CONSTRUCTION WO 
 
 RURAL 
 
 AND 
 
 ■ii/ELEMENTMY 
 
 CHOOLS
 
 THE LIBRARY 
 
 OF 
 
 THE UNIVERSITY 
 
 OF CALIFORNIA 
 
 LOS ANGELES
 
 cw.^'t^ rT^t>H4I, 9r¥0()h 
 
 UNIVERSITY of^CALIFORNDT 
 
 LOS ANGELES 
 UBRARY
 
 6^ 
 4 
 
 Construction Work 
 
 FOR 
 
 Rural and Elementary 
 Schools 
 
 BY 
 
 VIRGINIA McGAW 
 
 Teacher in the Elementary Schools 
 of Baltimore 
 
 A. FLANAGAN COMPANY 
 
 CHICAGO
 
 Copyright 1909 
 
 BV 
 
 A. FLANAGAN COMPANY 
 
 %/
 
 PREFACE 
 
 In offering this volume to the public the author has but one 
 wish — namely, that it may supply a want in time of need and 
 help some one over a difficult place. 
 
 Most of the subject-matter in Parts One, Two, Three, and 
 Four was written for and has been previously published in the 
 Atlantic Educational Journal, with a view to assisting the rural 
 teacher. The present volume comprises a revision of the articles 
 published, together with a short account of one season's work in a 
 school garden, and has the same object — that of aiding the rural 
 teacher by means of a few simple suggestions. 
 
 The work is divided into five parts — "Cord Construction," 
 "Paper Construction," "Wood Construction," "Basketry," and 
 "The School Garden." No subject is dealt with at length. The 
 aim has been to give simple models that may be made without 
 elaborate preparation or special material. 
 
 Believing that a child is most likely to appreciate his tools when 
 he realizes their value or knows their history, a brief introduction 
 to each part is given, and wherever possible, the place of the 
 occupation in race history is dealt with, and an account of the 
 culture and habitat of the material is given. 
 
 As clear a statement as is possible is made of how the model is 
 constructed, and in most cases both a working drawing and a 
 picture are given. 
 
 VIRGINIA McGAW. 
 Baltimore, Maryland,
 
 ACKNOWLEDGMENTS 
 
 To the Atlantic Educational Journal for the privilege of re- 
 vising and reHnquishing the articles on Cord, Paper, Wood, and 
 Basketry. 
 
 To Mr. George M. Gaither, Supervisor of Manual Training 
 in the Public Schools of Baltimore, for five of the woodwork 
 patterns. 
 
 To President Richard W. Silvester, of the Maryland Agricul- 
 tural College, for the inspiration to write the Garden Bulletin, 
 his consent to its republication, and his hearty cooperation in its 
 revision.
 
 CONTENTS 
 
 CORD CONSTRUCTION 
 
 Introductory Remarks 9 
 
 Knots 9 
 
 1 Overhand Knot 10 
 
 2 Square Knot 10 
 
 3 "Granny" Knot 11 
 
 Chains 11 
 
 4 Loop Chain •. 11 
 
 5 Overhand Knot Chain 13 
 
 6 Solomon's Knot Chain 13 
 
 Combined Knots and Chains 15 
 
 7 Knotted Bag 15 
 
 8 Miniature Hammock — Knotted 16 
 
 9 Miniature Portiere — Knotted : 17 
 
 Weaving 17 
 
 10 Miniature Hammock — Woven 17 
 
 PzVPER CONSTRUCTION 
 
 Introductory Remarks 25 
 
 A Model Lesson 27 
 
 1 Windmill or Pin-wheel 31 
 
 2 Square Tray No. 1 31 
 
 3 Square Tray No. II 31 
 
 4 Square Box with Cover 32 
 
 5 Square or Rectangular Box 33 
 
 6 Pencil Box with Sliding Cover 35
 
 CONTENTS 
 
 7 Seed Box with Sections 37 
 
 8 Picture Frame No. I, Diagonal F'olds 37 
 
 9 Picture Frame No. II 37 
 
 10 Portfolio 40 
 
 1 1 Barn — House — Furniture 41 
 
 12 Hexagonal Tray 42 
 
 13 Lamp Shade 44 
 
 14 Star 45 
 
 15 Notebook 46 
 
 16 Bound Book 47 
 
 17 Japanese Book 49 
 
 18 Scrap-Book 50 
 
 WOOD CONSTRUCTION 
 
 Introductory Remarks 55 
 
 1 Puzzle 56 
 
 2 Plant Label 58 
 
 3 Pencil Sharpener 58 
 
 4 Match Scratch 59 
 
 5 Kite-String Winder 60 
 
 6 Thermometer Back 61 
 
 7 Pocket Pin-Cushion 61 
 
 8 Picture Frame 63 
 
 9 Japanese Box 65 
 
 10 Grandfather's Chair 66 
 
 BASKETRY 
 
 Introductory Remarks 71 
 
 Reed Construction 75 
 
 1 Napkin Ring No. 1 75 
 
 2 Napkin Ring No. II 76 
 
 3 Mat 76 
 
 4 Hamper Basket '^'
 
 CONTENTS 
 
 5 Basket Tray 79 
 
 6 Basket with Handle 81 
 
 Raffia Construction 83 
 
 7 Plaited Rope 84 
 
 8 Plaited Mat 85 
 
 9 Purse 86 
 
 10 Plaited Basket 86 
 
 11 Hat of Plaited Rope 88 
 
 12 Napkin Ring 89 
 
 13 Indian Basket 89 
 
 14 Grass Basket or Tray 91 
 
 15 Basket of Splints and Raffia 93 
 
 Combined Reed and Raffia 95 
 
 16 Umbrella 97 
 
 17 Aliniature Chair Xo. 1 97 
 
 18 ]\Iiniature Chair Xo. II 99 
 
 Rules for Caning Chairs 102 
 
 THE SCHOOL GARDEN 
 
 Introductory Remarks 107 
 
 A City School Garden 108
 
 PART I 
 CORD CONSTRUCTION
 
 CORD CONSTRUCTION 
 
 Introductory Remarks 
 
 To A child one of the most attractive of possessions is a piece 
 of cord. He has so many uses for it that it becomes part of the 
 prized contents of his pocket. Since this commodity affords so 
 much pleasure to the untrained child, how greatly may the pleas- 
 ure be enhanced if he is taught how to make the number of beauti- 
 ful things that may be wrought from cord or twine ! Having this 
 knowledge, he will unconsciously employ many otherwise weary 
 moments in fashioning some coveted article. 
 
 Among the things he can make are chains, reins, bags, nets, 
 miniature hammocks, portieres, and rugs for the dollhouse. He 
 must be guided step by step from the simplest to the more in- 
 tricate. He must be taught that only when a thing is well done 
 has it any use or value, therefore the best effort is necessary to the 
 success of his work. If he ties a knot, it must be properly tied 
 or it will not hold. If he makes a bag or a hammock, the meshes 
 must be uniform and the color blendings pleasing oi it will lack 
 beauty, and even he, himself, will not care for it. Should he make 
 a chain or reins, they ought to be attractive-looking as well as 
 useful ; hence the aim should be for artistic combination and per- 
 fect execution. The success the child will meet with will depend 
 greatly upon the attitude of the teacher toward the work and the 
 amount of spirit she may be able to infuse into it. 
 
 KNOTS 
 
 Aim — To teach the names of different knots, how they are tied, 
 and the utilitarian value of each. 
 Begin by teaching how to tie a knot, and that all knots are not 
 alike nor tied in the same way. There are three kinds of knots — 
 the overhand knot, the square knot and the "Granny" knot. 
 Each of these has its use, its place, and a utilitarian value.
 
 10 CONSTRUCTION WORK 
 
 1 Overhand Knot 
 
 Material — One 10-inch piece of heavy twine. 
 
 Hold one end of the twine firmly in the left hand and throw the 
 other end over with the right hand to form a loop ; then pass the 
 
 OVERHAND KNOT 
 
 end in the right hand under the loop ; and draw it through tightly, 
 making a firin knot. 
 
 A long piece of twine in which are tied either single knots at 
 regular intervals, or groups of three or five knots with spaces he- 
 tween, will make a chain which will delight any small child. 
 
 2 Square Knot 
 Aim — To teach how to tie a knot that will not slip. 
 Material — One 12-inch piece of heavy twine. 
 
 Take an end of the twine between the thumb and the forefinger 
 of each hand. Holding in the left hand end No. 1, pass it to the 
 right over end No. 2 ; then pass it under No. 2 ; finally, pass it out 
 and over, making the first tie. Now, holding end No. 1 firmly in 
 the right hand and end No. 2 in the left, pass No. 1 to the left 
 over No. 2, then under, out and over; draw the two ties together, 
 and you will have a firm, square knot.
 
 CORD CONSTRUCTION 
 
 11 
 
 SQUARE KNOT 
 
 3 "Granny" Knot 
 
 Aim — To teach the name of the knot one usually ties and how to 
 
 tie it. 
 Material — One 12-inch piece of heavy twine. 
 
 Take an end of the twine between the thumb and the fore- 
 finger of each hand and hold firmly. Pass end No. 1 to the 
 right over end No. 2, under and out. Next pass end No. 2 to 
 the right over end No. 1, under and out. 
 
 We now have the knot known as the "Granny," which we or- 
 dinarily tie. 
 
 CHAINS 
 
 4 Loop Chain 
 Material — One piece, 5 yards long, of macrame cord, No. 12, one 
 color. (See page 12.)
 
 12 
 
 CONSTRUCTION WORK 
 
 About five inches from one end of the cord make a short loop. 
 Using this loop as a starting-point, work up the length of the cord 
 to within about eighteen inches of the other end, by repeatedly 
 drawing a new loop through the one previously made as one does 
 in crocheting. The child can easily manipulate the cord with his 
 
 LOOP CHAIN 
 Showing how stitch is made and appearance of finished chain. 
 
 tiny fingers. Aim to have the loops of uniform size. Finish with 
 a loop five inches long, leaving an end of the same length. Now, 
 placing together the two ends of the chain, we have a loop and 
 two single ends of cord. Take these single cords together and 
 buttonhole them over the loop for about three inches, then twist. 
 Tie the single ends with a square knot, and fringe them out ; leave 
 the loop. 
 
 Instead of being fringed, the ends may have a large bead at- 
 tached to each, and a whistle may be strung on the loop. This
 
 CORD CONSTRUCTION 13 
 
 would both make the chain attractive to the child and demonstrate 
 a use for it. 
 
 5 Overhand Knot Chain 
 
 Material — Macrame cord, Xo. 12: one piece 2 yards long, white; 
 one piece 2 yards long, red. 
 Fasten the two pieces together in the middle. Pin them to a 
 board or slip them over a hook where the cord will be held firmly. 
 
 OVERHAND KXOT CHAIN 
 
 Using the overhand knot, tie each color alternately, until all ex- 
 cept about four inches of cord is used up. Taking four ends as 
 one, tie a slip-knot close up to the point where you stopped form- 
 ing the chain. Next, fringe out the four ends close up to the 
 knot. The result is a circular cord with stripes running diag- 
 onally around it, very pleasing to the eye of a child. 
 
 The lengths here given make a fob-chain about five inches long. 
 
 6 Solomon's Knot Chain 
 
 Material — Four pieces of macrame cord, No. 12, 2}^ yards long, 
 of one color. (See page 14.) 
 
 Double in the middle and leave two loops, each two inches 
 long. Take two strands as the center and foundation and attach 
 diem to a hook or a board where they will be held firmly. Loop 
 the two remaining threads alternately over the two central ones, 
 first the one on the right, then the one on the left. For instance : 
 Take a single cord on the left, form a loop to the left of the double 
 cords, draw the end over the two foundation pieces and hold 
 firmly. Then take a single cord on the right, pass it over the 
 piece of cord which forms the loop, then under where the three 
 pieces cross and up through the loop ; draw it tight. Then work 
 with a single cord on the right in the same way and continue, 
 alternating the two single cords, until there is left about four 
 inches. Clip the middle cords so that the four ends may be of 
 equal length. Finish by tying them in a square knot and fringing
 
 14 
 
 CONSTRUCTION WORK 
 
 SOLOMON'S KNOT CHAIN 
 
 Showing how stitch is made. 
 
 the ends. This forms a flat chain one-quarter of an inch wide 
 and one-eighth of an inch thick, which may be made any length 
 desired.
 
 CORD CONSTRUCTION 
 
 15 
 
 ZZzS^ 
 
 KNOTTED BAG 
 
 COMBINED KNOTS AND CHAINS 
 7 Knotted Bag 
 
 Material — Macrame cord, No. 12, one or two colors; twelve 
 
 pieces 1 yard long or six pieces 1 yard long, of each of the 
 two colors. 
 
 Double each piece of cord in the middle and tie it in a loop
 
 16 CONSTRUCTION WORK 
 
 over a pencil or some other object that will make the loops of 
 equal size. Slip the loops from the pencil and string them to a 
 cord, alternating the colors. Join the ends of the cord so as to 
 form a hoop. You now have twelve loops on this hoop and 
 one row of knots. Form a second row of knots by tying cords 
 of dilTerent colors together. The meshes should be uniform and 
 of the size of the loops. Continue knotting one row below the 
 other until about three inches of cord remain. Now stretch the 
 bag out straight and double and tie together the four cords, which 
 
 MINLITURE HAMMOCK— KNOTTED 
 
 operation will form the bottom and close the bag. Fringe the 
 ends and trim them off evenly. 
 
 Make a loop chain, and run it through the top loops, having 
 removed the working cord. Small brass rings may be used at 
 the top instead of loops, and the drawing string may be run 
 through them. A larger bag may be made by the addition of 
 more and longer pieces of twine. 
 
 8 Miniature Hammock — Knotted 
 
 Material — Twelve pieces of seine cord. No. 12, each 2 yards long. 
 Two iron rings, 1 inch in diameter. 
 String the pieces of cord through a ring, taking care that the 
 ends are of the same length. About three inches from the ring, 
 knot each piece of cord. This will make twelve knots and form 
 the first row. For the second row, knot alternate pieces of 
 cord. Continue until there are twelve rows of knots. Be careful 
 to make the meshes the same size. Leave about three inches un- 
 knotted and attach these ends to the second ring. Make a twisted 
 cord (of four thicknesses of macrame) of some contrasting color 
 and run through the meshes of each side, taking it twice through 
 each mesh and attaching it to rings at the ends of the hammock.
 
 CORD CONSTRUCTION 17 
 
 The meshes should be about an inch square. Make the cords a 
 little shorter than the sides of the hammock, in order to give it 
 the proper spring. Take an extra piece of cord the color of the 
 hammock and wrap it around the cords close up to the rings, 
 winding it evenly and firmly for about an inch from the ring; 
 fasten it securely. 
 
 9 Miniature Portiere — Knotted 
 
 Material — Twelve 36-inch lengths of macrame cord, Xo. 12. 
 
 Double each piece in the middle and, using the overhand knot, 
 tie it over a stout lead pencil or a very narrow ruler. See that 
 each knot is pressed close to the foundation holder, that the loops 
 may be of equal size. These loops and knots form the first row. 
 Do not remove them from the holder. Separate the cords and 
 knot together each two adjacent ones, alternating at every other 
 row. Continue knotting until about three inches of cord remain 
 to form the fringe at the bottom. Before tying the last row of 
 knots, slip a colored glass bead over each set of cords, then make 
 the knot so as to hold the bead in place. These beads are an orna- 
 ment, apart from giving weight to the portiere to make it hang 
 well. Trim the fringe evenly, slip the portiere from the founda- 
 tion holder, and it is readv to h^ng. 
 
 Use beads the color of the cora, or of some effective contrast- 
 ing shade. If a child is expert enough, a bead may be placed at 
 every knot, adding decidedly to the attractiveness of the little 
 portiere. (See page 18.) 
 
 WEAVING 
 10 Miniature Hammock — Woven 
 
 Material — Tag-board loom 8x10 inches. Cord of one, two or 
 three colors. Two brass rings, }4 inch in diameter. 
 
