electricity bids fair soon to dis- 
 place gas ; and we hear vague suggestions of a 
 luminous ether that will flood houses with a soft 
 glow like that of sunlight. 
 
 or- 
 
 be 
 ire, 
 ost 
 ;m- 
 
 TOVVNSEND AND DrAKE: — TlIK 
 
 OF Coal Oil. 
 
 Introduction 
 
 In 1850 sperm oil, then commonly used in 
 lamps, had become high-priced, owing to the 
 failure of the New Bedford whalers, and cost 
 $2.25 a gallon. Oil obtained by the distillation 
 of coal was tried, but was also too costly — 
 not less than $1 a gallon. It burned well, 
 but its odor was frightful. The |)roblem of a 
 cheap and pleasant light was solved by James M. 
 Townsend and E. L. Drake, both of New Haven. 
 18 
 

 274 
 
 INVKNTonS 
 
 III 1854 a mail l)r()u<^lit to Professor Silliman, of 
 Yale, some oil from Oil Creek, l\i., to be tested. 
 His report was so favorable that a company 
 was formed, wliicli leased all the land along Oil 
 Creek upon which were traces of the new rock 
 oil. The hard times of 1857 came before any 
 headway had been made, and the company tried 
 to find some way of ridding itself of the lease. 
 At this time Townsend, who knew something 
 about the property, undertook to get possession. 
 Boarding in the same house in New Haven was 
 E. L. Drake, once a conductor on the New York 
 cS: New Haven Railroad, who had been obliged 
 to give up work on account of ill-b ">lth. Town- 
 send proposed that as Drake could get railroad 
 passes as an ex-employec, he should go to Penn- 
 sylvania and look into the property. He did so, 
 and reported that a fortune might be made by 
 gathering the oil and bottling it for medicinal 
 purposes. Drake and Townsend 6rganized the 
 Seneca Oil Company. The oil was gathered 
 by digging trenches, and was sold at %\ a 
 gallon. Drake suggested that it might be well 
 to bore for oil. A man familiar with salt-well 
 boring was brought from Syracuse, and in 1859 
 the first well was begun at Titusville under the 
 supervision of Drake. He was commonly con- 
 sidered by the neighbors to be insane. The 
 work was costly and slow. When many months 
 and about $50,000 had been spent, the stockhold- 
 ers in the company refused to go any further — 
 all except Townsend, who sent his last $500 to 
 Drake, with instructions to use it in paying 
 
PAST AM) PJifCShWr 
 
 liTr. 
 
 debts and his expenses in reachin<j[ home. On 
 the day before the receipt of this money — 
 August 29, 1859 — tlie aii^er, whieli was (h)\vn 
 sixty-ei<;ht feet, struck a cavity, and up came a 
 flow of oil that tilled tiie well to within five feet 
 of the surface. I'umpini^ be^an at the rate of 
 five hundred gallons a day, and a more power- 
 ful pump doubled this flow. As this oil was 
 worth a dollar a j^allon, fortune was within siij^ht. 
 But the very quantity of the oil proved to be the 
 company's ruin. Their works were destroyed 
 by tire in the winter of 1859-60, and before they 
 could be rebuilt, scores of other wells, some of 
 them rcquirinj^ no pumpini^ apparatus, had been 
 sunk in the neii^hborhood. The supply was soon 
 far in excess of tlv* demand, which was limited 
 by the small number of refineries, the want of 
 good lamps in which to burn the oil, and the at- 
 tacks by manufacturers of other oils. Such was 
 the effect of these causes that the new oil fell to 
 a dollar a barrel, a price so low that it did not 
 pay for the handling. The Seneca Oil Company 
 was so much discouraged that they sold out 
 their leases and disbanded. Both Townsencl and 
 Drake would have died richer men had they 
 never heard of the Pennsylvania rock oil. 
 
 The Clarks and the Telescope. 
 
 The fame of American telescopes is due to the 
 work and inventions of the Clark family of Cam- 
 bridgeport, Mass., the descendants of Thomas 
 
270 
 
 I A VENTOIiS 
 
 ii** > 
 
 p 
 
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 in 
 
 Ml {I 
 
 Clark, the mate of the Mayflower. The foun- 
 der of the great — in a scientific sense — house of 
 Alvan Clark cS[ Sons, telescope-makers, was a re- 
 markable man. Until after his fortieth year he 
 devoted himself to portrait-painting. In 1843 
 his attention was accidentally turned toward 
 telescope-making. One day the dinner-bell at 
 
 Alvan Clark. 
 
