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-The Project Gutenberg EBook of Manual Training Toys for the Boy's Workshop, by 
-Harris W. Moore
-
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-Title: Manual Training Toys for the Boy's Workshop
-
-Author: Harris W. Moore
-
-Release Date: November 2, 2012 [EBook #41268]
-
-Language: English
-
-*** START OF THIS PROJECT GUTENBERG EBOOK MANUAL TRAINING TOYS ***
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+*** END OF THE PROJECT GUTENBERG EBOOK 41268 ***
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-The Project Gutenberg EBook of Manual Training Toys for the Boy's Workshop, by 
-Harris W. Moore
-
-This eBook is for the use of anyone anywhere at no cost and with
-almost no restrictions whatsoever.  You may copy it, give it away or
-re-use it under the terms of the Project Gutenberg License included
-with this eBook or online at www.gutenberg.org/license
-
-
-Title: Manual Training Toys for the Boy's Workshop
-
-Author: Harris W. Moore
-
-Release Date: November 2, 2012 [EBook #41268]
-
-Language: English
-
-Character set encoding: ISO-8859-1
-
-*** START OF THIS PROJECT GUTENBERG EBOOK MANUAL TRAINING TOYS ***
-
-
-
-
-Produced by Chris Curnow, Paul Mitchell and the Online
-Distributed Proofreading Team at http://www.pgdp.net (This
-file was produced from images generously made available
-by The Internet Archive)
-
-
-
-
-
-Transcriber's Note. In the section SAND WHEEL--PLATE 21, third
-paragraph, the word "on" was added as the most likely word to correct
-a typographical omission and "drawn" changed to "draw". Otherwise only a
-very few minor typographical errors have been corrected.
-
-
-
-
-[Illustration: TESTING THE KITE-STRING SAILBOAT]
-
-
-
-
-                          MANUAL TRAINING TOYS
-                        _for_ THE BOY'S WORKSHOP
-
-                          _By_ HARRIS W. MOORE
-
-                     SUPERVISOR OF MANUAL TRAINING
-
-                        WATERTOWN, MASSACHUSETTS
-
-                             [Illustration]
-
-                         THE MANUAL ARTS PRESS
-                            PEORIA, ILLINOIS
-
-
-
-
-                               DEDICATED
-                          TO THE BOY WHO LIKES
-                            TO TINKER 'ROUND
-
-
-
-
-                            Copyright, 1912
-                            HARRIS W. MOORE
-
-
-
-
-CONTENTS.
-
-
-  Frontispiece      Testing the Kite-string Sailboat
-
-  Introduction--                             PAGE.
-
-      Bench, Marking Tools                     7
-
-      Saws                                     8
-
-      Planes, Bits, Nails                      9
-
-      Screws, Glue                            10
-
-      Sandpaper, Dowels, Drills, Sharpening   11
-
-      Holding Work                            12
-
-      Directions for Planing                  13
-
-  Dart                                        16
-
-  Spool Dart                                  18
-
-  Dart for Whip-Bow                           19
-
-  Buzzer                                      20
-
-  Flying Top (Plate 3)                        22
-
-  Flying Top (Plate 4)                        24
-
-  Top                                         26
-
-  Tom-Tom Drum                                28
-
-  Pop-gun                                     30
-
-  Whistle                                     32
-
-  Arrow                                       33
-
-  Bow                                         34
-
-  Sword                                       36
-
-  Magic Box                                   38
-
-  Pencil-Box                                  41
-
-  Telephone                                   42
-
-  Happy Jack Windmill                         44
-
-  Gloucester "Happy Jack" Windmill            46
-
-  Paddling Indian Windmill                    48
-
-  Kite                                        50
-
-  Tailless Kite                               53
-
-  Box Kite                                    54
-
-  Kite-String Sailboat                        56
-
-  The Hygroscope or Weather Cottage           59
-
-  Electrophorus                               62
-
-  Waterwheel                                  64
-
-  Water Motor                                 67
-
-  Sand Wheel                                  70
-
-  Running Wheel                               73
-
-  Rattle                                      76
-
-  Cart                                        78
-
-  Cannon                                      81
-
-  Automobile                                  84
-
-  Bow Pistol                                  86
-
-  Elastic Gun                                 88
-
-  Rattle-Bang Gun                             92
-
-  Boat                                        95
-
-  Pile-Driver                                 98
-
-  Windmill                                   100
-
-  Kite-String Reel                           103
-
-  String Machine                             106
-
-  Windmill Force-Pump                        108
-
-
-
-
-                             INTRODUCTION.