 To make a loom, take a piece of tag-board 8x10 inches in size. 
 ]\Ieasure ofif one inch from the back edge and draw a line parallel 
 to the back edge. Measure ofif one inch from the front edge and 
 draw a line parallel to the front edge. IMeasure off ore inch from 
 the right edge and draw a line parallel to the right edge. Measure 
 off one inch from the left edge and draw a line parallel to the left 
 edge. You have now a 6x8-inch rectangle marked off, leaving
 
 18 
 
 CONSTRUCTION WORK 
 
 rrrv 
 
 MINIATURE PORTIERE— (For description see page 17.)
 
 CORD CONSTRUCTION 
 
 19 
 
 a one-inch space around the edj^e of the tag-board. Start at a 
 point where a vertical and a horizontal line intersect and mark 
 off the six-inch ends into spaces one-fourth inch apart. Next 
 with a large needle pierce the board at each point of intersection. 
 This will make twenty-five eyelets at each end. On the reverse 
 side of the board draw diagonals to determine the center. Tie to- 
 
 f^ m 
 
 ihMl\\\ \\\S\\ \Ss\\S<^ 
 
 ;> 
 
 BLANKET FOR DULLS BED 
 Showing how it is started. 
 
 gether the two brass rings and fasten them firmly to the center 
 of the reverse side. 
 
 To string the loom requires about fifteen yards of cord. Divide 
 the cord into two lengths. Thread a length into a needle and tie 
 one end of it to one of the brass rings. Next carry the cord from 
 the ring through the thirteenth perforation, then across the face 
 of the loom to the thirteenth perforation at the opposite end. 
 through again to the reverse side and pass through the opposite
 
 20 
 
 CONSTRUCTION WORK 
 
 ring from which it started. Repeat this operation by carrying the 
 cord in a reverse direction each time until one-half the loom is 
 strung. Then with the other length of cord start, by attaching it 
 to the same ring to which the first piece was tied, and work in 
 the opposite direction until the second half is strung. Should it 
 
 A RUG 
 Made of narrow strips of cotton cloth. 
 
 be necessary to add to the cord, arrange that the knot be on an 
 end near a ring. A knot in the warp hampers the weaving. 
 
 Have the warp threads and the predominant woof thread of 
 the same color. 
 
 To begin weaving, cut a quantity of ten-inch lengths. Take 
 one of these lengths, start in the center of the loom, and weave 
 in and out among the warp threads, allowing it to extend two 
 inches beyond on each side. Have a perfectly smooth, narrow,
 
 CORD CONSTRUCTION 21 
 
 thin ruler and weave it in across the warp threads. As each hori- 
 zontal or woof thread is added, shove it close to the preceding 
 one with the ruler, which acts as a pusher. Weave first on one 
 side of the center and then on the other, until the entire 6x8-inch 
 space is covered. If a border is to be put in, gauge equal spaces 
 from the center and work in the border of a different shade or 
 color. The borders must be placed equally distant from the 
 center and the same distance from each end. Take the overhang- 
 ing cords and knot each alternate two together along the line of 
 the outer warp thread. This will hold the woof threads in place, 
 as well as finish the edges of the hammock. Comb these ends 
 out and trim them, to get the fringe even. At each end where 
 the weaving stops, take a needle threaded with a length of cord 
 and run in and out along the warp threads, first to the right 
 and then to the left of the final woof thread. This makes a se- 
 cure finish and holds the woof threads in position. Next un- 
 fasten the rings and remove the hammock from the loom by tear- 
 ing the tag-board along the lines of perforations. Finally, 
 where the cords pass through the ring, hold them close to the 
 ring and wrap them with a piece of cord for the distance of an 
 inch, then fasten off by forcing the needle up through the wrapped 
 space toward the ring; draw the end through and clip close to 
 the ring. The hammock is now finished. 
 
 The question may arise: Why begin weaving in the center of 
 the loom? The answer is: Because small children, and even 
 older ones, sometimes, are not able to keep their warp threads 
 parallel and as they approach the middle, where these threads give 
 more, they naturally draw them in. This tendency is remedied to 
 a great extent by beginning in the middle and weaving toward 
 the ends, where the warp is confined in the board and keeps its 
 place with no effort on the part of the child.
 
 PART II 
 PAPER CONSTRUCTION
 
 PAPER CONSTRUCTION 
 
 Introductory Remarks 
 
 Whatever may have been the true origin of the art of paper- 
 making, it is now lost in obscurity. It is ahiiost certain that the 
 earhest form of paper was the papyrus of the Egyptians and that 
 they were the first to use it as a writing material They manu- 
 factured it from the stem of the papyrus plant, from which the 
 name paper comes. 
 
 It is also known that the Chinese were versed in this art before 
 the Christian Era, and that they made paper from the bark of 
 various trees, the soft part of bamboo stems, and cotton. In India 
 and China the practice of writing on dried palm and other leaves 
 still obtains. It is probable that the employment of these fibrous 
 substances, together with observation of the methods of paper- 
 making wasps and other insects, led to manufacturing by pulping 
 the materials and spreading them out. 
 
 As the Chinese seem to have been the pioneers in so many great 
 inventions, so also they appear to have been the inventors of this 
 art. From the Chinese the Arabians learned, in the seventh cen- 
 tury, the craft of making paper from cotton, and they established 
 a manufactory at Samarcand in 706 A. D. Here the Moors 
 learned the art, and through them it was introduced into Spain. 
 It is thought that the Aloors used flax and hemp in addition to 
 cotton in their manufacture of paper. The pro<lucts of their 
 mills are known to have been of a most superior quality, but, 
 with the decline of the ]\Ioors, paper-making passed into less 
 skilled hands, and the quality of the paper became inferior. 
 
 From Spain the art spread through the other countries of 
 Europe, and as factories were established further north, where 
 cotton was not a product nor easy to import, the necessity of sub- 
 stituting some other material probably led to the introduction of 
 linen rags ; but when they began to be used is uncertain. Eng- 
 land was far behind the other countries of Northern Europe in 
 introducing the industry of paper-making. 
 
 25
 
 26 
 
 CONSTRUCTION WORK 
 
 
 
 
 
 
 
 -(•< 
 
 
 1" 
 
 2 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 ^» 
 
 
 
 SCREEN— SIX-BY-NINE-INCH CONSTRUCTION PAPER
 
 PAPER CONSTRUCTION 27 
 
 In the United States to-day paper in all varieties is manufac- 
 tured to an enormous extent, and almost exclusively from vege- 
 table matter. The book and newspaper trades demand an untold 
 quantity. 
 
 There are three great types — writing, printing, and wrapping 
 paper. Writing paper is made from rags and wood pulp. The 
 staple for wrapping paper is old rope, and in some cases jute. 
 The best writing and printing papers, however, are made from 
 rags. From these as staples, all other varieties are developed, 
 ►^ and we have paper for every use to which man can apply it. 
 =r Paper folding and modeling is not an ancient occupation, but a 
 
 ^fmodern device, yet to the child it has a utilitarian value not to be 
 - f overlooked. His nature demands that he be employed, and 
 change of occupation is conducive to his happiness. Nothing is 
 quite so restful to him as to do something with his hands ; there- 
 fore, with his blocks he builds a house, fences it around with 
 his splints, and strews the ground with imaginary trees and ani- 
 mals. He lives in this nursery play, and in it he is happy. 
 
 When he enters school, should he have only books? No, his 
 hands still demand employment. He is now led to fashion from 
 paper what he has already made with his blocks and toys. He is 
 occupied, he is interested, and he is cultivating concentration and 
 industrious habits. Is this worth while? 
 
 Begin the lessons with a talk on the manufacture and uses of 
 paper. By a story, an association or the suggestion of a future 
 use the cliild should be made to feel that he is doing something 
 worth while. This will accentuate the interest and deepen the 
 impression. 
 
 All models given may be increased or decreased in size if the 
 proportions are adhered to, but the dimensions stated are those 
 commonly used. 
 
 A Model Lesson 
 Aim — To construct a windmill or pin-wheel. 
 
 Each child should have a five-inch square, a slender stick five 
 Inches long, a pin, a ruler, a pair of scissors, and a lead pencil. 
 
 The children are supposed to know that every piece of paper, 
 faid in position, has a back edge, a front edge, a right edge, a 
 left edge, a right-back corner, a left-back corner, a right-front
 
 28 
 
 CONSTRUCTION WORK 
 
 comer, a left-front corner, and that, in tracing, the forefinger 
 of the right hand is used. 
 
 Three questions after each direction will be sufficient. The 
 questions aim to have a complete statement in answer, and to 
 develop an unconsciously correct use of the verb. This may 
 
 WINDMILL, A 
 
 appear slow at first, but soon the replies will come quickly and 
 the answer will be correctly given. 
 
 Teacher: "Children, lay your papers on your desk parallel 
 with the front edge of the desk. — John, where are you to lay your 
 paper?" 
 
 John: "I am to lay my paper on my desk parallel with the 
 front edge of my desk." 
 
 Teacher: "Mary, where did you lay your paper?" 
 
 Mary: "I laid my paper on my desk parallel with the front 
 edge of my desk."
 
 PAPER CONSTRUCTION 29 
 
 Teacher: "Willie, where has Mary laid her paper?" 
 
 Willie: "Mary has laid her paper on her desk, parallel with the 
 front edge of her desk." 
 
 Teacher: "Trace the back edge of your paper. — Anna, what 
 are you to do to your paper?" 
 
 Anna: "I am to trace the back edge of my paper." 
 
 Teacher: "Harry, what did you do to your paper?" 
 
 Harry: "I traced the back edge of my paper." 
 
 Teacher: "Jessie, what have you done to your paper ?" 
 
 Jessie: "I have traced the back edge of my paper." 
 
 Teacher: "Each child place the forefinger on the right-back 
 corner of the paper. — Charles, what are you to do?" 
 
 Charles: "I am to place my forefinger on the right-back cor- 
 ner of my paper." 
 
 Teacher: "Anna, what did you do?" 
 
 Anna: "I placed my forefinger on the right-back corner of 
 my paper." 
 
 Teacher: "Laurence, what have you done?" 
 
 Laurence: "I have placed my forefinger on the right-back cor- 
 ner of my paper." 
 
 Teacher: "Take your ruler and lay it across your paper from 
 the left-back corner to the right-front corner. — Margaret, what 
 are you to do?" 
 
 Margaret: "I am to lay my ruler on my paper from the left- 
 back corner to the right-front corner." 
 
 Teacher: "Draw a line connecting the left-back corner of 
 your paper with the right-front corner. — James, what did you 
 draw ?" 
 
 James: "I drew a line connecting the left-back corner of my 
 paper with the right-front corner." 
 
 Teacher: "Alice, what have you drawn ?" 
 
 Alice: "I have drawn a line connecting the left-back corner 
 of my paper with the right-front corner." 
 
 Now have the children draw a line connecting the reverse diag- 
 onal corners and proceed as follows : 
 
 Teacher: "Find the point where the lines cross. This is the 
 center or middle point of your paper. — Albert, what are vou to 
 find?" 
 
 Albert: "I am to find the point where the lines cross, which 
 is the center of my paper."
 
 30 
 
 CONSTRUCTION WORK 
 
 Teacher: "Measure one inch from this point on each of the 
 four lines and place a dot. — Sara, what did you measure?" 
 
 Sara: "I measured one inch from the center of my paper on 
 each of the four lines and placed a dot." 
 
 Teacher: "Lay your pencil and your ruler down. Place your 
 paper on your desk parallel with its front edge and lay your left 
 hand on the right-front corner. Turn the paper until this cor- 
 ner is directly in front of you. Take your scissors and cut along 
 
 WINDMILL, B 
 
 the ruled line from the corner to the point one inch from the 
 center. 
 
 "Lay down your scissors. Turn your paper from right to left 
 until the next corner faces you. Cut. Move the paper from 
 right to left again until the third corner faces you. Cut. Bring 
 the fourth corner to face you. Cut. There are now eight points. 
 Turn each alternate point to the center, run the pin through all of 
 them and fasten the wheel to the stick."
 
 PAPER CONSTRUCTION 31 
 
 Final questions. 
 
 Teacher: "What did you make?" 
 
 Pupil: "I made a pin-wheel." 
 
 Teacher: "What have you made?" 
 
 Pupil: "I have made a pin-wheel." 
 
 Teacher: "What has Ellen made?" 
 
 Pupil: "Ellen has made a pin-wheel." 
 
 When older pupils have completed a model it is excellent prac- 
 tice to have them write a full description of how it is made and 
 the materials used. 
 
 1 Windmill, or Pin-Wheel 
 
 Material — One piece of construction paper, 5x5 inches. Stick, 
 5x^4 x/4 inches. One pin. (See pages 28 and 30.) 
 
 Fold the square on the diagonals. Cut the diagonals to within 
 one-half inch of the center. Bend alternate corners over until 
 the point of each touches the center. Fasten the four points in 
 the center by running the pin through them and driving it into 
 the stick. 
 
 2 Square Tray No. I 
 Material — Construction paper, 5x5 inches. (See page 32.) 
 
 Measure oflf one inch on four sides, and connect the points 
 with a line parallel to the edge of the paper. Score lightly each 
 line. Cut out the four corner squares. Turn up the sides, fasten 
 the corners together with rafifia or cord, tying a small bow. 
 
 3 Square Tray No, II 
 
 Material — Construction paper, 5x5 inches. (See page 33.) 
 
 Fold and crease into sixteen small squares. Score lightly the 
 four lines nearest the outer edge. Draw one diagonal pointing 
 toward the center of each corner square. Next draw half of the 
 diagonal extending in the opposite direction. Fold the paper on 
 the lines scored. Crease the diagonals 1 — 2, making the crease 
 extend to the inside of the tray, and press until lines 1 — 4 and 
 1 — 3 meet. Now we have a triangle on the inside of the tray. 
 Fold this over on half-diagonal. No. 5. and press to the side of 
 the tray. This will fasten together firmly the corners of the tray
 
 32 
 
 CONSTRUCTION WORK 
 
 N 
 
 • # 
 
 / 
 
 • 
 • 
 
 
 • 
 • 
 
 
 • » 
 
 
 SQUARE TRAY No. I — (For description see page 31.) 
 
 4 Square Box with Cover 
 
 Materials — Construction paper, 6x6 inches. (See page 34.) 
 
 Measure off from the outer edge two Hues, one inch apart. 
 Score these Hnes. In each corner there are four one-inch squares. 
 Cut off 1, 2, and 3; then draw the diagonal of 4 pointing toward 
 the center of the paper. Crease and fold on these diagonals, ex- 
 tending the triangle inward. Fold this triangle over to half its 
 size ; press to the inside of the box. Edges 5 — 6, 5 — 7 will meet 
 to form the corners of the box, and cover flaps 8 — 9 will fall
 
 PAPER CONSTRUCTION 
 
 33 
 
 naturally into place. Result, box four inches square, one inch 
 deep, with folding cover. 
 
 5 Square or Rectangular Box 
 
 Material — Construction paper, 4x4 inches or 4x6 inches. 
 
 Measure off a margin one inch all around, and score. Cut as 
 indicated on page 35. Fold over the border to half its width. 
 
 SQUARE TRAY Xo. II — (For description see page 31.)
 
 CONSTRUCTION WORK 
 
 , — 'i'UJ- 
 
 Ld. 
 
 ToU 
 
 SQUARE BOX WITH COVER- (For description see page 32.) 
 
 as 1 over to 2. Bend up on line 2 — 3. When the edge is folded 
 over a little tongue is formed at each end. Slip this tongue under 
 the fold of the adjacent side, and it will fasten the sides of the 
 box firmly together. A lid may be made exactly as the box is 
 made. 
 
 A beautiful Christmas box may be made of red paper, or
 
 PAPER CONSTRUCTION 
 
 35 
 
 3 - 
 
 
 1 
 
 f — 
 
 
 
 
 
 
 Hi 
 
 _ Cni-tM^-Wd. 
 
 
 
 
 .1 f«.,^,L *i«^A. 
 
 " eZje" 
 
 — 
 
 
 
 
 
 
 
 « 
 I 
 
 
 
 
 "siX; 
 
 3 
 
 ] 
 
 
 
 
 
 
 1 
 
 
 
 
 
 
 ill 
 
 
 
 
 
 
 1 
 
 1 J 
 
 
 SQUARE BOX — (For description see pages 33 and 34.) 
 
 gray decorated witli holly. Made of white paper, with a chicken 
 (m yellow) painted on the lid, it is appropriate for Easter. 
 