 Phillips Academy, Andover, Mass., happened to 
 break. The pieces were gathered up by one of 
 Clark's boys, George, who proceeded to melt 
 them in a crucible over the kitchen fire, declar- 
 ing that he was going to make a telescope. His 
 mother laughed, but his father was deeply in- 
 terested and helped the boy make a five-inch 
 reflecting telescope which showed the satellites 
 of Jupiter. This was the beginning of telescope- 
 
PAST AND nUKSHNT 
 
 277 
 
 making in the Clark family, an industry which 
 has given to the scientific world its most remark- 
 able lenses. Alvan Clark dropped his paint- 
 brushes, never to take them up again until at the 
 age of eighty-three he made an excellent portrait 
 of his little grandson. To Alvan G. Clark, the 
 present head of the house, are chiefly due the 
 scores of devices by which American ingenuity 
 has surpassed the slower European methods. 
 The delicacy required in the manipulation and 
 grinding of the immense lenses made by the 
 Clarks is almost incredible. The latest triumph 
 of the firm— a forty-inch lens for the Spence 
 Observatory at Los Angeles, Cal.— required two 
 years of grinding and polishing after a piece of 
 glass perfect enough had been obtained. So 
 delicately finished is it that half a dozen sharp 
 rubs with the soft part of a man's thumb would 
 be sufficient to ruin it. Alvan G. Clark is now a 
 man sixty-one years old. He has lived all his 
 life at the home in Cambridgeport. His great- 
 est sorrow is that there is no son of his to carry 
 on the work after his death. His only son died 
 a few years ago, just as he was beginning to show 
 wonderful aptitude in the art which has made 
 the family famous in all the great observatories 
 of the world. 
 
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 III 
 
 278 
 
 INVKNTOUS 
 
 John Fitch and Oliver Evans — Steam 
 Transportation. 
 
 In l()(3king over the work done by American 
 inventors, the great names are those to be founci 
 at the heads of the preceding chapters. But 
 the list is by no means exhausted. Among the 
 early men of achievement in the field ot inven- 
 tion I have had to omit at least a dozen whose 
 work deserves more than a paragraph. The 
 history of the steamboat is not complete with- 
 out reference to John Fitch. 
 
 Fulton was fortunate in making the first really 
 successful attempt at propelling boats by steam, 
 but Fitch came very near reaping the honors 
 for this invention. The account of Fitch's life 
 and experiments, written by himself and now in 
 the possession of the Franklin Library of Phil- 
 adelphia, clearly shows that this unhappy genius 
 really deserves to share in Fulton's glory. Fitch 
 was born in Connecticut, in January, 1743, more 
 than twenty years before Fulton. He was a 
 farmer's boy and picked up knowledge as best 
 he could. Before he was twenty he had learned 
 clock-making and then button-making. It was 
 in 1788 that he obtained his first patent for a 
 steamboat. His experimental boat was an ex- 
 traordinary affair, fully described in the Cohun- 
 ^/rt-v (Philadelphia) Magazine for December, 1786. 
 Its motive power consisted of a clumsy engine 
 that moved horizontal bars, upf)n which were 
 
PAST AND PRKSh\\T 
 
 279 
 
 fastened a number of oars or paddles. So far as 
 possible the machine imitated the movements of 
 a man rowing. This boat mack' eight miles an 
 hour in calm water. Finding nothing but ridi- 
 cule for his i)r()ject here, as his steamboat cost 
 too much money to run as a commercial under- 
 taking, Fitch went to Europe, and was equally 
 unsuccessful there. There is still in existence 
 a letter from him in wiiich he predicts that 
 steam would some day carry vessels across 
 the Atlantic. He died in 1796, without hav- 
 ing contributed more than a curiosity to the 
 art of steam navigation. 
 
 Another early inventor was Oliver Evans, who 
 has been called the Watt of America. In 1804 
 Evans offered to build for the Lancaster Turn- 
 pike Company a steam-carriage to carry one 
 hundred barrels of Hour hfty miles in twenty- 
 four hours. The offer was derided. Here is one 
 of Evans's predictions written at about this time : 
 *' The time will come when people will travel in 
 stages, moved by steam-engines, from one city 
 to another, almost as fast as birds fly, fifteen or 
 twenty miles an hour. Passing through the air 
 with such velocity, changing the scene with 
 such rapid succession, will be the most rapid, 
 exhilarating exercise. A carriage (steam) will 
 set out from Washington in the morning, 
 the passengers will breakfast at Baltimore, dine 
 at Philadelphia, and sup in New York the same 
 day. To accomplish this, two sets of railways 
 will be laid so nearly level as not in any way to 
 deviate more than two degrees from a horizon- 
 