-
-
-The wise man learns from the experience of others. That is the reason
-for this introduction--to tell the boy who wants to make the toys
-described in this book some of the "tricks of the trade." It is
-supposed, however, that he has had some instruction in the use of tools.
-
-This book is written after long experience in teaching boys, and because
-of that experience, the author desires to urge upon his younger readers
-two bits of advice: First, study the drawing carefully,--every line has
-a meaning; second, printed directions become clearer by actually taking
-the tool in hand and beginning to do the work described.
-
-
-                                 BENCH.
-
-If he buys the vise-screw, an ambitious boy can make a bench that will
-answer his needs, provided, also, that he can fasten it to floor or
-wall. It should be rigid. A beginner will find a hard wood board,
-10"×2"×1/4", fastened to the forward end of the bench, a more convenient
-stop than the ordinary bench-dog. If he has a nicely finished bench, he
-should learn to work without injuring the bench. A _cutting board_
-should always be at hand to chisel and pound upon and to save the
-bench-top from all ill use. The _bench-hook_ should have one side for
-sawing and one for planing, the former having a block shorter than the
-width of the board so that the teeth of the saw, when they come thru the
-work, will strike the bench-hook rather than the bench-top.
-
-
-                             MARKING TOOLS.
-
-To measure accurately, hold the _ruler_ on its edge so that the
-divisions on the scale come close to the thing measured. Let the pencil
-or knife point make a dash on the thing measured which would exactly
-continue the division line on the ruler. If it can be avoided, never use
-the end of the ruler; learn to measure from some figure on the ruler.
-
-The spur of the _gage_ should be filed like a knife point. It seldom
-stands at zero of the scale, hence, when setting the gage for accurate
-work, measure from the block to the spur with a ruler. The gage is a
-rather difficult tool for a boy to use but it will pay to master it. It
-may be used wherever square edges are to be made, but chamfers and
-bevels should be marked with a pencil.
-
-In laying out work, the beam (the thick part) of the _trysquare_ should
-always be kept on either the working-face or the working-edge. (See page
-13, Directions for Planing.) Let the blade rest flat on any surface.
-Hold the trysquare snugly to the work with the fingers and thumb acting
-much like a bird's claw.
-
-For accurate work (e. g. joints), lines should be drawn (scored) with
-the sharp point of a small _knife_ blade, held nearly straight up from
-the edge of the trysquare blade.
-
-Circles are located by two lines crossing at the center.
-
-
-                                 SAWS.
-
-The teeth of a _rip-saw_ are like so many little chisels set in a row;
-they pare the wood away. The teeth of a _crosscut-saw_ are like knife
-points, they score two lines, and the wood breaks off between them.
-Large sawing should be done on a saw-horse so that the worker is over
-his work. If it is necessary to hold work in the vise to rip it, hold it
-slanting, so that the handle of the saw leads the line, as it naturally
-does when the work is on a saw-horse.
-
-The _back-saw_, tho a crosscut-saw, may be used in any direction of the
-grain.
-
-Any saw should be in motion when it touches the wood it is to cut. To
-guide it to the right place, a workman lets his thumb touch the saw just
-above the teeth, the hand resting firmly on the wood. A little notch,
-cut in the edge right to the line where the saw is to cut, will help a
-beginner to start accurately. Saws are rapid tools, and it pays to go
-slowly enough with them to do accurate work. Plan the work so as to make
-as few cuts as possible.
-
-_Turning-saws_ are best used so that the cutting is done on the pull
-stroke, keeping the two hands near together. When one handle is turned,
-the other must be turned equally.
-
-
-                                PLANES.
-
-Generally being in a hurry to get work done, boys are apt to take big
-shavings with a plane. This results in rough work. Fine shavings are
-better. If the plane is allowed to rest level on the work, it will find
-the high places without continual adjusting. The first two inches of a
-stroke are the hardest to plane; to plane these, press harder on the
-forward end of the plane. Start the plane level. Usually it is best to
-keep the plane straight, or nearly so, in the direction of the push.