 6 Pencil Box with Sliding Cover 
 
 Material — Construction paper : one 7-inch square ; one rectangle 
 4x9 inches. (See page 36.) 
 Drati'cr. Lay the rectangle on the desk with the nine-inch edge 
 parallel with the front edge of the desk. Draw a line one inch 
 from the back edge and parallel with it. Draw a line one inch 
 from the front edge and parallel with it. Draw a line one inch 
 from the right edge and parallel with it ; and a line one inch from 
 the left edge and parallel with it. Score, bend and crease on 
 these lines. Cut the lines on the right and the left edges to where 
 they intersect the lines on the back and the front edges. Fold and 
 glue. The laps are pasted on the inside and give strength to the 
 ends of the drawer.
 
 36 
 
 CONSTRUCTION WORK 
 
 Cover (seven-inch square). Measure off one and one-fourth 
 inches, and construct a line parallel to the back edge. Measure 
 one inch and draw a line parallel to this. Measure off two and 
 
 
 
 
 
 /" 
 
 
 
 ///• X).Aa^ Fx^c^ n 
 
 v^. 
 
 /"x7" C'<^'^ Pe^-ncjJ Idcy 
 
 FENXIL BOX WITH SLIDING COVER 
 
 one-sixteenth inches (shy) and draw a third parallel line. Meas- 
 ure one inch again and draw a fourth line parallel to the other 
 three. Score and fold on these lines. Lap the space at the back
 
 PAPER CONSTRUCTION 
 
 edge over the space at the front edge until they form a rectangle 
 two and one-sixteenth by seven inches in size, to correspond with 
 the opposite one, which is the top of the cover. Glue. Slide in 
 the drawer and the pencil box is completed. 
 
 7 Seed Box with Sections 
 Material — Construction paper: two rectangles 8x9 inches; one 
 rectangle 2x5y2 inches; one rectangle ZxA-yz inches. (See 
 page 38.) 
 
 Take one 8x9-inch rectangle for the body of the box and lay off 
 a two-inch space all around. Cut on dotted lines. Score and 
 crease, fold and glue. The laps are glued to the inside and each 
 one turned to the right. When the partitions are put in the laps 
 mark where the ends go, as well as brace the ends of them. Take 
 the two rectangles, 2x4^ inches and 2x5^ inches, and draw a 
 line one-half inch from each of the two-inch edges. Score and 
 crease. These form the laps for pasting the partitions in. On 
 these partitions turn all four laps to the right, to coincide with the 
 laps on the box. Dovetail the partitions by cutting a slit one 
 inch deep in the center of each and slipping one over the other. 
 Next glue them to the inside of the box. 
 
 Cover. Take the second 8x9-inch rectangle and mark off a 
 two-inch space (shy) all around. Find middle of nine-inch edges 
 and draw lines 1 — 2, 2 — 3, and 2 — 4. Cut out these two trian- 
 gles. Cut the corners on the dotted lines. Score, fold, and glue. 
 Notice that in the lids the laps are not turned as in the body of 
 the box. Here, as in the drawer of the pencil-box, the laps are 
 glued to the ends of the cover, concentrating strength there and 
 producing symmetry in construction. 
 
 8 Picture Frame No. I — Diagonal Folds 
 
 Material — Construction paper, 5x5 inches. (See page 39.) 
 
 Fold on the diagonals. Bring each corner over until it touches 
 the center; crease. Fold each corner back again until its point 
 touches the outside edge at the middle section ; crease. 
 
 9 Picture Frame No. II 
 
 Material — Construction paper, 43/xl6iX inches. (See page 40.) 
 Divide the length into three equal parts, making three rectangles
 
 38 
 
 CONSTRUCTION WORK 
 
 
 
 a 
 
 6 
 
 
 
 
 i 
 
 1 
 
 1 
 
 1 
 
 
 
 % 
 
 
 • 
 
 I ■ ■ ■ 
 1 
 
 X" 
 
 
 1 ^ 
 
 
 
 A 
 
 •^ 
 
 
 1 ' < . 
 
 1 :>■■'■■■ ^-^ 
 
 
 
 SxatunrxaJl. Sjsj! o( D<r^ ^'' X /? ' 
 
 PoA U tiayx. ^^ T' X .3 " 
 
 PojdxtLoia. ' H'-^^' 
 
 SEED BOX WITH SECTIONS— (For description see page 37.1
 
 PAPER CONSTRUCTION 
 
 39 
 
 PICTURE FRAME No. I — (For description see pagre 37.) 
 
 4}^x5y2 inches in size. In the middle rectangle, measure off and 
 cut out a rectangle 2}^x3 inches in size. Fold rectangle Xo. 3 
 up and back of rectangle No. 2. Holding the two tirmly to- 
 gether, punch two holes, one-fourth inch apart, on each side, and 
 one-fourth inch from the outer edges (see diagram). Draw a 
 piece of raffia or ribbon through these holes and tie in a bow. 
 Fold back rectangle No. 1 for support.
 
 40 
 
 CONSTRUCTION WORK 
 
 PICTURE FRAME No. II— (For description see pages 37 and 39.; 
 
 10 Portfolio 
 
 Material — Heavy manila paper, 7j/2xl2 inches. (See page 41.) 
 
 Fold edge No. 1 over and even with edge No. 2. Crease and 
 fold. On each side of A mark and cut off one-half inch. Clip 
 off the corners of the flaps on B. Fold the flaps of B over on 
 A and paste. Find the middle of edges 1 and 2. With a radius of 
 one inch, describe a semicircle and cut it out.
 
 PAPER CONSTRUCTION 
 
 41 
 
 rN 
 
 Iz 
 
 PORTFOLIO— (For description see page 40.) 
 
 1 1 Barn — House — Furniture 
 
 Material — Construction paper, 8x8 inches or 10x10 inches. (See 
 page 42.) 
 
 Fold a square into sixteen small squares of equal size ; crease. 
 With this as a basis throw the child on his own resources, allow- 
 ing- him to invent a pattern and make a chair, a sofa, or any piece 
 of furniture that he can devise from such a square. A corner 
 may have to be cut out or a slit made, but impress upon the child 
 that, as far as possible, the model must be gotten by folding, 
 with very little or no cutting. 
 
 By using a larger square and folding in the same way, a house
 
 42 
 
 CONSTRUCTION WORK 
 
 or a barn may be made. Add a chimney and steps from an extra 
 piece of paper. 
 
 12 Hexagonal Tray 
 
 Material — Construction paper, 7x7 inches. 
 
 Dr?w one diameter ; find the center. With a radius of three 
 and one-half inches describe a circle. (The circumference of a 
 circle is six times the radius). Place a point of the compass at 
 one intersection of the circumference and the diameter, and di- 
 vide the circle into six equal parts. With a radius of two inches.
 
 PAPER CONSTRUCTION 
 
 43 
 
 HEXAGONAL TRAY 
 
 describe an inner circle parallel to the outer one. Connect oppo- 
 site points of the outer circle by drawing two more diameters. 
 This will divide the inner circle into six equal parts. Connect by 
 straight lines the adjacent points of the inner circle, as 1 — 2 ;
 
 44 
 
 CONSTRUCTION WORK 
 
 score. At the intersections of the outer circle, mark off one-half 
 inch on each side and by straight lines connect both these points 
 with the opposite points of intersection of the inner circle, as 
 2 — 3, 2 — 4. This forms two equal triangles, one of which is to 
 be cut out, as 4 — 2 — 5, and the other, as 3 — 2 — 5, left. Having 
 cut out the six triangles, bend up on lines scored, bring the sides 
 together, and use triangle 3 — 2 — 5 as a lap for pasting. 
 
 13 Lamp Shade 
 
 Material — Construction paper, 7x10 inches. Japanese rice pa- 
 per, 7x10 inches. 
 
 Select a pretty shade of brown, green or red construction paper. 
 Measure off two inches and construct a line parallel to the ten- 
 inch length. Bisect this line. Place the compass at this point of 
 bisection and with a radius of four inches describe a semicircle, 
 
 LAMP SHADE, A 
 
 1 — 2 ; extend this arc to 3, and draw the line 3 — 4. With a radius 
 of one inch describe an inner semicircle (5 — 6) parallel to the 
 outer one. Again, with a radius of one inch describe a third semi- 
 circle, parallel to the other two. Set the compass at half the 
 radius and divide each semicircle into six equal parts. Con- 
 nect these points of intersection by straight lines (9 — 10). Make
 
 PAPER CONSTRUCTION 45 
 
 a stencil that will fit in one of these sections. Using the stencil, 
 draw the same figure in each section. Carefully cut out the sten- 
 ciled space. Next lay the construction paper on the Japanese rice 
 paper and trace on it the stencil design. Remove the construction 
 paper and, with two blending colors of crayon, color the figure or 
 design traced on the Japanese paper. Again, lay the construction 
 
 LAMP SHADE, B 
 
 paper on the rice paper and glue the two together. Cut out 
 the shade as marked off, bring the two edges together, and glue. 
 
 If you wish the lower edge scalloped, cut it as shown in the 
 diagram. By folding and creasing on the lines of intersection the 
 shade may be made hexagonal in shape. All designs for decora- 
 tion are supposed to be original. 
 
 14 Star 
 Material — Construction paper, two 8-inch squares. Raffia. 
 
 Take an eight-inch square. Fold the front edge over to the 
 back edge; crease. On the left edge place a point one and one- 
 half inches from the left-back corner. Carry the right-front cor- 
 ner over to this point ; fold and crease. Turn the left triangle 
 under; fold and crease. Next, as the paper stands in your hand 
 with the triangle facing you, fold the right edge over to the left 
 edge; crease. Where the three edges of the paper come to- 
 gether, begin at the highest point and cut across the paper from 
 right to left to within two and one-half inches of the center. 
 Open out the paper and you have the star. 
 
 A picture frame made of a five-pointed star is very pretty. 
 Cut two stars of the same size. From the center of one cut a 
 star one inch smaller for a mat. Lav this mat on the solid or
 
 46 
 
 CONSTRUCTION WORK 
 
 foundation star and glue four of the points together. In the fifth 
 point pierce two holes through both pieces, about an inch from 
 the apex of the point. Slip in the picture. Take a piece of raffia 
 or cord and tie a loop with two ends. Bring these ends through 
 
 PICTURE FRAME FROM FIVE-POINTED STAH 
 
 the holes from the back to the front and tie them in a bow. By 
 the loop at the back the frame is hung. 
 
 15 Notebook 
 
 Material — Construction paper, 63^x7 inches, for cover, 
 paper, four pieces 6x6^^ inches, for leaves. 
 
 Manila
 
 PAPER COx\STRUCTION 
 
 47 
 
 Fold the piece of construction paper down the middle, so as to 
 form the 3^x6^ -inch cover. In the same way crease the ma- 
 nila paper for the leaves. Place the leaves within the cover ; 
 with heavy silk or fine twine sew them to the back. Bring the 
 needle through one inch from the upper edge, one inch from the 
 lower edge, and in the middle. The long stitch is on the inside, 
 
 NOTEBOOK 
 
 the two short ones are oh the outside, both ends of the thread 
 are brought through the center to the inside and tied over the 
 long stitch to hold it in place. Leave the ends an inch long and 
 fringe them. 
 
 16 Bound Book 
 
 MatermI — Heavy construction paper, colored, 5x6 inches, for 
 cover. Four pieces white paper, \iy2xi9y2 inches, for leaves. 
 Two pieces tape, j^ixl inches.
 
 4S 
 
 CONSTRUCTION WORK 
 
 Cover. Mark off and rule two and seven-eighths inches from 
 each edge of the five-inch length; crease. This will leave in the 
 middle a 34x5-inch space, in which the back of the leaves will go. 
 Take each sheet of white paper, fold it once lengthwise, and once 
 crosswise; this will make a "folio" four leaves thick, 2^x5^ 
 inches in size. We have four of these folios to be joined together 
 and bound to the back. Take folio No. 1 and with needle and 
 silk sew the leaves together, running the thread one inch from the 
 
 upper edge and one inch from the 
 lower edge and in the center, seeing 
 that the last stitch brings the thread 
 on the outside of the back of the 
 leaves. Do not break the thread. 
 Take folio No. 2, hold it close to folio 
 No. 1, carry the thread across and 
 take it through the middle of the back, 
 one inch from front or back edge, as 
 in folio No. 1. 
 
 acr3 
 
 BOUND BOOK 
 
 On the back edges of these folios there will be two long stitches. 
 Under these stitches pass the two pieces of tape. Keep one of 
 these tapes as near the upper and the other as near the lower 
 edge as the stitch will allow. As a folio is added and the leaves 
 sewed together, connect the exposed stitch of the one previouslv 
 added to the one last added, at the three places where the thread 
 holds the leaves, by a buttonhole stitch (in bookbinding known as 
 the "kettle stitch"). When the last folio is added, place the back 
 of the leaves to the back of the cover in the j4x5-inch space.
 
 PAPER CONSTRUCTION 
 
 49 
 
 Stretch the tapes down on the cover and paste (1 — 3). Take tlie 
 first and the last leaf and paste them over the tapes, to the in- 
 side of the cover. The outside of the cover may have some sim- 
 ple decoration if such is desired. 
 
 In Book VII of the Text Book of Art Education, published by 
 The Prang Educational Company, is worked out a very interest- 
 ing problem for the making of a scrap-book, and suggestions given 
 for decorating the cover. The scrap or clipping books shown 
 here were made in a similar way. The decoration and cover are 
 left to the taste and ingenuity of the teacher or the child. 
 
 17 Japanese Book 
 
 Material — Construction paper, colored, 4ylxl2% inches, for 
 cover. ]\Ianila paper, six leaves, 4x6 inches, double, with 
 fold on outer edge. 
 
 The paper for the cover is 4^4x12^4 inches in size. Place the 
 paper lengthwise in front of you and bring the left edge over to 
 
 JAPANESE BOOK 
 
 the right edge; crease, fold. Mark off a space three-fourths of 
 an inch from the edge of the fold, draw a line, A — L. On this 
 line three-quarters of an inch from the upper and the lower 
 edges, place dots, B C, and one-fourth inch from B C place dots 
 D E. Hold the leaves evenly togetiier and press them in between 
 the cover. With a large needle and cord sew through C, under,
 
 50 
 
 CONSTRUCTION WORK 
 
 up, and over A, through C again, under to F, over through C, 
 under and up tlirough E, back to G, under and up through E, 
 down to D, through and over H, back to D, down and up through 
 D, then to B; down under to K, back to B, through and under 
 and around to L, to B, to D, to E, to C. Tie the two ends of the 
 cord, which come together at C, and fringe them out. 
 
 SCRAP OR CLIPPING BOOK 
 Cover of grass cloth. 
 
 18 Scrap-Book 
 
 Material — Construction paper, colored: Gyiy&yi inches, for 
 
 cover. Manila paper: three leaves 6x8 inches; three strips 
 
 1^x6 inches. Two paper clamps. 
 
 Double ithe 6x8-inch leaves into six leaves 4x6 inches in size. 
 
 Between leaves 1 and 2, 3 and 4, 5 and 6, place the l>^x6-inch 
 
 guards at the back. Have leaves and guards even and compact;
 
 PAPER CONSTRUCTION 
 
 51 
 
 then set them between the cover. Aleasure from the back edge 
 of the cover a space three-quarters of an inch wide, and draw a 
 pencil line. Placing the sharp edge of a ruler on this linf, bend 
 the back edge toward the front until it is well creased. In the 
 
 SCRAP OR CLIPPING BOOK 
 Cover of linen, stenciled. 
 
 center of this -j 4 -inch space, one inch from the upper edge and 
 one inch from the lower edge of the book, pierce a hole and insert 
 the brass clamps. 
 
 A PASTE 
 
 Mix until perfectly smooth one cup of flour with one cup of 
 cold water. 
 