280 
 
 IN VKNTOUS 
 
 II 
 
 
 tal line, made of wood, or iron, or smooth paths 
 of broken stone or gravel, with a rail to guide the 
 carriages so that they may pass each other in 
 different directions and travel by night as well 
 as by day. Engines will drive boats ten or 
 twelve miles per hour, and there will be many 
 hundred steamboats running on the Mississippi." 
 In 1805 Evans built a steam -carriage propelled 
 by a sort of paddle-wheel at the stern, the pad- 
 dles touching the ground. This apparatus he 
 named the " Oructor Amphibolis," and it is be- 
 lieved to have been the first application of steam 
 in America to the propelling of land carriages. 
 He died in 18 19 without having seen his steam- 
 carriage come to anything practicable. He 
 made a fortune, however, from some patents upon 
 flour-mill improvements. 
 
 Amos Wiiittemore and Thomas Blanchard. 
 
 *■ "j 
 
 In the domain of textile fabrics Amos Whitte- 
 more, the Massachusetts inventor of the card- 
 machine, which did away with the old-fashioned 
 method of making cards for cotton and woollen 
 factories, must be mentioned. Before Whitte- 
 more's machine came into use, about 181 2, such 
 cards were made by hand, the laborer sticking 
 one by one into sheets of leather the wire staples, 
 which operation gave work to thousands of 
 families in New England early in the century. 
 Whittemore made a fortune by his invention, and 
 devoted the last years of his life to astronomy. 
 
PAST AN J) PRESENT 
 
 281 
 
 ard 
 
 Another Massachusetts boy, Tliomas Blanch- 
 invented the hithe for turning; irregular 
 
 in 
 
 ()l)jccts, and well deserves mention. Born i 
 1788, he was noted as a boy for his efficiency in 
 the New England accomplishment of whittling, 
 mailing wonderful windmills and water-wheels 
 with his knife. When thirteen years old he made 
 an apple-paring machine, with which at the " par- 
 ing bees " held in the neighborhood he could 
 
 accomplisn more tnan a dozen girls. J^oon alter 
 this achievement he began helping his brother in 
 the manufacture of tacks. The operation con- 
 sisted in stamping them out from a thin plate of 
 iron, after which they were taken up, one at a 
 time, with the thumb and finger and caught in 
 a tool worked by the foot, while a blow given 
 simultaneously with a hammer held in the right 
 hand made a flat head of the large end of the 
 tack projecting above the face of the vise. This 
 was the only method then known, and it was so 
 slow and irksome that young Blanchard often 
 grew disgusted. As a daily task he was given a 
 certain quantity of tacks to make, which number 
 was ascertained by counting. Finding this much 
 trouble, he constructed a counting-machine, con- 
 sisting of a ratchet-wheel which moved one tooth 
 every time the jaws of the heading tcjol or 
 vise moved in the process of making a tack. 
 From this achievement he passed to a tack ma- 
 chine, and after six years of hard work turned 
 out an apparatus that made five hundred tacks 
 a minute. He sold his patent for the trifle of 
 $5,000. 
 

 282 
 
 INVENTORS 
 
 pi; 
 
 Mh 
 
 With part of this money he began his experi- 
 ments in turning musket-barrels, an operation 
 that was simple enough except at the breech, 
 where the flat and oval sides had to be ground 
 down or chipped. Blanchard made a lathe that 
 turned the whole barrel satisfactorily. While 
 exhibiting his new lathe at the United States 
 Armory at Springfield, occurred the incident 
 that led to Blanchard's great device for turning 
 irregular forms. One of the men employed in 
 cutting musket-stocks remarked that Blanchard 
 could never spoil his job, for he could not turn a 
 gun-stock. The remark struck Blanchard, who 
 replied, " I am not so sure of that, but will think 
 of it a while." The result of six months' study 
 was the lathe with which such articles as gun- 
 stocks, shoe-lasts, hat-blocks, tackle-blocks, axe- 
 handles, wig-blocks, and a thousand other objects 
 of irregular shape may now be turned. While 
 at Washington getting his patent, Blanchard 
 exhibited his machine at the War Office, where 
 many heads of departments had assembled. 
 Among the rest was a navy commissioner, who, 
 after listening to Blanchard, remarked to the in- 
 ventor : " Can you turn a seventy-four ? " 
 
 " Yes," was the reply, " if you will furnish the 
 block." Blanchard afterward made many inter- 
 esting experiments in steam-carriages, but his 
 chief claim to fame rests upon his lathe. 
 