-
-The _block-plane_ is properly used to plane the end of wood. (See page
-12 on Holding Work.) On other small surfaces, however, it is often more
-convenient than a large plane.
-
-
-                                 BITS.
-
-_Auger-bits_ are numbered by the number of sixteenths in the diameter of
-the hole they bore, e. g. No. 4 bores a 4/16" hole. _Gimlet-bits_ are
-numbered by thirty-seconds.
-
-Whenever boring with an auger-bit, stop as soon as the spur pricks thru
-the other side, turn the work over, start the spur in the little hole it
-made, and finish boring. It will always split the wood, if the bit is
-allowed to go way thru. It is difficult to bore a hole straight thru a
-piece of wood, because to tell whether the bit is held straight when
-starting the hole, one must look at it from two directions. If someone
-else can stand a quarter circle away from the worker and watch the bit,
-that is the best help; otherwise, the worker himself must hold the brace
-steady while he walks around a quarter circle and judges whether the bit
-is straight. Care should be taken to hold the work level in the vise.
-
-
-                                 NAILS.
-
-The words, "nail," "brad," and "nailing" are used somewhat
-interchangeably in this book; "nailing" may mean driving a brad. Brads
-have smaller, thicker heads, nails have larger, flat heads.
-
-To drive a nail straight, start it straight. The hole cannot be
-straightened by bending the nail so that it looks straight after it is
-partly driven. Many gentle blows with the _hammer_ will often drive a
-nail where heavy blows would fail. The fingers pinching the nail often
-prevent its bending. If possible, keep nails away from the corners of
-boards. Several nails joining two boards hold them stronger if the nails
-are driven at different angles. Nails are usually "set," that is, the
-heads are driven with a _nail-set_ below the surface. They must always
-be set below surfaces which are to be planed. It is often wise not to
-drive the first nail or two way in until the work is examined. In
-withdrawing nails, a block under the hammer will often aid greatly, and
-also protect the surface of the work.
-
-
-                                SCREWS.
-
-Screws usually need holes properly bored to receive them; a large hole
-first, the size of the screw above the threads, a small hole next, the
-size at the roots of the threads (in hard wood somewhat larger), and a
-place for the head made with a _countersink_. Usually the screw should
-slip easily thru the first piece of wood and be tight in the second. The
-_screwdriver_ should always be held in the line that the screw is going,
-and it ought fairly to fit the slot in the head. In hard wood, one must
-be careful not to twist screws off, especially brass screws, which are
-easily broken.
-
-
-                                 GLUE.
-
-A beginner often wonders why things stick to his fingers instead of to
-their proper places; it is because he has a little glue on his fingers
-and usually a lot on the article; therefore, don't use too much glue. It
-is best, especially in holes and their pegs, to put glue on both
-surfaces of contact. Good glue will hold two surfaces, making good
-contact, stronger than the wood. Wipe off excess glue as soon as
-possible, using hot water for hot glue. Much labor is thus saved. Allow
-glue plenty of time to become dry. The moisture has to work its way thru
-the wood itself, and this takes hours; six to ten hours is not too long.
-
-
-                               SANDPAPER.
-
-Sandpaper varies in coarseness from No. 00 to No. 3, every sheet being
-stamped. It should not be used on a given piece until all work with edge
-tools is finished. The particles of sand left in the surface would
-quickly dull an edge tool. When using sandpaper on flat surfaces, wrap
-it closely about a rectangular block of wood. Try to keep all corners as
-sharp as they are left by the edge tools so that there will be a
-crispness of appearance which always marks good workmanship. Often the
-same care in holding work while sandpapering it must be taken as was
-taken when shaping it. Always sandpaper with, or lengthwise the grain.
-
-
-                                DOWELS.
-
-Sticks that are planed nearly to size can be made round and smooth by
-driving them thru a hole in a block of hard wood or iron; such sticks
-are called dowels. Two holes may be used if the second is only a little
-smaller than the first. Drive gently with a _mallet_ rather than with a
-hammer. In many of the models in this book such dowels are used. Dowels
-(made by a different process, however,) can often be bought at hardware
-stores.
-
-
-                                DRILLS.