 Put two cups of water in a vessel and set it over the fire until 
 it heats. (Do not let it boil.) Add one teaspoonful of powdered 
 alum, then stir in the mixture of flour and cold water. Continue
 
 52 
 
 CONSTRUCTION WORK 
 
 stirring until it thickens to a good consistency. Remove it from 
 the fire and add one teaspoon ful of oil of cloves or peppermint. 
 Pour it into an air-tight jar and when it is cool screw on the top. 
 
 SCRAP OR CLIPPING BOOK 
 Cover of fancy paper — (For description see pages 51 and 52.) 
 
 Use the same cup all through. The oil of cloves or pepper- 
 mint is simply a flavoring, and does not add to the quality. This 
 quantity will nearly fill a quart jar.
 
 PART III 
 WOOD CONSTRUCTION
 
 WOOD CONSTRUCTION 
 
 Introductory Remarks 
 
 As THE child develops, paper construction loses its charm, and a 
 desire for something utilitarian arises. We suggest that at this 
 stage the much-treasured pocket knife be brought into service, for 
 from small pieces of wood many articles may be made. The con- 
 struction of these will afford the child, especially the boy, much 
 pleasure, and will at once arouse a new interest. 
 
 Only the simplest articles will be given here — articles which 
 may be fashioned from bits of wood commonly found around a 
 house, such as old cigar boxes, small starch boxes, etc. But, 
 should the teacher be able to obtain the proper materials, bass- 
 wood a quarter or three-eighths of an inch thick, and whittling 
 knives are the requisites. 
 
 The reader will notice that the wood mentioned for each 
 model is bass. Why? Because bass is the wood generally used 
 for carving. The tree is the same as the linden and the lime. It 
 is found in northern Asia, Europe, and North America, and 
 grows to an immense height. The wood is soft, light, close- 
 veined, pliable, tough, durable, and free from knots, and does not 
 split easily ; all of which qualities favor its suitability for carving. 
 
 In whittling, it is always best to lay off the pattern on both 
 sides of the wood. Then one can work from either side without 
 fear of spoiling the material. 
 
 In cutting, work with the grain, or the wood will be apt to 
 split. Cut toward you, not from you. 
 
 In grooving, use the point of the knife, and work slowly and 
 carefully. If the knife slips the wood is ruined. 
 
 Insist that nothing the child does is well done unless well sand- 
 papered, and nothing is properly sand-papered until all rough- 
 ness is done away with, and the grain appears. 
 
 In the making of designs, let the child first have a piece of pa- 
 per the size of the wood he is to use. and have him work out a 
 design to be applied to his wood. This design may be most crude, 
 
 55
 
 56 CONSTRUCTION WORK 
 
 but with a suggestion here, and a correction there, from the 
 teacher, it can be brought into shape. The child will be pleased, 
 and will attack with more assurance of success each succeeding 
 problem that he meets. 
 
 For coloring, use water color paints. Red, green, and yellow 
 are most satisfactory, as their identity is retained when staining 
 is applied. 
 
 Apply the stain with a brush, and with a soft cloth rub it in 
 until it is dry. This develops or brings out the grain. 
 
 When sure that the stain is well rubbed in and dry, apply 
 butcher's wax, and polish with a soft cloth. Some articles need 
 two coats of stain, and an equal amount of polish. 
 
 In all work impress upon the child the fact that what is worth 
 doing is worth doing well, or it should not be done at all. 
 
 Each model given works out a problem in handling the knife 
 and cutting the wood, and each problem leads up to the one 
 that follows. 
 
 We will begin with the simplest thing one can make — a puzzle. 
 
 1 Puzzle 
 
 Problem — To cut with the grain of the wood, and how to cut 
 corners. (See page 59.) 
 
 Material — Basswood: one piece 7xlJ/^x3-16 inches; one piece 
 3xlJ/x3-16 inches. One yard of macrame cord. 
 
 Shave the /xl^^-inch strip of wood down with a knife until it 
 is an inch wide, being careful to keep the edges parallel. Meas- 
 ure off three-eighths of an inch in opposite directions on each 
 corner and on both sides of the wood. Connect these points by a 
 pencil line. Cut off each corner the space indicated by the line. 
 Be careful always to cut with the grain of the wood; cutting 
 against it will split the board. Next, three-fourths of an inch 
 from each end, and equally distant from the sides, and in the 
 center, bore holes. From the SxljZ-inch piece of wood, cut two 
 blocks one and one-half inches square, and bore a hole in the cen- 
 ter of each. Double the string to a loop and draw this loop 
 through the center hole of the rectangular strip. Pull the loop to 
 the edge, and draw through it the two ends of the cord. String 
 the 13^-inch blocks, one on each cord, then tie the ends of cord in 
 the two end holes of the rectangular strip.
 
 WOOD CONSTRUCTION 
 
 57 
 
 The puzzle is finished. What is the aim, and how can it be 
 solved ? 
 
 Solution. Mark one block. Hold one in the hand and move the 
 other along until it passes through the loop at the center. 
 
 j7x't'^i\ 
 
 3X1^ x^ 
 
 PUZZLE 
 
 Pull the cord through the middle hole until it draws with it four 
 thicknesses of cord. Now slide the block along until it passes 
 through a double loop. Next, draw this double loop back through 
 the hole ; the string will be in position, and the block is now passed 
 along through a single loop and onto the string containing the
 
 58 
 
 CONSTRUCTION WORK 
 
 Other one. To replace the block, turn the puzzle around and 
 repeat the process. 
 
 2 Plant Label 
 
 Problem — To cut across the grain, and, by removing two equal 
 
 triangles, to form a well-tapered point. 
 Material — One piece of basswood, 6xlx^ inches. 
 
 oSi" 
 
 T-^o^t J:cLldL^ C >^/ x:^ 
 
 Plau^t ip &<X 
 
 PLANT LABEL 
 
 Take the end A B and find the center, C. From A measure 
 off two and a half inches, and place point D. From B measure 
 off two and a half inches, and place point E. Connect points CD 
 and CE. Place the same measurements on the reverse side. 
 With the knife cut off triangles A — C — D and B — C — E. Sand- 
 paper the wood until it is smooth and the label is finished. 
 
 3 Pencil Sharpener 
 Problem — Curve-cutting. 
 
 Material — One piece of basswood, 6^x1^x54 inches. One piece 
 of sandpaper, 1x33^ inches. Glue. Stain. 
 On the wood place points three and a quarter inches from each 
 end, at A and B, and connect them by line A — B. Place points 
 G and H half an inch from C and D. Start your curve at G, pass 
 through I, and end at H. In the rectangle A — B — F — E draw a 
 handle as indicated in the diagram. Shape the other end by re- 
 moving spaces G — C — I and H — D — I. Sandpaper thoroughly. 
 Shape one end of the IxSyg-'mch piece of sandpaper as curve 
 G — I — H, and glue it to the wood. Stain the wood and polish it 
 by rubbing it with a soft cloth.
 
 WOOD CONSTRUCTION 
 
 59 
 
 Ji " 
 
 iC^i;'— ^ 
 
 Sa^d. Po^»<A. IxSi" 
 
 <^ 5 >< /-; X ^ ' 
 
 PENXIL SHARPENER 
 
 4 Match Scratch 
 
 Problem — Curve and cross-grain cutting. 
 
 Material — One piece of basswood, 3^x3x^4 inches. One piece 
 of sandpaper, Zy^xS inches. Gkie. 
 Place a point at the center of Hne A — B and of line C — D. 
 Place a point on line A — C and line B — D, one and one-quarter 
 inches from A and B. Connect these points by a pencil line, and 
 draw another line one-eighth of an inch below. Score these two 
 lines with the point of the knife, making a tiny groove. Draw 
 curves A — E and B — E, the highest point of the curve being half 
 
 3^x5x^ 
 
 - -ft 
 
 MATCH SCRATCH
 
 60 
 
 CONSTRUCTION WORK 
 
 an inch from the edge A — E — B. Draw curves G — F and H — F. 
 Remove spaces 1, 2, 3, and 4. Sandpaper thoroughly the edges 
 and sides. Shape the piece of sandpaper, two and a half by three 
 inches, to fit the space G — F — H, allowing a quarter-inch margin, 
 and glue it on. Bore a hole at 5. Do not stain. 
 
 KITE STRIXG WINDER 
 
 5 Kite-String Winder 
 
 Problem — Cross-grain cutting. 
 
 Material — One piece of basswood, Sy2yi2y2x}i inches. 
 
 Pleasure and lay oflf as shown in the diagram, and cut out all
 
 WOOD CONSTRUCTION 61 
 
 spaces indicated by dotted lines. Sandpaper the wood until it is 
 smooth. Stain the winder or not, as is preferred. 
 
 6 Thermometer Back 
 Problem — Beveling and grooving. (See page 62.) 
 Material — One piece of basswood 6x3x^4 inches. Stain. 
 
 For the thermometer back the measurements need be placed on 
 but one side of the wood. 
 
 ]\Iark off a quarter-inch from the edge all around and draw 
 a line. Place a second line a quarter-inch within this. Using the 
 line nearest the edge as a guide, cut oft" the sharp edges on the 
 face of the strip of wood until the slant surface is reached be- 
 tween the line and the back edge. This makes the bevel. The 
 inner line is a guide for spacing the design. Originate a simple 
 design, and lay it off on the board in pencil. Then, using the 
 point of the knife, with the greatest care groove out the design. 
 Place a hole near the top of the strip by means of which to hang 
 it. Notice that the design fits around the hole. Sandpaper, stain, 
 and polish the wood. 
 
 The design given here is the simplest that can be made. It is 
 suggested that until the child becomes accustomed to working 
 with the knife, all designs for grooving had better be confined to 
 straight lines. Combine in a design a vertical, a horizontal, and 
 an oblique line, and some beautiful patterns may be originated. 
 
 7 Pocket Pin-Cushion 
 
 Problem — Circular cutting, grooving, stenciling, and coloring. 
 
 (See page 63.) 
 Material — Basswood : two pieces, 3x3x}^ inches. One piece of 
 heavy felt 3x3x^4 inches. Glue. Water-color paints. Stain. 
 Find the center of each square of wood by drawing the diag- 
 onals. With the compass at the radius of one and one-half inches, 
 describe a circle on each piece of wood (on one side only). Re- 
 move spaces A, B, C. and D with the knife, and you have a cir- 
 cular block. Remember to cut with the grain. Bevel the edges. 
 Make an original design and apply it to your wood. With the 
 knife groove the outline of this design. There should be a space 
 three-eighths of an inch wide between the edge of the wood and 
 the outer edge of the design. When the design is grooved in,
 
 (\ 
 
 o 
 
 il 
 
 THERMOMETER BACK — (For description see page 61.) 
 62
 
 WOOD CONSTRUCTION 
 
 63 
 
 color it. Red, green and yellow are the best colors. Their iden- 
 tity is not lost in staining. Lastly, stain and polish the face of the 
 blocks. Cut tlie felt the size of the blocks, cover the back of each 
 
 DESIGNS FOR PIN CUSHION 
 
 block with glue, place the felt between the two, and keep the 
 whole in press for several hours. The model here suggests two 
 designs. These are given simply as illustrations. Use the same 
 design for both backs of the cushion. 
 
 8 Picture Frame 
 
 Material — Rasswood, sweet gum, walnut or oak. One piece, 
 8x6x^ inches, for frame; one piece, 5^x4x^ inches, for 
 back; one piece, 4^x3x^ inches, for supports; two pieces, 
 3^:4x^x^4 inches, and one piece, 5'4x^'8-^/-i inches for 
 cleats. Glue. Half-inch brads.
 
 64 
 
 CONSTRUCTION WORK 
 
 Should basswood be used it must be stained. Sweet gum, wal- 
 nut, or oak may be left in its natural state, and oiled to bring out 
 the grain and finish. 
 
 On the 8x6xj4-inch board mark ofif with a pencil a center space 
 2^x3^ inches in size. With a gimlet bore holes at points A, B, 
 C, and D. Connect these holes with a pencil line as a guide for 
 cutting. Along the line make a groove which may be broadened 
 
 
 
 
 
 
 
 
 
 , 
 
 ^«-*<4' ^^h=^ 
 
 Tjx.MTi^t' V'<jt.L<r Vi^ry^^ fx^ fi_ 
 
 
 
 
 
 a. » 
 
 
 
 
 
 jiacii ir^x^ S% C 
 
 S-V4" 
 
 / 
 
 PICTURE FRAME 
 
 and deepened until the board is cut through. By working around 
 ihe square in this way, the center will soon be opened. Trim the 
 wood as smoothly as possible with a knife; then use sandpaper 
 to level and finish off. Bevel the edge of the opening if you wish. 
 Cut in half the 4^x3x^4 -inch piece of wood, and make two 
 supports, as in Figure 2. With a pencil draw the shape of these 
 r.upports on the wood ; in whittling work very carefully, as they 
 are small and will easily split. As far as possible, hold the pieces 
 so that the knife will shave with the grain of the wood. In cross-
 
 WOOD CONSTRUCTION 
 
 65 
 
 cut work from the opposite side. In straight cut, keep notches at 
 opposite ends, so that if the knife should shp and the wood spHt 
 no serious damage will be done. 
 
 Place the cleats on the back half an inch from the opening, the 
 longer fitting in between the two shorter ones. Glue them on, 
 then nail them. Against these cleats glue the back (1) before 
 nailing it. Next glue and nail on the two supports against the 
 back and on a level with the lower edge (Figure 4). On the 
 fourth side, where there is no cleat, is the opening through which 
 the picture is slipped. When the frame is satisfactorily sand- 
 papered, oil and polish it. 
 
 9 Japanese Box 
 
 Problem — To construct a box having lid and bottom exend be- 
 yond sides. 
 
 Stock — Basswood: two pieces, each 8y2x3y2xy4. inches, for lid 
 and bottom ; two pieces, each 8x2x^ inches, for sides ; two 
 pieces, each 2^/2x2x^4 inches, for ends; two pieces, each 
 2y2x}ix% inches, for cleats. Glue. Half-inch brads. 
 Stain. Wax. 
 
 JAPANESE BOX 
 
 On the 8j^x3^xj4-inch pieces of wood, cut a bevel a quarter 
 of an inch wide. 
 
 Place the two ends between the two sides ; glue and nail. Set 
 this rectangular frame on the under side of the bottom, equally 
 distant from each edge, and trace the shape with a pencil. Re- 
 move the frame; the pencil line indicates where the nails are to be
 
 66 
 
 CONSTRUCTION WORK 
 
 driven to secure the frame to the base. Now set the frame on 
 the upper side of the bottom ; aim for the same spacing as on the 
 under side, and mark off. Carefully cover the lower edge of this 
 frame with glue, place it on the base and press the two until the 
 glue is dry. Drive the brads through from the under side of the 
 
 scauji 'b^a-a'-j' 
 
 &ncO!> S^^^a,^')^^ 
 
 . t(/n.TLcA/i^cCL <rl JLcci, S'lix-'^^C ct^o^. 
 
 ^y\ 
 
 base an eighth of an inch within the guiding line. Having bev- 
 eled and sandpapered the lid, trace a design on it, and outline this 
 design by grooving. 
 
 Nail the Zy^x^ix^i-'mch cleats to the under side of the lid, 
 five-eighths or an inch from each end anfl half an inch from each 
 side. These cleats fit into the box and hold the lid on. 
 
 Stain, wax, and polish the box. 
 
 10 Grandfather's Chair 
 
 Material — Basswood : three pieces 5x2x^ inches ; one piece 
 2x2x^ inches. Brads. Sandpaper. Glue. Stain or oil.
 
 WOOD CONSTRUCTION 
 
 67 
 
 
 \ "5(^ 
 
 
 
 :r-\ 
 
 «-;■'-> 
 
 GRANDFATHERS CHAIR 
 
 Measure and lay off as you have done in making the other 
 small pieces of wood work. Handle the knife most cautiously, 
 as the wood is so thin that it is easily split. When all parts are 
 cut out and well sandpapered glue them together and secure them 
 by driving in the brads about an inch apart along the line of the 
 seat and where the arms join the back. Stain or oil as most con- 
 venient, or as taste dictates.
 