 :?■- . 
 
PAtST AND PUEHENT 
 
 283 
 
 Richard M. Hoe and the Web-Press. 
 
 From the end of the first half of this century 
 date movements of extraordinary importance in 
 the world of American invention. The locomo- 
 tive, the steam-engine and steam-boat, the tele- 
 graph, reaping-machine, the printing-press, all 
 seemed to reach an era of wide usefulness at 
 about the same time. It was in 1814 that Walters 
 first printed the London Times by steam, the 
 sullen pressmen standing around waiting for a 
 pretext to destroy the machinery, and only pre- 
 vented by strategy from doing so. About thirty 
 years afterward Richard M. Hoe first turned 
 his attention to the improvement of printing- 
 presses. The founder of the famous house of 
 printing-press makers, Robert Hoe, was born in 
 England. His son, Richard March Hoe, was 
 born in New York on the 12th of September, 
 18 1 2. He made his first press in 1840, when he 
 turned out the machine known as " Hoe's Double- 
 cylinder," which was capable of making about six 
 thousand impressions an hour, and was the ad- 
 miration of all the printers in the city. So long 
 as the newspaper circulation knew no great in- 
 crease this wonderful press was all-sufficient ; but 
 the greater the supply the greater grew the 
 demand, and a printing-press capable of striking 
 off papers with greater rapidity was felt to be 
 an imperative need. It was often necessary to 
 hold the forms back until nearly daylight for 
 
nt 
 
 284 
 
 INVENTORS 
 
 ■,a 
 
 -v^' 
 
 the purpose of getting the hitest news, and the 
 work of printing the paper had to be done in a 
 very few hours. In 1842 Hoe began to experi- 
 ment for the purpose of getting greater speed. 
 There were many difihculties in the way, iiow- 
 ever, and at the end of four years of experiment- 
 ing he was about ready to confess that the ob- 
 stacles were insurmountable. One night in 1846, 
 while still in this mood, he resumed his experi- 
 ments ; the more he reviewed the problem, the 
 more difficult it seemed. In despair he was about 
 to give it up for the night, when there flashed 
 across his brain a plan for securing the type on 
 the surface of a cylinder. This was the solution 
 of the problem, and within a year our leading 
 newspapers had their " Lightning " presses, in 
 which from four to ten cylinders were used to 
 feed sheets of paper against the surface of the 
 type as it flew around. So recently as 1870 the 
 ten-cylinder Hoe press, printing twenty - five 
 thousand sheets an hour, was considered a mar- 
 vel. 
 
 Then came the perfecting press, a far smaller 
 machine, but capable of five times as much work, 
 thanks to the substitution of rolls of paper for 
 separate sheets fed in one by one. The device 
 by which the web of paper after being printed 
 on one side is turned over and printed on the 
 other side in the same machine was another 
 triumph of American ingenuity. Stereotyping 
 made it possible to print from a dozen presses 
 at the same time without the trouble of setting 
 up new type, and inventions for pasting, folding, 
 
I'AST AND PlWtiENT 
 
 2S5 
 
 and counting the papers still further increased 
 the speed at which papers may be issued, wliile 
 at the same time decreasing tlie number of men 
 employed as pressmen. In 1865 it required the 
 services of twenty-six men and boys to print 
 and fold twenty-five thousand copies of an ciglit- 
 page paper in an hour. To-day a perfecting 
 press, with the aid of four men, does four times 
 as much work. It has been recently estimated 
 that to print, paste, and fold the Sunday edition 
 of one of the great newspapers with the ma- 
 chinery of 1865 would require the services of 
 five hundred persons. 
 
 Thomas W. Harvey and Screw-making. 
 
 The gimlet-pointed screw patented in 1838 by 
 Thomas W. Harvey, of Providence, R. I., is a 
 marked instance of an improvement so useful that 
 we can scarcely realize that less than fifty years 
 ago such screws were unknown to the carpenter, 
 for it was not until 1846 that Harvey succeeded 
 in getting people to abandon the old blunt-ended 
 screw that we now occasionally find in build- 
 ings put up before 1850. Harvey was a Vermont 
 boy, born in 1795. His faculty for the invention 
 of machinery for screw-making and other pur- 
 poses gave him and his associates and successors 
 — Angell, Sloan, and Whipple — great fortunes 
 according to the estimate of that day. He died 
 in 1856. 
 