-
-For ease in making small holes, a _hand-drill_ is essential. For some
-holes a headless nail will answer. To make better drills, break a
-needle, a knitting-needle, umbrella rib, or other piece of hard wire to
-suitable length; on a grindstone, flatten it near the point on two
-sides; then, putting it in the chuck of the hand-drill, try to hold it
-on the grindstone at the proper angle to form the two cutting edges; or
-it may be held against the edge of the bench and sharpened with an
-oilstone resting on top of the bench. Very convenient long drills can be
-thus made of knitting-needles.
-
-
-                              SHARPENING.
-
-To work with dull tools is altogether unsatisfactory. A boy should learn
-to sharpen his own edge tools. To grind a good bevel on a tool like a
-chisel, it must rest upon something steady. The reflection of light on
-the newly ground surface will indicate whether the surface is flat or
-not. This process of grinding makes what is called a feather-edge, or
-wire-edge, and the tool must be whetted on an oilstone to remove this
-wire-edge. The flat side _must be kept flat_ on the stone; the bevel may
-be lifted just a trifle. When whetting the bevel, try to avoid a rocking
-motion, for this would round the edge. After the wire-edge is completely
-removed, a still keener edge can be obtained by stropping the tool on a
-piece of leather, much as a razor is stropped. A piece of leather glued
-to a wooden mount and sprinkled occasionally with the finest emery
-powder will help much in keeping the edge tools keen.
-
-
-                             HOLDING WORK.
-
-The way work is held in the vise often makes the difference between
-success and failure. Small surfaces are easily planed true if held
-almost flush with the jaws of the vise so that the top of the bench
-serves to guide the plane; for example, the wheel-center, page 20, or
-the crank, Plate 33, are easily planed in this manner. Sometimes
-articles, like spools, can be held endwise with safety when they might
-be crushed if squeezed sidewise.
-
-A good way to hold the paddles of the sand wheel, Plate 21, Fig. 4, to
-saw the lines A B is to put the paddles about half-way down the end of
-the vise so that the back-saw can be held near the end of the vise jaws.
-
-The _bench-hook_ is the best device for holding a great deal of small
-work for sawing and for planing sides, corners, and ends. When planing
-ends, to avoid splitting the far corner, another piece of equal
-thickness may be put behind the first. The better way, however, is never
-to plane over the far corner, but turn the work and plane always towards
-the center; in other words, plane half way from each edge. Where a
-corner can be whittled off to form a buttress, there is practically no
-danger of splitting that corner. For planing thin boards, see page 19.
-
-
-                        DIRECTIONS FOR PLANING.
-
-1. Plane one broad surface. Test it _crosswise_, _lengthwise_, and
-_cornerwise_. This surface is called the _working-face_, and should be
-marked with a pencil line near the edge to be planed next. On a short
-board the cornerwise test can be made with a straight-edge; on a long
-board winding-sticks are needed. These are straight sticks with parallel
-edges. Near the ends of the board, stand them on edge across the board.
-With the eye some distance away, sight from one stick to the other, if
-one end of the farther stick seems elevated, that corner of the board
-must be planed more.
-
-2. Plane one edge. Test it _crosswise_ with the trysquare on the
-working-face, and _lengthwise_ with a straight-edge. This is called the
-_working-edge_. Mark it with two pencil lines, drawn near the line on
-the working-face.
-
-These two surfaces are of great importance. From them all measurements
-are made and all tests applied. The trysquare and the gage should always
-be kept on one of these two surfaces.
-
-3. Square the ends. With the trysquare, test them from both the
-working-face and the working-edge.
-
-4. Gage the width from the working-edge. Plane to the line. With the
-trysquare on the working-face, test this edge.
-
-5. Gage the thickness from the working-face. Plane to the line.
-
-Sometimes, of course, the above order needs to be changed. It is well to
-think out the best order of work.
-
-
-
-
-                                PROBLEMS
-
-                     PLATES AND WORKING DIRECTIONS
-
-
-                             DART--PLATE 1.
-
-
-A dart like the first one shown on Plate 1 will stick into a soft wooden
-target. Two or more boys, each with three darts, might have a contest in
-making the highest score. Number three rings of a target 5, 10, and 15,
-and the bull's eye 25.
-
-The dart consists of two parts, a round stick and a paper rudder. To
-make the round stick, 7" long 1/4" diameter, it will be well to start
-with a stick about 9" long so as to be able to hold it easily while
-planing it round. First plane the stick _square_, 1/4", and straight. To
-plane such a small stick straight, it should be laid on the top of the
-bench. While planing it, test it frequently by looking at it endwise.