 PART IV 
 BASKETRY
 
 BASKETRY 
 
 Introductory Remarks 
 
 The art of basket-making is a primitive one, and so simple that 
 it appears to have been known among the rudest people and in 
 very early ages. 
 
 When Moses was found by Pharaoh's daughter, he was lying 
 in a basket which had been woven by his mother. 
 
 Later, when the Israelites were returning to the Promised 
 Land, they were commanded to offer unto the Lord "the first of 
 all the fruits of the earth" in a basket, as soon as Canaan became 
 their possession. The baskets of the rich of these ancient Israel- 
 ites were made of gold and silver, and so valuable were they that 
 when a gift was sent in one of them the basket was always 
 returned. 
 
 The ancient Britons were remarkably expert in the manufac- 
 ture of baskets, which were so beautifully made that they were 
 highly prized by the Romans. 
 
 Our own American Indians were, and still are. such adepts in 
 the art of basket-making that, for beauty and artistic eft"ect, their 
 baskets are excelled by none. 
 
 The perfection attained in this art by the uncivilized is mar- 
 velous. Adapting the materials about them to Uieir use. they 
 produce masterpieces which the civilized man beholds in wonder 
 and amazement. 
 
 Though handed down to us through many ages, this ancient 
 occupation has never lost its fascination. The adult and the 
 child of to-day are as eager to learn its secrets as were those 
 dwellers on the banks of the Nile, hundreds of years ago. 
 
 As a plastic art it lies between paper construction and clay mod- 
 eling on one side, and wood and iron work on the other. 
 
 A keen interest in the art may be awakened by arousing in the 
 child a desire for a basket for some practical purpose. In the 
 autumn, the collecting of seeds for next spring's planting, the 
 
 71
 
 72 
 
 CONSTRUCTION WORK 
 
 gathering of nuts, the need for something in which to lake the 
 lunch to school, or, perhaps, a wish to make a pleasing gift for 
 the coming Christmas, will immediately suggest its utility. 
 
 Of wdiat shall the basket be made? Children enjoy those things 
 most which they feel that they have exerted themselves to obtain ; 
 and the greater the effort involved, the greater the educational
 
 BASKETRY 73 
 
 value. Every child should be trained to keep his eves open and 
 to adapt to his use the things he sees about him. Alaterials for 
 baskets may be obtained in just this way. City children may 
 take a trip to the country and gather the long grasses found in 
 swamps and low places. Perhaps in the garden at home there is 
 a clump of yucca ; when the fall comes and the bloom is gone 
 the leaves or blades may be cut, dried and stripped, and trans- 
 formed into an attractive basket or tray. Again, the husks which 
 are stripped from the corn cooked for dinner may be torn into 
 narrow ribbons and dried for use. Corn husks make a beautiful 
 basket, for the different shades of green change, after the husks 
 have dried, to as many shades of brown, which blend most artis- 
 tically when worked up. The little children of the South may 
 gather the long needles that fall from the southern pine, and com- 
 bine them with raffia or twine to construct a basket. Country 
 children have a most adaptable and convenient commodity in the 
 tough, flexible willows found on the banks of almost every 
 stream. 
 
 The material most commonly used and easiest to begin with, 
 however, is reed, which is pliable, and readily handled and 
 moulded into simple forms by even small children. It is avail- 
 able when other materials are not to be had, for it may be pur- 
 chased with the school supplies. 
 
 Reed is the core or central part of the climbing calamus, a spe- 
 cies of palm found in the jungles of Borneo and adjacent South 
 Sea islands. The outside of the raw calamus is smooth and is 
 made into commercial cane used for chairs. The shavings, made 
 by the machine which separates the cane from the core or inner 
 reed, are utilized for mats, polishing material, and stuffing for 
 mattresses and furniture. Thus every part of the raw material is 
 brought into use. 
 
 Originally the calamus grew in a limited area and was difficult 
 to obtain. Only the natives could gather it, as the white man 
 contracted the jungle fever as soon as he subjected himself to 
 the climate in which it grew. But within the last fifty or seventy- 
 five years enterprising men have begun the cultivation of the rat- 
 tan palm, and have met with so much success that now there are 
 a number of factories in the United States making the reed and 
 rattan of commerce, while Gennany and Belgium export to us the 
 best reed that is used.
 
 74 
 
 CONSTRUCTION WORK 
 
 The teacher should never begin the use of any new material for 
 construction without having made the child familiar with its his- 
 tory ; nor should a finished article be laid aside until the pupil 
 
 REED BASKETS 
 
 has given the teacher a description of how it is made, and of what 
 it is made. If this method is carried out the child will show a 
 greater appreciation of what he is doing, will value the finished 
 article more highly, and will place a premium on the raw material. 
 Overlook the pupils in their work, but grant them the privilege 
 of adjusting size and shape, and of selecting material for the
 
 BASKETRY 75 
 
 requirements of the design they have in mind. By achieving 
 what he can for himself, the pupil attains a realization of his own 
 power, and the logic of size, shape, material, etc., is awakened. 
 
 REED CONSTRUCTION 
 
 In construction, the first thing to teach a child is how to handle 
 the material. To do this, use small cjuantities and attempt only 
 simple articles. Reed is the simplest thing to begin with, and tlie 
 easiest of all basket-work models is the napkin ring. Soak all the 
 reed and dry it with a cloth before using. 
 
 1 Napkin Ring No. I 
 Problem — To construct a napkin ring of reed. 
 Material — No. 2 reed, 7 feet. 
 
 Take one end of the reed and form a loop two inches in diam- 
 eter, and wind the reed three times to form the ring. Hold it in 
 the left hand. Pass the loose end over the curve and through the 
 circle. Pull it taut enousjh to make it lie in a natural curve. Re- 
 
 Ko. I 
 
 REED NAPKIN RINGS 
 
 peat this movement — over and over, round and round — allowing 
 the strands always to follow the valley between the two former 
 laps. When the foundation is covered, clip the end where it fin- 
 ishes up, press it into place in the groove, drop a little glue over 
 the point at which it is pressed in. and bind the ring with a string 
 to hold the end in position. When the glue has dried, remove 
 the string. 
 
 When the napkin ring has been made, the child has learned the 
 principle involved in constructing a basket handle.
 
 76 
 
 CONSTRUCTION WORK 
 
 2 Napkin Ring No. II 
 
 Problem — To construct a napkin ring of No. 5 reed. (See page 
 
 75.) 
 Material~Xo. 5 reed, 2>^ feet. 
 
 In using No. 5 reed, form the loop two inches in diameter, but 
 have the ring of only one thickness, and proceed as in ring No. 1. 
 This will make a napkin ring of different appearance because 
 the windings are fewer and the reed thicker. 
 
 3 Mat 
 Problem — To construct a simple mat of reed. 
 Material — No. 4 reed : eight spokes, 9 inches long ; one spoke, 6 
 inches long. Weavers of No. 2 reed. 
 
 Figure 1 Figure 2 
 
 TO START A REED MAT OR SIMPLE BASKET 
 
 Place together, at right angles, two groups of four spokes of 
 No. 4 reed. To the under group add the six-inch spoke of No. 
 4 reed (Figure 1). Hold the spokes firmly in the left hand. Take 
 the No. 2 weaver and insert it under the thumb. Wind the 
 weaver diagonally over the crossing point in both directions (Fig- 
 ure 2). Then wind the weaver over and under alternate groups 
 of spokes, three times around. Hold both spokes and weaver 
 firmly in place with the left hand. Separate into single spokes 
 now and continue weaving until your mat is four inches in 
 diameter. Fasten the end of the weaver by tucking it down
 
 BASKETRY 
 
 77 
 
 beside a rib. The projecting ribs are trimmed to an even length 
 and pointed. Take any given spoke, as Xo. 1, bend it to the left 
 in front of Xo. 2 and insert it on the right side of Xo. 3. X'o. 2 
 is now taken and carried to the left over Xo. 3 and inserted to 
 the right of X^o. 4. Proceed thus until all the spokes are in- 
 
 REED MAT 
 
 serted, when the mat is finished. The scallops should form a 
 semicircle. 
 
 For a larger mat. take ten spokes, sixteen inches long, of Xo. 
 4 reed, and one spoke nine inches long of the same. Use Xo. 1 
 reed for the weaver and proceed as in making the smaller mat. 
 
 To add a new weaver, place the end about two spokes back of 
 where the former weaver ended and parallel with it. 
 
 4 Hamper Basket 
 Problem — To construct a simple reed basket. 
 
 Material — X^o. 4 reed: eight spokes 16 inches long: one spoke 9 
 inches long. Weavers of Xo. 1 reed. 
 
 Begin the basket exactly as the mat was begun. Weave until 
 the bottom is three inches, or three and a half inches in diameter. 
 Then bend the spokes at right angles with the base, drawing the 
 weaver tight so as to hold the spokes in position and keep them 
 separated at an equal distance. Continue weaving until the bas- 
 ket is three inches hieh. or until about one and a half inches of
 
 78 
 
 CONSTRUCTION WORK 
 
 spokes is left for the border. Finish the edge by turning do\v'n 
 the spokes as in the edge of the mat, or bend them down flat with 
 the edge of the basket. Take any spoke, as No. 1, bring from 
 right to left over No. 2, then No. 2 over No. 3, and so on until 
 the ends of all the spokes are turned to the inside of the basket. 
 Keep both basket and weaver well dampened while weaving. 
 
 HAMPER BASKF.T 
 
 After the basket is finished press it into shape while still damp. 
 When it is thoroughly dry trim ofif the ends of the spokes which 
 appear too long on the inside of the basket, leaving them just long 
 enough to be held in place by the curved spoke under which each 
 passes. This makes a beautiful hamper basket. 
 
 A handle mav be added to this little basket, but it is not advis- 
 able to encourage a child to add a handle until he has made his 
 third basket or has shown in some way proficiency in what has 
 been taught so far. 
 
 To add a handle. Take a length of reed, of the same numbi^*r 
 as the spokes, for the handle bow. For a small-sized basket take
 
 BASKETRY 79 
 
 ten inches. Insert one end down through the weaving beside 
 one of the spokes. Bend the bow into the shape you wish for 
 the handle and insert the other end of the bow beside a spoke on 
 the opposite side of the basket, being careful that the two spaces 
 between the two ends of the handle are equal. The handle should 
 be about as high above the border as the border is above the bot- 
 tom of the basket. The width of the handle should be a littie 
 less than the width of the basket at the top. 
 
 You are now ready to cover the handle. Take a long weaver ; 
 push one end of it through the wale under the second row. Hold 
 the end in place and wrap the weaver about the handle bow, 
 keeping the spaces about equal, and drawing taut enough to be 
 graceful, until it reaches the opposite side. Then draw the weaver 
 through the wale and under the second row and up on that side ; 
 next wind about the handle bow again, back to the starting-point. 
 Push the weaver through the wale, under the second row and 
 out again, and once more wind across the handle bow. Repeat 
 this operation from side to side until the handle bow is covered. 
 Keep each row of winder close to the preceding one and parallel 
 to it. When the bow is covered, tuck the end of the weaver 
 through the wale and under the second row and clip the end. 
 leaving it just long enough to stay in place. The handle bow 
 needs to be damp enough to be flexible, but unless the winding 
 weaver is well soaked it will crack and make trouble. 
 
 5 Basket Tray 
 
 Problem — To construct a reed basket or tray, having an even 
 number of spokes, and using same number reed for both 
 spokes and weaver. 
 Material — Sixteen spokes, each 11 inches long, of No. 3 or No. 4 
 reed. Weaver of reed of same number as spokes. 
 Separate the spokes into groups of four. Place set No. 1 on 
 ?nd at right angles to set No. 2. Sets 3 and 4 are laid diagonally 
 across sets 1 and 2. 
 
 Hold the spokes firmly, attach the weaver and go in and out 
 four times round, over and under the same set of spokes each 
 time. At the end of the fourth round, pass the weaver over two 
 sets of spokes and weave four rows. Next separate the spokes 
 into sets of two and weave one row ; now each time that the
 
 80 
 
 CONSTRUCTION WORK 
 
 weaver comes to starting-point in the circle, pass it over two sets 
 of spokes instead of one, and then weave the next round. When 
 you have been around seven times using double spokes, bend the 
 spokes up for sides and weave two more rows over double spokes. 
 
 HOW TO BEGIN THE BASKET TRAY 
 
 Then separate into single spokes and weave six rows, remember- 
 ing each time to pass the weaver at the end of a new round over 
 two spokes instead of one, so as to have them properly alternated. 
 Trim the ends of the spokes to an equal length and start the bor- 
 der by bending any given spoke to the right and inside the tray, 
 holding it in place. Continue with each succeeding one until all
 
 BASKETRY 
 
 81 
 
 the spokes have been bent into position. These spokes being 
 bent so closely and consecutively over each other, form a coil re- 
 sembling the handle of a basket. The points of the spokes are 
 pushed under the coil, through from the inside to the outside of 
 
 REED BASKET TRAY 
 
 the basket. Keep a vessel of water at hand and wet the material 
 constantly as you weave. When the tray is finished, press it into 
 shape and set aside to dry. When it is well dried, clip oft' the 
 projecting ends. 
 
 6 Basket with Handle 
 
 Problem — To construct a basket using an uneven number of 
 spokes, spokes and weaver the same number reed ; and to add 
 a handle. 
 
 Material — No. 3 reed : eight stakes, each 20 inches long ; one stake 
 11 inches long. Weavers of No. 3 reed. 
 
 Make two groups of four each of the twenty-inch stakes. Place 
 one set at right angles across the other, and beside the under set 
 insert the eleven-inch spoke. Hold the spokes firmly between the 
 thumb and the forefinger of the left hand, and with the weaver 
 in the right hand place the starting end under the edge of the
 
 82 
 
 CONSTRUCTION WORK 
 
 upper set; bring it around and over set No. 1, under No. 2, over 
 No. 3, under No. 4, and repeat this operation four times. Now 
 separate the spokes into groups of eight twos and one single, and 
 weave four rounds. Next cut seventeen eleven-inch stakes and 
 push one in beside each stake already used. Divide them into 
 seventeen pairs. Weave round and round until you have a base 
 
 REED BASKET WITH HANDLE 
 
 three and one-half inches in diameter. Being sure that the weaver 
 is damp and pliable, with fingers, or "pliers," bend up the stakes 
 close to the weaving, at right angles with the base, and continue 
 weaving until the basket is four inches deep. Then trim the 
 stakes, if necessary, to uniform length and bend them over to 
 form the border. Take any stake, as No. 1, and work from right 
 to left. Bend down No. 1, pass under No. 2 and over No. 3. 
 Then take No. 2, pass under No. 3 and over No. 4. Continue
 
 BASKETRY 83 
 
 until every pair of stakes has been turned down and worked into 
 the border. All ends must come inside the basket; after it is dry, 
 trim them off. You will find that in working with the wet reed 
 your basket may seem not to have the proper shape. Soak it well 
 and you will be able to mould as you wish it. Add a handle. 
 
 This basket is made almost exactly like the little hamper basket 
 previously described, except that in this one, we use double stakes, 
 while in that one, single stakes were used ; the sides of this one 
 are vertical, those of that one slightly curved. 
 
 In passing from the reed basket, the next step would be the 
 raffia and then the combination of reed and raffia, which is worked 
 out in all forms of Indian basketry. The most common stitch is 
 known as the "lazy squaw," and is made by winding the raffia 
 round the reed one, two, or three times, as space is desired ; and 
 then the needle is taken through the row below to make the 
 stitch. Each stitch is a repetition of the one before and the mat, 
 tray or basket grows with the effort. There are innumerable op- 
 portunities for design in Indian basketry, and it is here that the 
 work of an artist may be realized and recognized. 
 
 RAFFIA CONSTRUCTION 
 
 We may correlate and combine raffia with reed in construction. 
 The two materials may be worked together to great advantage 
 and interest to the child. For instance, when a napkin ring has 
 been made of reed let the child next construct one of raffia, and 
 then compare the finished article as to the material used, the 
 beauty, the flexibility, the durability, and the nativity of each. 
 
 As in the case of reed, so with raffia before constructing with 
 it, pass a piece to each child and give the life history of the plant. 
 Madagascar may be a name only to the small child, but the very 
 vagueness of his knowledge concerning it may cause him to realize 
 the di.stance of the island from us and appreciate that this simple 
 material with which he is working has traveled thousands of 
 miles to bring him a storv and an occupation. 
 