28(1 
 
 INVENTOm 
 
 i 
 
 II; 
 
 ID 
 
 i" 
 
 "I, 
 
 
 
 % 
 
 III; 
 
 m 
 
 ^'^mi . 
 
 C. L. SlIOLES ANIJ THK Tvi'ICWKITER. 
 
 A j^reat many men contributed to make the 
 typewriter wliat it is to-day — as much of an ini- 
 
 
 C. L. Sholes. 
 
 provement upon the pen as the sewing-machine 
 is upon the needle. So long ago as 1843 some 
 patents were taken out for divers forms of writ- 
 ing-machines, all more or less impracticable. It 
 was not until C. L. Sholes, then of Wisconsin, 
 
 , V 
 
 
i'J*s7' AND PRKSKNT 
 
 2«7 
 
 took up the problem, in 1866, that the present 
 form of a number of type-bars, arran^^cd so that 
 their ends strike upon a common centre, was de- 
 vised. Sholes died in 1890. having also helped 
 by many mmor devices the increase in the use of 
 writing-machines. From 1865 to 1873 he made 
 thirty different working models of writing-ma- 
 chines, devoting himself to the task almost day 
 and night for eight years. 
 
 B. B. HoTciiKiss AND iiis Guxs. 
 
 American inventors have had, as a rule, but 
 small success in making Europe see the value of 
 their inventions before this country has proved 
 it. Morse could get neither England nor France 
 to take an interest in his telegraph schemes, and 
 at a later day, Bell's telephone was received 
 in England as a curious device, but not worth 
 investing money in. An exception to this rule 
 may be found, however, in the case of B. B. 
 Hotchkiss, a Connecticut inventor, who during 
 the civil war conceived the idea of a breecir. 
 loading cannon. In 1869 Hotchkiss mounted 
 one of his small guns in the Brooklyn Navv- 
 yard, but found no encouragement to experi- 
 ment further. The Franco-German war found 
 him in Europe with a breech-loading gun that 
 would throw shells. His success was such that 
 there is not a civilized country where Hotchkiss 
 guns, throwing light shells with a rapidity not 
 dreamed of years ago, are not now in use. The 
 
m 
 
 ^ 
 
 288 
 
 INVKNTOliS 
 
 inventor has made a lar^e fortune and has had 
 the pleasure of scndinj^ to this country a numlicr 
 of guns for our cruisers, the Atlanta, the Boston, 
 
 B B Hotchkis*. 
 
 the Chicago, and the Dolphin. So great is the 
 rapidity, accuracy, and power of these Hotch- 
 kiss rapid-fire guns that some experts expect to 
 see two-thirds of an action fought with these or 
 similar pieces, which they thfnk will silence and 
 put out of action all the heavy guns in a few 
 minutes after the enemies come within fifteen 
 hundred yards of each other. For instance, the 
 latest piece is a six-pounder, which, with smoke- 
 less powder, has a range of five thousand yards 
 and an effective ^ghting range of one thousand 
 yards, within which distance a target the size of 
 a six-inch gun can be hit nearly every time and 
 
PAS7' AM) Hih'ShWT 
 
 L\SH 
 
 five inches of wiouirht in,,, pcrlnrated. A speed 
 in firing of twenty-fivc shots a minute has been 
 attained. 
 
 Charles F, Brush and the Dynamo. 
 
 A trifling incident revealed to an Italian sa- 
 vant the fact that when two metals and the 
 leg of a frog came into contact the muscles 
 of the leg contracted. The galvanic battery 
 resulted. Years later another observer discov- 
 ered that if a wire carrying a current of electric- 
 ity was wound around a piece of soft iron the 
 latter became a magnet. Out of these simple 
 discoveries have arisen the telegraph, tlic tele- 
 phone, and a host of inventions depending upon 
 electricity. And to-day, with all the wonders 
 accomplished in this field, we are yet upon the 
 threshold of the enchanted palace that electricity 
 is about to open to us. Through its aid we shall 
 one day enjoy light, heat, and power almost as 
 freely as we now enjoy air. The crops will be 
 planted, watered, cultivated, gathered, and trans- 
 ported to the uttermost ends of the earth by 
 electricity. The steam-engine is said to do the 
 work of two hundred million men, and to have 
 been the chief agent in reducing the averac^e 
 working hours of men in the civilized world hi 
 this century from fourteen hours a day to ten 
 But electricity, according to even conservative 
 judges, will accomplish infinitely more. It will 
 make possible the harnessing of vast forces of 
 19 
 
'2^0 
 
 lyvhwrons 
 
 tn 
 
 \i 
 I) 
 
 III 
 
 ¥ 
 
 till: 
 
 nature, such as the falls of Niai^ara, because the 
 electric current can be transported from place to 
 place at small cost and it is easily transformed 
 into light or power or heat. Within a few 
 months we shall see the first results of the great 
 work at Niagara. Before many years the power 
 of the tides is certain to be used along the sea- 
 
 Charlet F. Brush. 
 
 board for producing electricity. Here is a force 
 equal to that of a million Niagaras going to 
 waste. 
 