-When it is the right size, grasp one end with the left hand, lay it on
-the bench with the forefinger touching the bench, and, with a small
-plane, plane away the corners so as to make a true octagonal (eight
-sided) stick. Next make it sixteen sided, taking very fine shavings,
-then sandpaper it well. Saw off the extra length, leaving the best part
-of the stick 7" long.
-
-Bind one end with fine (screen) wire. To bind it well, make a square
-corner 1" from one end of the wire and lay this 1" lengthwise the stick.
-Hold it firmly with the left thumb while winding the long part of the
-wire smoothly around the stick and wire. Twist the two ends together,
-and cut off what is not needed. Gently pound down smooth the end of the
-wire that is left.
-
-In this end of the stick, drill a hole for a 1" brad. File the head
-entirely off, and drive the brad in backwards, leaving 3/16" out; then
-file the point real sharp. Carefully split the other end of the stick
-1". To do this, stand it upright in the vise, place a knife on the end,
-and tap the knife with a hammer. Into this split, insert the paper
-rudder bent as shown in Plate 1. The rudder should be cut the shape and
-size shown in the working drawing and then bent into shape.
-
-[Illustration: DART
-
-SPOOL DART
-
-DART FOR WHIP-BOW
-
-PLATE 1]
-
-
-
-
-                          SPOOL DART--PLATE 1.
-
-
-An easier dart to throw can be made of a spool as shown on Plate 1.
-Three feathers which curve the same way will give the dart a whirling
-motion when it is thrown.
-
-Make a stick about 7" long to fit tightly into the hole of a spool about
-1" in diameter at its end. (See Dowels, page 11, also Glue, page 10.) A
-stick like this can be forced into a hole quite far by screwing it
-around, but if it is driven much with a hammer the spool will split
-easily. After the stick is glued into the spool, hold the spool upright
-on the jaws of the vise, and squeeze the stick extending below; then
-with the back-saw make four slanting cuts to sharpen the spool. File a
-2-1/4" nail square off, 1" long; drive it backwards into a suitable hole
-drilled for it in the center of the spool; and sharpen it well with a
-file. One-half inch from the other end of the spool saw the stick off,
-and drill three holes in the spool end, into which glue three feathers
-about 4" long.
-
-
-
-
-                      DART FOR WHIP-BOW--PLATE 1.
-
-
-This dart is best made of a shingle. Lacking that, plane a 1/2" board
-thin[1] at one end to 1/8". Draw the center line lengthwise and lay out
-the shape of the dart with the broad part at the thin end. Saw crosswise
-from each edge of the shingle to the place where the curve begins, then
-lengthwise to that point. Holding the thin end in the vise, pare the
-curves with a knife, spokeshave, or draw-knife. Make the point at each
-end with a plane. To plane to slanting lines such as these, it is very
-important to place the work in the vise at such a slant that the line is
-parallel with the top of the bench and quite close to the jaws of the
-vise. Find the point where the dart balances by testing it on the
-finger, and make the little notch for the string, using a back-saw
-first, then a knife.
-
-A whip-bow consists of a string 20" long tied to the end of a stick 20"
-long. A knot is tied at the free end of the string. To throw the dart,
-catch the string in the notch, hold the wide end of the dart in the left
-hand and the stick in the right, throw the right hand forward, and let
-the dart fly from the string.
-
-[Footnote 1: To hold a board while planing it very thin, fasten it to
-another flat board with four wooden pegs.
-
-For several of the models in this book, a flat board about 9" × 4" ×
-7/8" with a cleat nailed to one end and extending 1/8" above its upper
-surface will be found most convenient for holding thin boards while
-planing. If the cleat is a little wider than the height of the block on
-the bench-hook, the bench-hook serves well to hold it.]
-
-
-
-
-                            BUZZER--PLATE 2.
-
-
-The buzzer consists of a wheel and two handles, connected with string.