 Raffia, a native of the South Sea Islands and of Madagascar, 
 is the inner bark of the raphia palm, pulled off, torn into narrow 
 strips, dried in the sun, and bound into bunches, which are plaited 
 together and stored ready for use or shipping. 
 
 We receive the raffia in its natural state, but many colors mav
 
 84 CONSTRUCTION WORK 
 
 easily be had by dyeing. In Practical Basket Making, by George 
 Wharton James, some valuable suggestions on dyeing are given ; 
 but the small quantity of raffia a teacher will need may be dyed 
 with very little trouble with the "Easy Dyes" manufactured by 
 the American Color Company. Follow directions and the results 
 will be most satisfactory. Be very careful to have the dyes 
 strong enough, as raffia absorbs an enormous amount of coloring. 
 All raffia should be washed before dyeing ; it should be well dried 
 before being put into the dye pot, since it takes the color better 
 when dry. 
 
 If you have pupils old enough, or a class on which you can rely, 
 nothing will delight them more than to do their own dyeing. A 
 fourth-grade class in one of the Baltimore schools has success- 
 fully dyed all the raffia, cord, cotton, and textiles used in their 
 classroom. The child dearly loves color; the possibility of having 
 different shades to work with will arouse an intense interest in 
 procuring these colors. It will be unusual if the pupils do not 
 handle with care the materials and the dye pot. 
 
 In adapting a commodity to circumstances in this way, the 
 broader knowledge of how the colors in clothing are obtained will 
 develop and there will be created in the child a new idea of life 
 and of man's work. 
 
 The natural color of the raffia is much improved by washing; 
 therefore, before using it loosen it and soak it in clean water so 
 that all dust and dirt may be removed and the strips or strings 
 straightened out ; then hang it in the air until thoroughly dry. 
 
 Before offering any models of the combined reed and raffia, we 
 shall give a few of raffia alone, as we did of the reed. 
 
 ^ 7 Plaited Rope 
 
 Problem — To teach different ways in which the plaited rope of 
 
 raffia may be applied. 
 Materia! — Raffia. 
 
 Begin the use of raffia by teaching the child the three-strand 
 plait, adding a new thread from time to time, until a long rope 
 is made. Next teach how to coil this rope into a mat, a purse, a 
 basket, or a hat. 
 
 In plaiting, keep the raffia damp and use strands of equal size. 
 Dampness adds gloss and smoothness to the finished article.
 
 BASKETRY 
 
 85 
 
 THREE-STRAND PLAIT 
 
 In the construction of articles of plaited rafifia an opportunity 
 opens up to bring the child's inventive ingenuity into play. Get 
 him to think of something he might make, and to construct it 
 roughly of paper. With his model as a guide for shape and size, 
 he can easily reproduce it in rafifia. The first pattern may be 
 crude, but each repetition will produce a better one. and interest 
 will lend enchantment, until both pattern and reproduction will 
 be most creditable. 
 
 8 Plaited Mat 
 
 Problem — To construct a mat of plaited raffia rope. 
 Material — Raffia. 
 
 /hji Tiutt(n^ 
 
 MAT OF PLAITED BRAID 
 
 The starting-point in all these designs is the little round coil, 
 called the button. 
 
 To make a mat, first plait a rope several feet long. To form 
 the button hold the end of the rope between thumb and fore- 
 finger, and begin to roll the rope just as a watch spring is coiled. 
 With a needle and fine thread of raffia, make the button firm;
 
 86 CONSTRUCTION WORK 
 
 then keep on coiling around the hutton and, as each row is added, 
 tack it to the preceding row by pushing the needle in and out at 
 right angles with the braid, so that the stitch may be invisible. 
 "When finished the mat should be about four inches in diameter. 
 The object of winding the plait sideways is to give the mat firm- 
 ness and thickness. 
 
 9 Purse 
 
 Problem — To construct a purse or bag of plaited rafiia rope. 
 
 (See page 87.) 
 Material — Rafiia. 
 
 To make a purse, plait enough rope to make two mats three 
 and a half inches in diameter. To construct these mats first make 
 the button. Work this time with the braid flat. Sew by holding 
 the mner edge of the plait just under the outer edge of the pre- 
 ceding row. When both mats are finished, place them flat against 
 each other, and overseam or buttonhole the edges together for 
 about two-thirds of the circumference. Plait a rope, seven inches 
 long, for a handle. Tie a knot in each end, and ravel the ends of 
 raffia to form a tassel. Attach this handle to the purse at each 
 side, where the opening begins. Girls especially delight in this lit- 
 tle purse or bag. 
 
 10 Plaited Basket 
 
 Problem — To sew braid together to form one angle. (See page 
 
 88.) 
 Material — Raffia. 
 
 Dimensions — Bottom three inches in diameter; sides two inches 
 high ; handle six inches long and two braids wide. 
 
 Using three threads of raffia, plait a rope several feet long. 
 Proceed just as with purse, and sew until you have a mat three 
 inches in diameter. Now place the braid at right angles with the 
 base, and sew round and round to form the sides. When these 
 are two inches high fasten the braid ; and, without cutting it, carry 
 it to the opposite side to form the handle. Fasten it there and 
 bring it back again, to make the handle two braids wide. Either 
 overseam these together to make a broad handle, or leave them 
 separated to form a double handle. 
 
 An easy way to obtain a more uniform shape in constructing
 
 BASKETRY 
 
 87 
 
 PURSE OR BAG OF PLAITED RAFFIA— (For description see page 86.) 
 
 this basket is to have a smooth tumbler or a tin box. and, as yon 
 work, fit the material to the form. When it is finished, dampen 
 it and let it remain on the form until it dries.
 
 88 
 
 CONSTRUCTION WORK 
 
 BASKET OF PLAITED RAFFIA— (For description see page 86.) 
 
 ^ 11 Hat of Plaited Rope 
 
 Problem — To sew the braid together to form two angles. 
 Material — Raffia. 
 
 HAT OF PLAITED RAFFIA 
 
 First plait the raffia together until you have a very long braid. 
 Take the starting end, make the button, and sew round and round, 
 as in making the purse. When the top of the crown is as 
 large as you wish it, turn the braid at right angles and form the
 
 BASKETRY 89 
 
 sides. When, in yonr judgnient, the crown is high enough, make 
 a second right angle to form the brim, which may be wide or nar- 
 row as taste dictates. Use a blunt needle (Smith's tapestry, 
 No. 18). 
 
 12 Napkin Ring 
 
 Problem — To construct a raffia napkin ring. 
 
 Material — Raffia. A piece of tag-board 1 3/2 or 2 inches wide 
 and 6 inches long. Quarter-inch ribbon or strip of paper, or 
 raffia of a contrasting color. 
 
 There is mentioned a raffia napkin ring in comparison with the 
 one of reed. 
 
 Take the strip of tag-board, fasten the ends together and wrap 
 with raffia until the board is covered. 
 
 It may be ornamented with a narrow strip of ribbon, paper or 
 colored raffia woven around the center. If ribbon or raffia is used 
 tie the ends in a bow. If paper is used the ends must be glued. 
 
 13 Indian Basket 
 
 P'^oblcm — To teach construction with twisted raffia rope. (See 
 page 91.) 
 
 Materia! — Two contrasting colors of raffia. 
 
 First think of what shape and size you would like a basket; 
 then roughly sketch a design, in order that an idea of shape, size, 
 and proportion may be had. Keep the design before you and 
 work as closely from it as possible. 
 
 Take three thick strands of raffia and twist them into a rope. 
 In starting have the threads unequal in length, as it is much neater 
 to add one new thread at a time than two or three. Keep the 
 rope of the same thickness throughout, and as each thread is used 
 up, insert another overlapping the old one two or three inches. 
 Around this rope, and twisted in the same way, w^rap a contrast- 
 ing color of raffia, aiming to have the spaces equal and using 
 threads of the same size. Having twisted and wound four or 
 five inches start the basket by forming a button, then, holding 
 the button firmly with the left hand, coil the rope round and 
 round and sew it. l^se the sharp-pointed needle and join the 
 coils in such a wav that the threads will coincide with the twist.
 
 90 
 
 CONSTRUCTION WORK 
 
 When the basket is finished, the opening at the top should be 
 Xs^ either greater or less in diameter than the base. Make a lid ex- 
 actly as the base is made, and have it just a shade wider than 
 the opening so that it will be supported. The ring with which to 
 
 INDIAN BASKETS 
 
 lift the lid is made by wrapping raffia three or four times over 
 the finger, and then buttonholing it over. Sew the ring to the 
 middle of the lid and attach the lid to the basket. 
 
 The model here given is made of white raffia twisted with red. 
 Diameter of base, 4 inches ; height, 2]/^ inches ; opening at top, 
 Zyy inches; diameter of lid, 3->4 inches.
 
 BASKETRY 
 
 91 
 
 IXDL\.X BASKET— For description see pages 89 and 90.) 
 
 14 Grass Basket or Tray 
 
 Problem — To teach how to construct a basket of grass, pine nee- 
 dles, or corn husks. 
 Materiai — Narrow-blade marsh or sweet grass. Raffia for sew- 
 ing. 
 
 ]\Iake a design in pencil, ink, or colored crayon. 
 
 Here the adaptability of material gathered about the home is 
 illustrated. The tall, fine marsh grasses may be collected, spread 
 out for three or four days where they will dry, and then utilized. 
 You will find that almost every blade of this grass varies in color. 
 The root end may be brown, while toward the tip the leaf shades 
 into a light green, or white, or vice versa; this blending, when 
 the grass is bunched, is most artistic. 
 
 Bunch a sufficient number of blades to make a coil a half or 
 three-quarters of an inch in diameter. Do not twist. Never 
 allow the coil to lessen in size. Keep adding fresh strands by 
 slipping the root ends of the new blades up between those already
 
 92 
 
 CONSTRUCTION WORK 
 
 BEGINNING OF BASKET TRAY 
 
 in the coil. When we begin to sew we do not wrap the grasses 
 as we wrapped the strands of raffia, but simply use as a sewing 
 thread raffia of a contrasting or blending color. To form the 
 button, wrap the threads three or four times around the root ends 
 of the bunch, fasten tightly, then coil to form the center. Take 
 the needle through the center and over the coil as many times 
 as you think necessary to make the button firm. These stitches 
 are the beginning of the spiral rays which radiate to the edge of 
 the basket. Take. the stitches at equal distances from each other. 
 Handle the needle so as to pass from back to front, and always 
 have the new stitch pass through the stitch of the coil just below 
 it from right to left. When the coil has been wound around four 
 or five times, the stitches will be seen to interlock and form a 
 spiral. Soon the spaces will become too wide ; then take an extra 
 stitch in the center of each space, thus adding another set of rays. 
 Continue adding new sets of rays as the spaces widen, until the 
 basket is finished. 
 
 When the base has grown to the required size, turn up for sides 
 and continue sewing in the same way until the necessary depth 
 is obtained. To give a finish add enough grass to make a thick 
 coil around the edge. 
 
 Colored hemp may be woven in with the grass either as a lining 
 or so inserted as to make a beautiful pattern. The value of the
 
 BASKETRY 
 
 93 
 
 basket will be enhanced by the use of sweetgrass, if this material 
 is obtamable. 
 
 The model given is made of marsh grass, sewed with rafifia of 
 natural color, and the design is made in pink hemp. Its base is 
 rive inches in diameter; its dej^th one and one-fourth inches. 
 
 Corn husks may be used instead of grasses, and are unexcelled 
 for beauty and artistic effect. Use the inner husk from the ear 
 
 BASKET TRAY 
 
 when green ; though the husks will dry, the varied color will not 
 be lost. When made up with a contrasting color of green or 
 golden brown rafifia they are most attractive. Grasses may be 
 kept a long time ; but before using them soak them thoroughly, 
 and let them dry out. This treatment will make them so pliable 
 that they may be handled as easily as though freshly gathered. 
 The long needles of the southern pine also are thus worked up. 
 
 15 Basket of Splints and Raffta 
 Problem — To teach construction, using splints and raffia. 
 Material — Splints of ash or flat reed : eighteen splints, each 
 
 54x12 inches; 3 splints, each /4xl8 inches, for binding of 
 
 edge. Raffia of two or three colors.
 
 94 
 
 CONSTRUCTION WORK 
 
 Diiiiciisioiis — Base, 4x4 inches. Depth, 2 inches. Sides, 2x4 
 inches. 
 Lay a set of nine spHnts flat on a surface. Take one of the 
 remaining nine and weave across for the first row. Add a second 
 spHnt, weaving in and out through ahernate ones. Continue until 
 all the nine splits are woven in and the square base of the basket 
 is formed. Have splints sufficiently damp to be flexible ; otherwise 
 they may break. Bend up the splints at right angles to the base 
 for sides, thus making corners. Now with the raffia weave in and 
 
 BOTTOM OF SPLINT AND RAFFIA BASKET 
 
 out, interlace the thread at the corners, and draw it tight enough to 
 hold the splints in place. Introduce color to suit taste. 
 
 When the sides are finished, take an eighteen-inch splint and lay 
 it around on the inside of the basket close to the last row of raffia. 
 Hold it in place and turn the ends or the basket splints over it 
 inward. These end splints must be trimmed evenly and left just
 
 BASKETRY 
 
 95 
 
 long enough to bcncl over the sphnt running round on the inner 
 side. Tatce two more eighteen-inch spHnts ; having placed one 
 inside the edge and the other outside the edge of the basket, with 
 a needle and a long thread of rafifia whip over and over. Bring 
 
 BASKET OF SPLINTS AND RAFFIA 
 
 the needle through each opening between the splints until you 
 have gone around the four sides. This makes a suitable border 
 and completes the basket. 
 
 The model given here has ten rows of natural color, ten rows of 
 green, six rows of brown, ten of green and ten of natural color, 
 which combination makes it two inches deep. 
 
 COMBINED REED AND RAFFIA 
 
 Problem — To teach how reed and raffia may be combined in con- 
 struction. 
 
 The models suggested here are very simple and can be made by 
 the younger children of the lower grades. These have been held to 
 purposely, for the child needs first to learn how both to use his 
 fingers and to handle a needle ; and afterward he must have much 
 practice before he can take up the more difficult stitch in the In- 
 dian basketry. 
 
 In beginning the combined reed and raffia work, the first thing 
 I should make is a miniature umbrella.
 
 CONSTRUCTION WORK 
 
 
 UMBRELLA 
 (For description see opposite page.)
 
 BASKETRY 97 
 
 16 Umbrella 
 
 Material — One 9-inch spoke of Xo. 4 reed for handle. Xine 
 4-inch spokes of Xo. 1 reed for ribs. Raffia for weaver. 
 
 Have the spokes thoroughly soaked and keep them wet. Also. 
 have the raffia damp. Place the four-inch spokes around the nine- 
 inch spoke, hold them firmly, and wrap tightly with the damp 
 weaver four or five times ; then tie, but do not cut the weaver. 
 Now stand this bunch of spokes on end on a board or desk top, 
 press the nine spokes out so as to form a circle parallel with the 
 surface of the desk, and with the weaver work in and out among 
 the spokes. The convex top of the umbrella will soon form. To 
 lengthen the weaver, tie on a new piece of raffia. Continue weav- 
 ing until within an inch of the ends of the ribs, or until the um- 
 brella is four or four and one-half inches across ; then fasten by 
 tying the weaver to one of the ribs. 
 
 To form a ferrule, slide end Xo. 1 of the handle reed down 
 until it stands three-quarters of an inch above the outside of the 
 umbrella. Drop a little glue into the cavity to hold the reed in 
 place. Xow take end Xo. 2 of the handle reed and curve it to 
 form a ring or to appear like the handle of a real umbrella. Tie 
 it wath raffia to keep it in place and lay the umbrella aside to dry. 
 When it is thoroughly dry, clip the points of the ribs to equal 
 lengths. 
 
 This little toy suggests the invention of primitive life or of an 
 uncivilized nation of which the pupil has some previous knowl- 
 edge. It is most attractive, and to have made it greatly pleases 
 the child. 
 