 The late Clerk Maxwell, when asked by a dis- 
 tinguished scientist what was the greatest scien- 
 tific discovery of the last half-century, replied : 
 ** That the Gramme machine is reversible." In 
 other words, that power will not only produce 
 electricity, but that electricity will produce 
 
 
1-u-er. By turnino- a ^i.. „.|,,.^.| ^^^ _^ 
 
 can produce an electric cu.rent that «"n ura 
 another wheel for „= fif. ^""l win turn 
 
 hundred miles away The f' '"' '•"'"''"' '"'" 
 irreif nnh;„ " , ''y'lamo is one of the 
 
 isr h' r ar^eif o'''\ '" ^''^'^ ^;'--'- 
 
 ^elf »r,-fK '-i^^ eland, O., has devoted him- 
 
 Lrl ; u?^' '" '^"''"''^ Township near Clove- 
 and, and hts early years were spent on hfs 
 atl er s farm. When fourteen years old he «c, 
 
 Cle '7"^ u ■'';'""' « Collamc^, and later to tl e 
 Cleveland High-school, and as early as ,86' d il 
 
 •"Id batteries for the high-school. D„rin„- |„s 
 ~ i„ ^,^ high-school. the chemi;:T ad 
 
 was placed under his charge. In this vear Ur 
 constructed an electric motor havinl { L Id 
 
 N .sed an apparatus for turning on the o-as /, IZ 
 street-lamps of Cleveland, ILHifin^ it nnf . 
 toffa0-ain \v\ 1 '■■'"""? "and turniiiff 
 
 he entfreH* xr . ''" ^'"' "'^'^^^^" vears of a^e 
 ne entered Michigan University at Ann \ i 
 
 and, following his nartirnlnKV'. ^^^^''''■• 
 
 ^ i^^^^^'^'^^'ar bent, was p-rifhinf^ri 
 
 as a mining- enHneer in ^^r^ ^ as graduated 
 
 0f^h.e■ass^.e1.,n■n;;;«tr,i■rS 
 
 te'esTe] inX'^""', "'"'"'-' -"' --^-- 
 iiicerested in the iron business Fn i9..r r i . 
 
 attention was first called to e ectridt h' f " 
 
 W c*^ 11. cKLtiiLity bv Creoro-^' 
 
 » . btockly, who suggested that there was ai'm' 
 
•292 
 
 L\ VKNTOliH 
 
 M 
 
 III 
 <<l 
 
 •Ml 
 
 I 
 
 I 
 
 ^ 
 
 ii 
 
 
 till, 
 
 5||| 
 
 mense field ready tor a cheaper and more easil}' 
 managed dynamo tiian the Gramme or Siemens, 
 the best types then known. Stockly, who was in- 
 terested in the Telegraph Supply Company, of 
 Cleveland, agreed to undertake the manufacture 
 of such a machine if one was devised. In two 
 months Brush made a dynamo so perfect in every 
 way that it was running until it was taken to the 
 World's Fair in 1893. Having made a good dy- 
 namo, the next step was a better lamp than those 
 in use. Six months of experimenting resulted in 
 the Brush arc light. Stockly was so well satisfied 
 with the commercial value of these inventions 
 that the Telegraph Supply Company, a small 
 concern then employing about twenty-five men, 
 was reorganized in 1879, as the Brush Electric 
 Company. IniSSothe Brush Company put its 
 first lights into New York Citv, and it has since 
 extended the svstem until there is scarcely a 
 town in the country where the light may not be 
 found. Besides dynamos and lamps, the im- 
 mense establishment at Cleveland employs its 
 twelve hundred men in making carbons, storage- 
 batteries, and electro-plating apparatus. Mr. 
 Brush is a self-taught mechanic, able to do any 
 work of his shops in a manner equal to that of 
 an expert. He is intensely practical, never over- 
 sanguine, and an excellent business man. If a 
 delicate piece of work is to be done for the first 
 time, he will probably do it with his own hands. 
 He is not fond of experiment for the experi- 
 ment's sake ; he wants to see the practical utility 
 of the aim in view before devoting time to its at- 
 