-To make the wheel draw a 3" circle on a piece of wood 3/16" thick. Draw
-a line thru the center the way the grain goes and another at right
-angles to it, thus dividing the circle into quarters, Fig. 1. Notice,
-now, that to avoid splitting the circle, the four quarters must each be
-cut in a different direction. Lay the model flat on the bench-hook and
-saw off the corners of the square. Now, holding it in the vise with one
-quarter up, with the spokeshave, pare the corners in the direction of
-the arrow in this quarter until the circle is reached. Be careful not to
-pare away any part of the line. It will be observed that paring can be
-done safely on the end grain beyond the arrow-head in this quarter, but
-this is not at all possible on the side grain where the arrow begins.
-The spokeshave should be held rather lightly so as to allow it to follow
-the curve. Observing carefully the direction of the arrows, proceed with
-the other quarters in this same manner. The last few chips should be
-very fine ones. Drill two small holes for the string 1/4" each side of
-the center. Sandpaper the model nicely. (See Sandpaper, page 11.)
-
-[Illustration: Fig. 1]
-
-The two handles can be planed best if held in the bench-hook and the
-plane turned with its side on the top of the bench. After the corners
-are planed in this way, the ends can be planed without danger of
-splitting. Drill the holes for the string. The edges and ends of the
-handles will look better not sandpapered.
-
-String the model by passing one end of a 3 ft. string thru a hole in one
-handle, then in the wheel, then in the other handle, then back thru the
-other holes, tying it to the other end of the string. To make it go,
-take one handle in each hand, swing the wheel over and over, and gently
-pull the handles apart for an instant. A little practice may be
-necessary to make it go well. To make it buzz louder, bore two 5/16"
-holes on opposite parts of the wheel 1/2" from the rim. (See Bits, page
-9.) To avoid splitting, bore _backwards_ till the bit marks a deep
-circle in the wood.
-
-[Illustration: BUZZER
-
-PLATE 2]
-
-
-
-
-                          FLYING TOP--PLATE 3.
-
-
-Like anything that flies, this top should be made as light as possible.
-Bass, cotton-wood, or soft pine are good woods to use. After the wood
-for the top is planed to size, a 3/16" hole should be bored straight
-thru the center. (See Bits, page 9.) Make the drawing on the top and
-whittle to line. Considerable care must be taken in whittling not to
-whittle away the two corners which should be saved; this is especially
-true if the grain is not straight. See page 16 for suggestions about
-making the handle. Glue the handle in the top. To make it fly, hold it
-between the two hands, and push the right one quickly. (See Plate 3.)
-
-[Illustration: FLYING TOP
-
-PLATE 3]
-
-
-
-
-                          FLYING TOP--PLATE 4.
-
-
-This form of flying top requires accurate work to make a good joint.
-(See Directions for Planing, page 13.) After planing the two vanes to
-size, the joint must be laid out with knife and gage lines and cut out
-with back-saw and chisel. Two important facts should be learned: The
-_length_ of one notch equals the _width_ of the other piece; the lines
-marking the depth of the notches must be gaged from the working-face of
-each piece. After the joint is laid out, hold the work in the bench-hook
-while sawing the depth of the notch, and be sure to saw _in the notch_,
-not outside the line. With a chisel held flat side down, pare between
-the saw cuts from each side of the wood towards the middle. When the
-joint is fitted, lay out the curves on each arm of the wheel,
-remembering that it is always the front corner of the right-hand arm, as
-the wheel turns around, that is to be whittled away. When all these
-curves are drawn, take the joint apart, and whittle to the lines. Glue
-the joint next, and bore a 3/16" hole straight thru its center. Make the
-axle of hard wood. (See page 16 and Dowels, page 11.) Perhaps a skewer
-can be used.
-
-After the handle is planed to size, draw pencil lines 1/4" from each
-edge for the chamfers. The curve of the chamfer may be drawn freehand.
-It should end 1-1/16" from one end of the handle. A good chamfer is flat
-crosswise. If the grain of the wood is straight, the chamfers can be
-whittled easily; if it is crooked watch that it does not split over the
-line. After the chamfers are made, pare another one 1/8" wide around the
-end of the handle. After the two blocks are planed, bore a 1/4" hole
-3/8" from one end. Glue and nail them 1" on the handle.
-
-[Illustration: FLYING TOP
-
-PLATE 4]
-
-
-
-
-                             TOP--PLATE 5.