 17 Miniature Chair No. I 
 
 Material — X^o. 4 reed: one piece 15 inches long; one piece 6 
 
 inches long; four pieces 10 inches long. Several lengths of 
 
 raffia. 2* 
 
 Take three ten-inch lengths of reed and bend them so: 
 
 Fasten them together at the joints and wrap with the raffia 
 
 for about two inches to form the front legs. X^ext attach 
 
 the fifteen-inch length of reed, placing the ends together to 
 
 form the back legs and allowing the extra amount to extend 
 
 aDOve in a bow to form the back. 
 
 You now have the framework of back, seat, and legs. At the
 
 98 
 
 CONSTRUCTION WORK 
 
 back, where the bow extends above the Hne of the seat, place a 
 five-inch piece of very wet reed to the front of the bow and ^^ 
 the edge of the seat ; carry it around and lap it at the back ana 
 fasten to hold the back legs together and shape the seat. 
 
 CHAIR No. I 
 Made of reed and raffia. 
 
 This chair has a woven seat of raffia. Use a very long needle 
 and carry the raffia from one side of the seat to the other in close 
 lines until the space is covered one way. Then reverse the action.
 
 BASKETRY 99 
 
 and work from front to back, weaving in and out among the cross 
 threads exactly as you do in darning. Be careful to keep the 
 thread even, to prevent sagging. When the seat is woven whip 
 the edge all around with raffia for a finish. 
 
 Next take the remaining ten-inch piece of reed, bend it to a 
 two -inch square and insert it between the legs one inch below the 
 seat. Tie it to each leg and wrap the intervening space with the 
 raffia as you go from leg to leg. This forms the brace which holds 
 the legs in position. 
 
 For the back take a very long thread of raffia in your needle, 
 make seven cross threads and weave a spider's web, having the 
 center fill about one-fourth the space. When the web is finished, 
 buttonhole around the reed to fasten the spirals in position and to 
 give a finish to the frame of the back. 
 
 Lastly measure and trim off the legs to equal length. The back 
 should extend two and one-half inches al)ove the seat, and the legs 
 should be two and one- fourth inches long. 
 
 18 Miniature Chair No. II 
 
 Material — No. 1 reed: six spokes, 10 inches long; one spoke, 6 
 inches long. No. 4 reed: two 15-inch lengths; six 10-inch 
 lengths and one 12-inch length. Several lengths of raffia. 
 
 Weave two mats two inches in diameter in the following man- 
 ner; Lay three ten-inch spokes across three ten-inch spokes at 
 right angles. Place beside the under set the six-inch spoke. 
 Take a piece of raffia, not too thick, for a weaver, and beginning 
 as you would begin a basket or mat with a reed weaver, weave 
 until the mat is two inches in diameter. Do not cut either spokes 
 or weaver. Have the reed well soaked, that it may be very pli- 
 able and in no danger of breaking. 
 
 To construct the back, take a mat and a fifteon-inch length of 
 reed, bend the latter to a bow and place it back of the spokes at 
 the edge of the last row of weaving. Bend each spoke consecu- 
 tively over this reed and bring the end of the spoke through be- 
 tween the last row of weaving and the reed. This forms a loop 
 over the No. 4 reed. Thread the weaver into a needle, and 
 take it in and out where the No. 1 reed, or spoke, crosses be- 
 tween the mat edge and the No. 4 reed in the form of a back 
 stitch. The first one fastened, continue in the same wav until ten
 
 100 
 
 CONSTRUCTION WORK 
 
 spokes are bent over and tied down. Next take the 
 
 twelve-inch length of No. 4 reed, bend it to this shape: 
 
 then fasten the three remaining spokes to the two-inch 
 
 space as you have done with the other ten. Take the 
 
 second fifteen-inch length of No. 4 reed, bend around again and 
 
 fasten by running a piece of rafiia in and out and over through each 
 
 CHAIR No. II 
 Made of reed and raffia. 
 
 space between the loops. Lay it aside until the seat is prepared. 
 
 Scat. The mat is ready. Bend a ten-inch length of No. 4 
 
 reed into a 2^4 -inch square. Set this around the mat, bend the 
 
 spokes over it and fasten as you did those of the back. Again
 
 BASKETRY 
 
 101 
 
 take three ten-inch lengths of Xo. 4 reed and bend so: li!' 
 Place these around three sides of the prepared seat and 
 fasten them by wrapping them over and over with raffia, 
 and the front and two sides of the chair are formed. 
 Adjust the back to the fourth side of the seat ; fasten it by wrap- 
 ping it closely with raffia. Next bend to a form near the size of the 
 seat a piece of No. 4 reed. Place this around the legs, to form a 
 brace, about one inch below the seat in front and about three- 
 fourths of an inch below in the back. Let the joining point of 
 the reed come at the back. \\'ith a piece of raffia fasten this to 
 
 BACK OF CHAIR Xo. II 
 
 one leg, then wrap the raffia over and over along the brace until 
 the next leg is reached, secure it and pass on to the third, then to 
 the fourth, when the entire brace will be wrapped with raffia and 
 the four legs held in place. 
 
 Where the back is attached to the seat, you will have four Xo. 4 
 reeds coming tosfether to form the back lesrs. This would make
 
 102 CONSTRUCTION WORK 
 
 them too thick and ckinisy and they would not he symmetrical 
 with the front ones. To prevent this, clip two of the reeds be- 
 tween the seat and the brace on the legs. Cut out the ends of the 
 one of the back first worked in, and the ends of the one forming 
 the back brace. There is left the outer fifteen-inch spoke you 
 put on and the one which came around from the side of the seat. 
 These two form the back leg on each side. Wrap closely with 
 raffia the intervening spaces between the seat and the brace so as 
 to leave no unsightly ends. 
 
 In bending the reed to fashion the legs it is impossible to have 
 it all the same length; adjust this by letting the unevenness come 
 out at the foot of the leg and when the chair is finished measure 
 and cut off the legs to the same length. 
 
 Rules for Canixg Chairs 
 First: J\v'ticals. 
 
 Setting up : Begin at the center hole of the front, pass the 
 cane up through the hole from the underside and down through 
 the corresponding hole at the back, leaving about four inches to 
 tie otT; then up through the next hole to the right, pass to the 
 corresponding hole to the front, continue to the right and then to 
 the left, until all the holes are filled except the corner ones 
 Second: Horizontals. 
 
 Begin at the center hole at the left, pass the cane up through 
 the hole and over all the verticals and down through the corre- 
 sponding hole on the right, filling all the holes toward the front 
 and then toward the back until all the holes are filled except the 
 corner ones. 
 Third: J^crticals. 
 
 Begin at the center hole at the back, pass the cane up through 
 the hole at the front, then fill all the holes to the right and the 
 left, except the corner ones. 
 Fourth: Weaving Horizontally. 
 
 Begin at the right-hand side, pass the cane over the upper ver- 
 tical and under the lower vertical, pulling the upper one to the 
 right and keeping the weaver to the back of the first horizontal ; 
 continue this until you have two horizontals in each hole. 
 Fifth: Diagonals Running from Left to Right. 
 
 Pass the cane up through the front left-hand corner, under
 
 BASKETRY 103 
 
 the verticals and over the horizontals, working toward the upper 
 right-hand corner; first the right, and then the left-hand side of 
 the frame is filled in this manner. 
 Si.vtii: Diagonals Running from Right to Left. 
 
 Pass the cane up through the front right-hand corner and work 
 toward the back left-hand corner, passing the cane over the ver- 
 tical and under the horizontal pairs ; continue in this way until the 
 entire frame is filled with these diagonals. 
 
 Tie all the ends securely on the under side of the frame. 
 Bind Off. 
 
 Lay a piece of cane over the holes on the upper side of the 
 frame. Take a second long piece of cane as a weaver, pass it 
 from the under side of the frame up through a hole, over the 
 cane, and down through the same hole to the under side again. 
 Carry it along to the next or second next hole, pass up, over cane, 
 and down in the same way. Continue this until the entire frame 
 is bound around.
 
 PART V 
 THE SCHOOL GARDEN
 
 M 
 
 
 THE SCHOOL GARDEN 
 
 Introductory Remarks 
 
 In the spring of 1906, at the request of President R. W. Sil- 
 vester of the Maryland Agricultural College, I wrote, for publica- 
 tion as a College Bulletin, my experience of one year's work in a 
 city school garden. The introduction of school gardens as a 
 factor in the school curriculums was then in its infancy. Three 
 years have shown great advancement along this line, though the 
 main issue is the same to-day as it was then. This paper is a re- 
 vised edition of the M. A. C. Bulletin. That President Silvester 
 was a pioneer in the thought that "agriculture should enter into 
 education" is shown by the following quotation from his introduc- 
 tion to my article of 1906 : — 
 
 "The time must come when the child of rural environment 
 must find in the only school which ninety per cent will ever at- 
 tend, a training which will give it an intelligent adjustment to its 
 environment. With this adjustment, the future work of the 
 child cannot reasonably expect to escape the state of drudgery. 
 When a life's work degenerates into this condition, then con- 
 tentment with it, or happiness as a result of it, becomes an idle 
 dream. Can the accuracy of this statement be questioned? It 
 so, it would be a great privilege for the writer to receive from 
 some teacher a letter setting forth the particulars in which he is 
 wrong. 
 
 "Let all wdio are interested in the child from the country, and 
 every one should be, take this as a motto in this great work be- 
 fore us : 'The country is entitled from its state and from its 
 county, to that consideration which will give him every oppor- 
 
 107
 
 108 
 
 CONSTRUCTION WORK 
 
 tunity to secure an education as well suited to his conditions, as 
 is enjoyed by his city brothers and sisters.' " 
 
 A CITY SCHOOL GARDEN 
 
 If a country boy were to hear his little city brother say, "Our 
 class has a garden and I have a share in the working of it," the 
 country chap would "non plus" him by quickly exclaiming, 
 "What's that! I work in my father's garden every year and 
 know all about raising and gathering vegetables." 
 
 But to the city child, who sees only cobblestones beneath his 
 feet, whose view is contracted by rows of dingy houses, or who 
 
 WEEDING THE BEDS 
 
 plays on a lot used both as a dump-pile and as a baseball ground, 
 the privilege of working in a garden plat is a great one and the 
 products of its soil a revelation. 
 
 The aim here is to give an account of one season's work in 
 such a garden — a garden treasured by children whose only knowl- 
 edge of vegetable foods was that mother got them in the market. 
 
 Through the courtesy of the City Park Superintendent of Bal- 
 timore, sections of ground in some of the parks are placed at the 
 disposal of the Board of Education for school gardens, and the
 
 THE SCHOOL GARDEN 
 
 109 
 
 privilege of cultivating these gardens is granted to teachers in an 
 adjacent building. 
 
 It is of the section in Riverside Park that I am writing, and 
 the accompanying illustrations are pictures of this garden, taken 
 at various times through the season. 
 
 These sections arc not in prominent places, but for the most 
 part in undesirable corners that the park gardener is willing to 
 
 GIRL INTEREST 
 
 relinquish for the good of the cause. In Riverside Park the 
 plat is adjacent to the summer playground, and the second year 
 that I had the garden, at the end of June when school closed, a 
 few of the children volunteered to attend to it during vacation. 
 
 The interest of these childr-^n attracted the attenion of the 
 director of the playground and she offered to oversee the work 
 v/hile the playground was in session if some of her children might 
 have the privilege of working in the garden. 
 
 This proved to be an amicable arrangement, as by it the garden 
 was kept in good condition all summer. When school opened in 
 September I took charge again, that the children might have the 
 full experience. In my memory lingers a most vivid picture of a 
 cold November afternoon when we gathered what remained of 
 the crops, cleaned off the beds, heaped the refuse in the center
 
 110 
 
 CONSTRUCTION WORK 
 
 of the garden, and had a most glorious bonfire, though it was not 
 election day. We watched the last spark die out, closed the gate, 
 and with regretful steps wended our way back to the schoolroom, 
 to await the coming of another spring. 
 
 Our plat measures fifty by twenty-five feet and is enclosed by 
 a fence. The park gardener became interested in the children's 
 
 MAY I COME IN? 
 
 efifort and added to the success of the work by giving the neces- 
 sary top soil, lending wheelbarrows, and offering occasional 
 suggestions. 
 
 As a preparation for the outside work we made a thorough 
 study of soil composition and seed germination early in the win- 
 ter. The children brought pieces of rock, pebbles, shells, wood, 
 and leaves as concrete illustrations and with these before us the 
 following lessons were developed : — 
 
 I That soil is made from the wasting away of all kinds of rock. 
 
 II That soil is made by decaying wood. 
 
 III That soil is made by decaying leaves. 
 
 IV That the above composites combine to form productive soil. 
 The object of the first lesson was to teach that soil is made 
 
 from rock. 
 The pupils examined stones, pebbles, and shells. They found
 
 THE SCHOOL GARDEN 
 
 111 
 
 some rough, some smooth. Through the teacher's questions — 
 ''Why are some rough?" "\\'hy are some smooth?" "If those 
 having a smooth surface now were once rough, what has become 
 of the particles which must have broken away?" — the class was 
 led to express opinions until the final generalization was made : 
 Soil may be formed from the breaking up of rocks and shells. 
 
 Each topic was treated in a similar manner, the specific quali- 
 ties of the specimen being brought out, until we were able to 
 make the summary : — 
 
 "Soil is made from decayed rocks and shells; soil is made from 
 decayed leaves ; the rocks make a coarse soil called sand ; the 
 
 1 
 
 
 i 
 
 n 
 
 
 
 i 
 
 1 
 
 WHOSE BED LOOKS THE BEST? 
 
 wood and leaves make finer soil called loam; the mixture of these 
 soils makes productive soil." 
 
 This summary led to the next lesson, "The Productive Qual- 
 ities of Soil." The question was asked, "How can we determine 
 the productive quality of soil ?" 
 
 "We can plant some seeds in each kind of soil," said a child. 
 Several pupils volunteered to bring pots of earth. 
 
 Ready for the experiment, we proceeded to analyze as follows 
 the soil brought by the children : —
 
 112 
 
 CONSTRUCTION WORK 
 
 "Take some of the soil in your hands, powder it as finely as 
 possible. — John, what do you find in yours?" 
 
 "I can feel grains of sand," said John. 
 
 "Do you think there is more sand or more loam?" 
 
 "I think there is more loam," said another child. 
 
 "Why do you think there is more loam?" 
 
 "Because, when I rub it between my fingers there seems to 
 be more soft material than grains," came the answer. 
 
 "Can any one suggest a means of proving that there is some 
 of each kind of soil in what we have here?" 
 
 Various suggestions were made, but none directly to the point. 
 
 LAST DAY OF SCHOOL 
 
 "Mary, fill that glass jar three parts full of water. We will 
 now drop into the water some of this soil and mix it well. What 
 do you think will happen when we stop stirring?" 
 
 "The sand will settle at the bottom of the jar," was the ready 
 reply from a bright child. 
 
 "The coarse loam will settle next," was a second answer; and 
 then came the statement that the finest loam w^ould remain on top. 
 
 We waited a few days and were rewarded by seeing the soil 
 in distinct layers in the jar.
 
 THE SCHOOL GARDEN 
 
 113 
 
 '''Xow we will try to discover which kind will produce the best 
 plant. How shall we determine this?" 
 
 "Plant some seeds," was the immediate suggestion. 
 
 One pot was filled with the original soil, and one each with the 
 kinds of soil that we had gotten from our experiment. A seed 
 
 STUDYIXG NATURE 
 
 oeaa was placed in each pot, and all pots ;,ubjected to the same 
 conditions and watched by anxious eyes. 
 
 "I see a bean pushing up," came the statement one morning 
 and every child wished for a peep at the tiny plant. 
 
 "In which soil did the plant appear?" 
 
 Another look was taken and answer given that the plant came 
 from the mixed soil. 
 
 The second plant to appear came from the bed of coarse loam;
 
 114 CONSTRUCTION WORK 
 
 the one in the pot of fine loam came third; and last the one in 
 the sand struggled to a small shoot, then died of starvation. 
 