PAST AND PRE SENT 
 
 293 
 
 tainmcnt. Of the scores of patents he has taken 
 out, two-thirds are said to pay him a revenue. 
 In 1881, at the Paris Electrical Exposition, Brush 
 received the ribbon of the Legion of Honor. 
 In personal appearance there is nothing of tlic 
 round-shouldered, impecunious, studious inven- 
 tor about him. He is six feet or more in height, 
 and so fine a specimen of manhood that Gam- 
 betta, the French statesman, once remarked that 
 the man impressed him quite as much as the 
 inventor. 
 
 ElCKEMEYER AND HiS MOTOR. 
 
 In the same field of electricity, as applied to 
 every-day life, a Bavarian by birth, but an Amer- 
 ican by adoption, Rudolf Eickemeyer, of Yon- 
 kers, has done some valuable work in devising 
 a useful form of dynamo. His machines are 
 now used almost exclusively for elevators and 
 hoisting apparatus, one large firm of elevator 
 builders having put in no less than six hundred 
 Eickemeyer motors within the last four years. 
 As electricity becomes more and moie useful 
 for small powers, such as lathes, pumps, and ele- 
 vators, an efifective and simple motor becomes 
 of the utmost importance. Rudolf Eickemeyer 
 was born in October, 1831, at Kaiserslautern, 
 Bavaria, where his father was employed as a 
 forester. He was educated at the Darmstadt 
 Polytechnic Institute and at once showed a pre- 
 dilection for scientific work. When still a boy 
 
li'l 
 
 294 
 
 INVENTORS 
 
 III 
 1" 
 
 Mil 
 
 ♦'Ml 
 ill 
 
 m 
 
 he joined the Revolutionists under Siegel, and 
 after the upheaval of 1848 came here with Siegel, 
 Carl Schurz, and George Osterheld, the latter 
 afterward becoming, his partner. The young 
 man's first work here was as an engineer on the 
 Erie Railroad line, then building. In 1854 he es- 
 tablished himself in Yonkers in the business of 
 repairing the tools used in the many hat-shops of 
 that already flourishing city. The next twenty 
 years of his life were devoted to inventions and 
 improvements in every branch of hat-making. 
 His shaving-machines, stretchers, blockers, press- 
 
 Rudolph Eickerreyer, 
 
 ers, ironers, and sewing-machines substituted 
 mechanism for laborious and slow methods of 
 hand work. At the beginning of the war Eicke- 
 meyer was quick to see the opportunity for 
 
PAST AND PRESENT 
 
 295 
 
 turning his factory to other uses, and vast quan- 
 tities of revolvers were made there. When that 
 industry declined, he took up the manufacture 
 of mowing-machines, having invented a driving 
 mechanism for such machines that met witli 
 wide favor. The introduction of the Bell tele- 
 phone in Yonkers first turned Eickemeyer's at- 
 tention to electricity, and for the last ten years 
 he has devoted himself almost exclusively to the 
 invention and manufacture of electric motors. 
 His first successful invention in this field was a 
 dynamo to furnish light for railroad trains. 
 From this he was led to the invention of a dyna- 
 mo capable of doing effective work at much 
 lower speed than that usually employed, and 
 this has proved to be his most valuable achieve- 
 ment. Some improvements in winding the arma- 
 tures have also been accepted as valuable and 
 adopted by other manufacturers. In connection 
 with storage batteries Mr. Eickemeyer has also 
 done a good deal of interesting work. But he 
 is chiefly known to the electrical world as the 
 inventor of a most useful dynamo for power 
 purposes. For the last forty years he has been 
 one of the men who have most aided in the 
 growth of Yonkers, taking great interest in all 
 questions pertaining to its government and 
 school system. He was married in 1856 to 
 Mary T. Tarbell, of Dover, Me., and his eldest 
 son, Rudolf Eickemeyer, Jr., is associated with 
 him in business. 
 
296 
 
 INVENTORS 
 
 III 
 I" 
 
 Sill 
 ,i'l 
 
 III 1 1 
 ill/ 
 
 '111 
 
 George Westinghouse, Jr., and the Air- 
 brake. 
 