-
-
-A variety of sizes, shapes and colors of tops, spinning on a plate, is a
-lively sight. The one suggested is perhaps as large as it should be made
-for such sport. Smaller ones are easily made of spools without making a
-disk, or wheel, for them. The more slender the spindle is, the faster
-one can spin the top. First make a stick about 6" long to fit the hole
-in the spool. Plane 1" of it tapering as small as 1/8", then glue the
-spool on 1-1/4" below this small end. Now hold the spool in the vise
-endwise, and make, with the back-saw, a saw cut half thru the spool on
-the same slant as the slanting part of the spool; then saw straight down
-to the end of this slanting cut. Turn the spool nearly over and repeat
-this operation; then saw it completely off, and whittle the spool to a
-good point.
-
-Draw a 2" circle on a piece of wood 1/4" thick. Draw other circles just
-as desired for coloring. Observe the directions on page 20 for making a
-wheel. When the wheel is round, bore a 5/16" hole in its center,
-sandpaper it, and glue it in place on the spool and spindle. It can be
-colored with crayons or water colors.
-
-[Illustration: TOP
-
-PLATE 5]
-
-
-
-
-                         TOM-TOM DRUM--PLATE 6.
-
-
-As in a violin, the sounding qualities of this drum depend upon the
-quality of the wood used and the thickness of the sounding-board. Spruce
-is a good wood to use, though the drumstick may well be harder.
-
-A good way to make two pieces the same length and thickness is to plane
-_one_ piece, which is wider than the two pieces combined, to the right
-length and thickness, and then saw it in two lengthwise; so, to make the
-top and between pieces it will be best to start with one piece about 6"
-× 7/8" × 5/16". If no wood 1/8" thick for the sounding-boards is at
-hand, plane a thicker piece nicely on all surfaces 3" × 2" × 5/16". Then
-gage a line 1/8" from each broad surface all around the piece and saw
-between these lines. To plane these two pieces, lay them on the board
-described in the foot-note on page 19.
-
-Glue and nail the parts together with very small brads, or pins cut off
-1/2". Allow the glue to dry six to ten hours before twisting the
-drumstick in the strings. Cut a small notch near the ends of the top
-pieces in which to wind two or three strands of string. Twist the
-drumstick in the opposite way from which it should strike the
-sounding-board. To play it, hold it in the left hand, and let the
-fingers of the right hand slide over the end of the drumstick, thus
-making the drumstick strike the sounding-board.
-
-[Illustration: TOM-TOM DRUM
-
-PLATE 6]
-
-
-
-
-                           POP-GUN--PLATE 7.
-
-
-The part of this model difficult to make is a nice, smooth hole. The
-surest way is to start with a thick piece of wood for the barrel, 6" ×
-1-1/4" × 1-1/4". Draw a 7/8" circle on one end; then bore the 7/16" hole
-as straight as possible, starting at the center of the circle. Stop
-boring as soon as the spur of the bit pricks thru the other end, and
-draw another 7/8" circle, setting the needle-point of the compass in the
-tiny hole made by the spur; then finish boring. Next plane the piece
-round the size of the circles. The ramrod should be made as directed on
-page 16. The hole should now be sandpapered by wrapping a long, narrow
-piece of sandpaper snugly about the ramrod, and tying it securely at
-each end with string. Make the handle, being careful to bore the hole
-straight 1" deep, and glue the ramrod into it.
-
-Cut off 3/8" of that part of a cork which fits tightly in the barrel.
-Drive a slender nail or brad thru a piece of hard leather (or zinc or
-copper) and trim it round 1/4" diameter. Drill a small hole exactly in
-the center of the end of the ramrod, then drive the nail thru the center
-of the cork and into the ramrod.
-
-To make the hole in the barrel still better, let a few drippings from a
-candle fall into it and quickly insert the ramrod and push it back and
-forth rapidly. A sudden push of the ramrod will blow the other cork out
-with a loud pop. To keep this cork, tie one end of a string around it
-and the other end around the barrel.
-
-[Illustration: POP GUN
-
-WHISTLE
-
-PLATE 7]
-
-
-
-
-                           WHISTLE--PLATE 7.
-
-
-The size of the chamber, of the notch, of the inlet for air, the force
-with which air is blown in,--these are some of the conditions which
-affect the tone of a whistle.