 After this the life of one plant was studied. Thus slowly and 
 cautiously the study of seed germination was made, the teacher 
 getting all from the child possible, and aiming to have him cull 
 his information from the plant before his eyes. 
 
 Now that we were familiar with the facts concerning soil com- 
 position and seed germination, we felt prepared to take up the 
 outside work. 
 
 Between the first and the fifteenth of April our first visit to 
 the garden was made. The ground was so saturated with water 
 that it was impossible to think of working it in that condition. 
 After taking a view of the surroundings we discovered that the 
 plat was on low ground and that the water from the rising slopes 
 at the back ran down and settled upon it. 
 
 The question which naturally arose was, "How may this water 
 be gotten rid of ?" A short talk on drainage solved this problem. 
 The* children decided that ditches, ten feet apart, should be dug 
 crosswise in the garden. They were dug, and, as the weather 
 was favorable, in a week's time the soil was in condition to be 
 worked. 
 
 Meanwdiile interest did not flag, though it was impossible to 
 accomplish any outside work. Writing letters to an imaginary 
 hardware dealer, stating what tools we needed and inquiring the 
 price, became an all-absorbing exercise. Next, we turned deal- 
 ers ourselves and rendered itemized bills and receipts to purchas- 
 ers of garden materials. In this way two forms of letter- 
 writing were taught and the children derived both pleasure and 
 profit from the work. 
 
 In the construction period were made the labels they would 
 need when the planting-time came. These were cut from small 
 pieces of wood with penknives and marked ready for use. 
 
 A plan by which to landscape this same plat had been drawn 
 the year before by the supervisor of our city school gardens. 
 This plan suggested a talk on landscape gardening and intense 
 interest was at once aroused. The talk developed such ques- 
 tions as these : — 
 
 "Is the plan before us a good one?" 
 
 "Can we improve on it?" 
 
 "Is there any waste space which we should utilize?"
 
 THE SCHOOL GARDEN 
 
 115 
 
 "Is the plan artistic in its arrangement ?" 
 "Suppose we work out some plans to see what is possible." 
 A lesson such as this followed : — 
 
 A rectangle was drawn on the board to represent the plat. 
 Beside it was a statement of the number of beds to be laid ofif 
 
 A FLOWER FROM THE COUNTRY 
 
 and the width of the paths between. In the arrangement of these 
 beds and paths there must be artistic eiTcct. 
 
 Each child then drew a rectangle on paper and made an orig- 
 inal plan for landscaping. Those showing most thought were 
 placed before the class and their good points commended. The 
 children decided that not one met every requirement. The su- 
 pervisor's plan was again shown, discussed, and adopted. 
 
 This plan called for twenty rectangular beds 3x11 feet in area,
 
 116 CONSTRUCTION WORK 
 
 four sliortcr rectangular beds with a triangular section marked 
 off from the end of each toward the center of the garden ; and 
 a circular bed, four feet in diameter, in the middle of the plat. 
 It also allowed for one three-foot path running through the 
 center the entire length of the garden, and a one- foot path 
 separating the beds. There was to be a IJ/^-foot path around 
 the middle circle. 
 
 In a further study of this plan the following arithmetic prob- 
 lems were developed : — 
 
 "What is the area of a garden plat fifty feet long and twenty- 
 five feet wide?" 
 
 "What would be the cost of this plat at one dollar and twenty- 
 five cents a square foot?" 
 
 "How many feet of fence will be required to enclose this 
 plat ?" 
 
 "If the posts are set five feet apart, how many posts will be 
 required?" 
 
 "There are two rows of cross beams, and each beam is ten 
 feet long; how many will be needed for the fence?" 
 
 "How much will it cost to fence this garden at twelve cents 
 a foot?" 
 
 "What is the area of a garden bed three feet by eleven feet? 
 the perimeter?" 
 
 "What is the circumference of a circular flower bed four feet 
 in diameter?" 
 
 By this time the ground was in condition to be worked. Which 
 should we do first, spade it up, or lay it off? W^e decided that 
 we would first dig up the entire plat and level it. Now, in 
 spacing off, should we begin at the center or from opposite 
 ends? The advantages of each method were strongly advo- 
 cated, and finally, the children themselves concluded that it 
 would be easier to measure for the center and space off from 
 that point. 
 
 Stakes and cord had been brought. Children stood at the sides 
 and ends of the garden. The middle points of the sides were 
 determined and connected with a cord, and likewise the two ends. 
 The intersection of the cords was the center of the plat and here 
 a stake was driven. Attaching a cord to this stake two feet 
 along the cord was measured and a small stick tied there. Using 
 the cord as a radius, a circle was made and the middle bed staked
 
 THE SCHOOL GARDEN 
 
 117 
 
 off. Next tlic three-foot path to opposite ends was marked 
 oft", then the center one-foot path to opposite sides. This much 
 accompHshed, spacing the rest of the plat was easy. Two small 
 boys, with lines and stakes, marked off the remaining portion 
 
 A SUGGICSTIOX l.-()k kI-:CKSS H<.)UR 
 
 and when the ends were reached the measurements were found 
 to be accurate. The paths between the beds were next made and 
 the ground prepared for planting. 
 
 After spading, leveling, and thoroughly pulverizing the native 
 soil, we added a top layer of foreign soil as a fertilizer. The 
 latter came from a compost heap of street sweepings which 
 had been standing two years and was supposed to be nutri- 
 tious. As it turned out, however, this soil contained little
 
 118 CONSTRUCTION WORK 
 
 Lettuce 
 
 nutriment and was product i\c of more fine weeds than fine 
 vegetables, and it required much labor to fight these enemies. 
 
 Now came the seed-planting, which was intensely interest- 
 ing to the children. Rows twelve inches apart were marked ofif 
 across the beds and the seeds planted according to the relative 
 height of the plants which they would produce, those that would 
 grow tallest being placed next to the fence, and the rest graduat- 
 ing to the center ; thus : — 
 
 First came corn, three grains to a hill, the 
 rence hiUs twelve inches apart. Then pole beans, 
 
 P three beans to a hill and these hills separated 
 
 twelve inches. Next we planted two peas in 
 Pole Beans ^ ^^''^ ^"^' made the hills six inches apart. The 
 
 string beans w^ere planted just as the peas had 
 Peas been. Then came a row of lettuce, next rad- 
 
 ishes, a second row of lettuce, and last parsley. 
 String Beans The end of the bed was left for flowers. On 
 Arbor Day, in the classroom, we had sown to- 
 mato and lettuce seeds in boxes, that we might 
 Radishes have the plants ready for transplanting when 
 
 our outside soil was in condition. The let- 
 Lettuce tuce plants turned out satisfactorily, but, ffjr 
 some unaccountable reason, the tomatoes were 
 Parsley a failure. To replace the latter, we took a 
 _-,, corner bed in the garden, divided it into three 
 r lowers sections and planted tomato, onion, and cab- 
 bage seeds. In five w-eeks the tomato and cabbage plants were 
 large enough to transplant, and, as the radishes and lettuce ma- 
 tured and were used, tomato and cabbage plants were put in the 
 vacant places. 
 
 Two pumpkin seeds were planted in each bed, but if they 
 both came up, after the plants had reached a good size, the 
 weaker one of the two was weeded out (as the bed was too small 
 to support both) and the stronger one left to bear fruit. 
 
 Why had we planted onion seed? One of the boys had brought 
 an onion and asked if he might plant it in his bed, and if it w^ould 
 produce other onions. I explained to him and then allowed him 
 to plant the seeds in the supply bed at the same time that he 
 planted the onion in his own bed. The onion planted produced 
 seed, while the seeds sown yielded the small sets for the next
 
 THE SCHOOL GARDEN 
 
 119 
 
 year's planting. Thus by the act of one child the fact was clearly 
 demonstrated to the class that fruit produces seed, and seed pro- 
 duces fruit. 
 
 The supervisor had given us a wren-box, made by a child in a 
 more advanced class as manual work. The children were delight- 
 ed witli the gift; they built a framework around a stout pole in 
 
 A GARDEN IN THE YARD OF A CITY SCHOOL 
 
 the center bed and set the wren-box on the pole. They then sug- 
 gested that a vine should cover this framework. Consequently, 
 Japanese morning glories were chosen as the vine and the re- 
 maining space in the bed was filled with marigolds, nasturtiums 
 and coleus. 
 
 The seeds being planted, the work in the garden was at a 
 standstill until the plants appeared, then systematic visits began.
 
 120 
 
 CONSTRUCTION WORK 
 
 The class was divided into three groups and two children were 
 assigned to a plat. We worked in the garden on Mondays, 
 Wednesdays, and Fridays for half an hour each day. Thus, each 
 group had its day once a week regularly. Finding that it was 
 impossible to direct satisfactorily more than twelve children at a 
 time, I devised the above plan, which worked admirably. To go 
 to and come from the garden took a half-hour, and with half 
 
 GARDEN BEDS AROUND THREE SIDES OF THE PLAYGROUND 
 
 an hour's work there the child was away from the classroom 
 one hour a week. This allowed ample time to keep the beds 
 in order, for two children were apportioned to a bed, and these 
 two went on separate days, so that each plat was worked 
 twice a week. 
 
 The first crop of peas and of beans were gathered as vege-
 
 THE SCHOOL GARDEN 
 
 121 
 
 tables. When the plants ceased to bear a second planting was 
 made and the yield from this was left to mature as seedlings. 
 When ripe, the seeds were gathered and carefully put away in 
 the sectional seed-boxes which the children had constructed for 
 the purpose. 
 
 The children took care of the garden during vacation, gathered 
 
 ANOTHER Si:ori< i\- ()]■■ 
 
 i: ^.\Mi: i;.ARDEN 
 
 the vegetables as they ripened, and with pardonable pride carried 
 them home to their parents. The parents, in turn, were gratified 
 and as much interested as the children. Several of the boys had 
 individual appliances made by their fathers for use in the gar- 
 den. Often on Monday mornings would come the account of the 
 Sunday walk with mother and father, the visit to the garden and 
 how much the parents admired it.
 
 122 CONSTRUCTION WORK 
 
 One instance occurred which proved the vakie of this garden 
 work and showed how devoid of a knowledge of vegetable 
 growth many city children are. I noticed a boy digging around 
 the root of his tomato vine as though he were searching for some- 
 thing. I asked what he was doing. 
 
 "I want to see if there are any small tomatoes there," he re- 
 plied. As the fruit of the radish had come from under the 
 ground he expected to find the tomato there, too. 
 
 The value of educating the child through his self-activity was 
 proved in several instances, one of which 1 will mention. A large 
 boy of the fourth grade, though a poor student, was placed on the 
 list of garden children and proved to be the most industrious and 
 active child of the group. Why? His father was a baker; the 
 boy worked in the bakery until eleven every night ; slept until 
 four, then arose and delivered goods until eight, and was in the 
 classroom at nine. Is there any wonder that this child lacked 
 energy as a student? When he was removed from the confine- 
 ment of the classroom the pure outside air acted as a tonic, his 
 interest was awakened and his work well done. 
 
 This same child, whenever relieved of home duties out of 
 school hours, spent the time in the garden instead of devoting it 
 to play. He hauled a quantity of shells with which to pave the 
 paths, and brought all the sod we needed to form a firm edge 
 around the center bed. Can there be any doubt that this boy was 
 benefited ? 
 
 There is a social side to this industrial outside work which is 
 superior to that of the classroom. 
 
 First : The teacher has but a small number of children under 
 her care at one time; consequently, she is enabled to learn more 
 of each individual nature. 
 
 Secondly : The child is under no apparent restraint, so ex- 
 presses himself freely and shows his natural self. 
 
 Thirdly : The boys and girls mingle with one another with the 
 same freedom that they have on their own playground. 
 
 In the two months spent in the garden not a single child took 
 undue advantage of the privileges allowed, and the opportunity 
 afforded the teacher for the study of child-nature was of great 
 value. 
 
 Some one might ask, "While garden work is being done, does 
 not the work of the classroom suffer?" No, it does not. When
 
 THE SCHOOL GARDEN 
 
 123 
 
 classes are taught in sections, this outside work may be fitted in 
 as a sectional part and the routine be kept intact. 
 
 In summarizing, the lessons developed from garden work were 
 these: Science (soil physics and seed germination) ; geography; 
 arithmetic; spelling; English; drawing, and construction. The 
 
 GATHERIXG THE VEGETABLES 
 
 greatest benefit to the teacher was the chance to study the child 
 under natural conditions. The greatest benefit to the child was 
 his awakening to a knowledge of things by personal contact. I 
 sincerely believe that the after-life of each one of these children 
 will be the richer for this experience of outdoor study. 
 
 In some of the school yards the pavement near the fence has 
 been removed, and the space divided into small beds for garden- 
 ing. ]\Iany of these gardens make a fine showing and you will
 
 124 CONSTRUCTION WORK 
 
 find here three pictures of such a yard, ilkistrating what may be 
 done within the Hniits of the playground of a city school. When 
 you consider that between six and eight hundred children play 
 in this yard at the same recess time every day, you can appreciate 
 what it means to yield a portion of the limited space to vege- 
 tables and flowers; and, since these plants are never molested, 
 how much the children are pleased to have their playground so 
 decorated. 
 
 Nearly all the garden products may be correlated with the 
 classroom work. The kindergarten children use peas in con- 
 struction. The peas raised in the garden may be applied here. 
 The first-grade children use lentils in construction. Why not as 
 well use pumpkin seed and grains of corn — the product of the 
 garden? Every class enjoys having a Jack-o'-lantern at Hal- 
 lowe'en, so here again the pumpkin from the garden comes into 
 play. In the construction of miniature wagons and wheelbarrows 
 of paper, peas may be soaked and used as axles for the wheels. 
 Both peas and beans may be soaked and given to the small chil- 
 dren to string for chains, thus teaching number and spacing. 
 Every layer of husk (beneath the outside one) from the ear of 
 corn may be dried and made into a basket by the more advanced 
 pupil. 
 
 If a city teacher, with opportunities so limited and numberless 
 disadvantages, can accomplish even a little in this line for the 
 children in her charge, how much more should the teacher of the 
 rural school accomplish when she has space at her command, chil- 
 dren in the environment of country life, and seemingly all things 
 that tend to work together to produce good results ! 
 
 So much interest is shown in this phase of industrial work all 
 over the country that I doubt that there is anywhere a teacher 
 who does not wish to add the study of it to the curriculum, unless 
 she is already working along these lines. Feeling sure of the 
 sympathy aroused in every teacher's heart, I have included among 
 the illustrations of this article three scenes from rural school life. 
 (See pages 113, 115, and 117.) 
 
 In connection with these pictures let me say a few more words 
 to the rural teacher. You may think yourself much poorer than 
 your city co-worker, but the fact is that you are the one of afflu- 
 ence, she is the struggler. You have all about you the materials 
 that a city teacher can secure only at second hand. All the riches
 
 THE SCHOOL GARDEN 125 
 
 of nature are at your command — the birds that nest at your door, 
 the fishes that swim in the brook, the grasses that grow by the 
 roadside, the trees of the forest, and the flowers that spring up 
 everywhere ; the ground space for your garden ; the intelHgent 
 child of country environment who does not need to work the gar- 
 den to learn how vegetables grow, but who does need to work it 
 for the education, the aim and object of school gardens. If you 
 are not interested in such work, try doing it once because you 
 should. Next year there will be no should ; love will lead you on. 
 I have the same feeling in my heart about the school gar- 
 den that the poet who wrote "The Little Fir Trees" must have 
 had about them. Each stanza winds up with 
 
 And so, 
 Little evergreens, grow! 
 
 Grow, grow ! 
 Grow, little evergreens, grow! 
 I would say : 
 
 And so, 
 Grow, school gardens, grow ! 
 
 Grow, grow ! 
 Grow, school gardens, grow ! 
 
 The three pictures, "Studying Nature." "A Flower from the 
 Country" and "A Suggestion for Recess Hour," came to me 
 from a country school. They speak so vividly for themselves 
 that I feel that each one carries with it its own message and 
 appeals so strongly in behalf of the deepest love of nature in even 
 the youngest child as to point to the possibilities of what might 
 be when this love is fed and made to grow with the physical na- 
 ture of the- child.
 
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