 George Westinghouse, Jr., to whom is due the 
 railroad air-brake, and who was also largely in- 
 strumental in revolutionizing Pittsburgh by the 
 introduction of natural gas, was born at Cen- 
 
 George Westinghouse, Jr. 
 
 tral Bridge, in Schoharie County, N. Y., in 1846. 
 His father was a builder and, later, superinten- 
 dent of the Schenectady Agricultural Works, 
 and it was in the shops of these works that the 
 boy found his vocation. Before he was fifteen 
 he had modelled and built a steam engine. The 
 
PAST AND I'UHSKNT 
 
 207 
 
 war took him away from work in 1864, but whci. 
 that was over he returned to Schenectady and 
 although yet in his teens, he began to attempt 
 improvements upon every device that presented 
 Itself. Sometmies he was successful. Amons 
 one of his first valuable achievements was a 
 steel railroad frog that resulted in a good deal 
 ?L^°"fJ.t"'^. '"/T" "-eputation. This was i„ 
 if u ^^ ,'," P'"^burgh making his frogs, 
 which sold well, he one day came across a news- 
 paper account of the successful use of com 
 pressed air in piercing the Mont Cenis tunnel 
 His success in the field of railroad appliances 
 had led him to study the question of better 
 brakes and the suggestion of compressed air 
 came to h.m as a revelation. To stop a train by 
 the old methods was a matter of much time and 
 a tremendous expenditure of muscular enerpv 
 by the brakeman, whose e.vertions were not al- 
 wa)'s effective enough to prevent disaster. West- 
 inghouse consulted one or two friends, who were 
 inclined to ridicule the idea that a rubber tube 
 strung along under the cars could do better 
 work than the men at the brakes. Fortunately, 
 he was able to make the e.vperiment, and the air! 
 brake was speedily recognized as one of the im 
 portant inventions of the century. 
 
 When petroleum was discovered in the fields 
 near Pittsburgh, some ten years ago, Mr. West 
 inghouse was greatly interested, and at once 
 suggested that perhaps oil might be found near 
 his own home in Washington County. He de 
 cided to test the matter, and planted a derrick 
 
298 
 
 INVENTORS 
 
 III 
 
 fill 
 11 
 
 Hit 
 
 lil 
 
 on his own grounds. The drill was started in 
 December, 1883, and at a depth of 1,560 feet a 
 vein was struck, not of oil, as was anticipated, 
 but — what had not been counted upon as among 
 the contingencies — of gas. Gas was not what 
 VVestinghouse was after or wanted, but there it 
 was, and not wishing to let it run to waste, he 
 began to consider what use could be made of it. 
 Other people who had been boring for oil also 
 struck gas, which, taking fire, shot up twenty or 
 thirty feet. If such gas could be made to serve 
 foundry purposes, here was a gigantic power 
 going to waste. Within three years the business 
 grew to be an immense one. The company or- 
 ganized by Mr. VVestinghouse owned or con- 
 trolled fifty-six thousand acres, upon which were 
 one hundred wells and a distributing plant of four 
 hundred miles of pipes. Notwithstanding the 
 failure of some of the wells since then, natural 
 gas is an extraordinary boon for which Pittsburgh 
 has to thank Mr. Westinghouse. Of late years 
 this inventor's energies have been turned toward 
 electric machinery for lighting and power, espe- 
 cially as applied to railroad purposes, and a num- 
 ber of useful devices have resulted. Mr. West- 
 inghouse is still in the prime of life and is activity 
 personified. He makes his home in Pittsburgh, 
 and is naturally looked upon as one of its lead- 
 ing spirits. 
 
 The field of electric invention is so vast and so 
 actively worked that one cannot take up a news- 
 paper without finding reference to some new 
 
PAST AND PRKSKNT 
 
 200 
 
 achievement made possible by this wonderful 
 agent, whose real powers were unsuspected fifty 
 years ago. Aside from the direct value of these 
 inventions in promoting the comfort and increas- 
 ing the wealth of the country there is another 
 factor to be considered having the most vital re- 
 lation to the industries of the country and its 
 powers of production. The large number of in- 
 ventions made in these United States implies a 
 high degree of intelligence and mental activity 
 in the great body of the people. It indicates 
 trained habits of observation and trained powers 
 of applying knowledge which has been acquired. 
 It shows an ability to turn to account the forces 
 of Nature and train them to the service of man. 
 such as has been possessed by the laborers of 
 no other country. It suggests as pertinent the 
 inquiry whether any other country is so well 
 equipped for competition in production as our 
 own ; whether in any other country the mechanic 
 is so efficient and his labor, therefore, so cheap 
 as in our own ; whether he does not exhibit the 
 seeming paradox of receiving more for his labor 
 than in any other country, and at the same time 
 doing more for what he receives. 
 
 THE END.