-
-Plane a piece of close-grained wood 6" × 3/4" × 3/4". This length is
-suggested so that two trials at boring can be made. Bore a 1/2" hole
-2-1/4" deep. To help in boring this straight, clamp a straight-edge (the
-ruler may do) in the vise together with the square stick. Have one edge
-of the straight-edge on the center of one side of the stick. After
-boring a straight hole, draw pencil lines 3/16" from the long edges on
-all four sides. A good way to draw such lines is to rest the middle
-finger-nail on a side of the stick as a guide and hold the pencil
-closely over this nail while sliding it along. The hand must be held
-rather rigid. Practice will enable one to draw lines quite accurately
-this way. Place the stick in the vise so that one edge is straight up,
-and plane the corner off to the line. Plane all four corners so as to
-make a good octagonal stick. Make a dowel (see page 11) about 1-1/2"
-long to fit nicely in the hole. Do not crowd it so hard as to split the
-whistle. It might well be fitted first in a 1/2" hole bored in a waste
-piece of wood. Plane off a side of this dowel till a flat place is made
-3/8" wide. Push the dowel into the whistle and saw the straight end of
-the notch about 3/16" deep. Pare the rest of the notch with knife or
-chisel, testing the whistle by blowing it occasionally as the paring
-proceeds. When it sounds best, glue the dowel in place and allow it to
-dry before sawing it off and cutting the slanting part. When this is
-done saw the whistle to a length of 2-1/2". If a rolling sound is
-desired, put in a pea before gluing the dowel in place.
-
-
-
-
-                            ARROW--PLATE 8.
-
-
-The old saying, "Straight as an arrow," suggests an arrow's most
-important quality: it must be straight. Saw a strip 20" × 1/2" from the
-edge of a straight-grained spruce board and plane it according to
-directions on page 16. To make the notch for the bowstring, first file
-a notch in the smaller end, then saw it 1/4" deep, and smooth it with
-the folded edge of a piece of sandpaper. Bind the larger end tightly
-with rather small, soft wire. (See page 16.) Pigeon feathers are easiest
-to use because the quills are soft and straight. Turkey and goose
-feathers are good, and hen feathers will do if they are nearly straight.
-The quill should be split with the point of a small, sharp knife, the
-feather being held on a cutting board. About 3" of quill are needed.
-With scissors, trim the feather about 5/16" wide; then glue and pin it
-in place 1-1/4" from the smaller end of the arrow. Indians use three
-feathers, but two will do for a boy. When the feathers are in place, the
-ends of the quills must be bound very smoothly and tightly with thread.
-Notice the position of the feathers in Plate 8: the _bottom_ feather on
-the arrow having three feathers is called the cock-feather and should be
-of a different color from the other two. It is always placed on the
-bowstring _away_ from the bow.
-
-
-
-
-                             BOW--PLATE 8.
-
-
-Almost any tough stick that will bend to a good curve will answer for a
-bow, but white ash such as is used in hoe- and rake-handles is probably
-best and easiest to get. A brittle wood like hemlock can be used, if
-used with great care; indeed, some Eskimos, who can get only dry,
-brittle driftwood, still make a splendid bow by wrapping it completely
-with sinew. The bow should be shorter than the archer. Plane each end
-tapering, first on the bottom, then on the two edges. Leave 6" in the
-middle straight for a handle. Notice the shape, Plate 8, of the three
-steps in the planing of the bow. Be especially careful to get the second
-step right, then the third will come easily. File notches near each end
-somewhat the shape of the loop on the bowstring. Before the bow can be
-finished, it must be strung and pulled a little to test it,--to see if
-both ends bend the same good curve,--not the curve of a circle, but that
-of the broad side of an ellipse. The ends should curve more than the
-middle. When it bends true, smooth it well with a coarse file, or glass,
-and sandpaper. Do not be tempted to pull the bow too far and so break
-it; one that bends easily is less apt to break than one that is too
-strong. When the bow is strung, the center of it and of the bowstring
-should be marked with thread or color.
-
-A piece of strong fish-line makes a good bowstring. A good one can be
-made of linen thread on the string machine shown on Plate 34. Tie knots
-as shown in Fig. 2. The timber-hitch should be kept in place on the bow,
-and the bowline-knot slipped back on the bow when it is unstrung. The
-best way to string a bow is to place the end having the timber-hitch on
-the ground against one's left foot, then to pull the middle of the bow
-with the left hand, and to push the upper part with the right hand,
-allowing this hand to slide upward so as to shove the bowline-knot into
-the upper notch. When finished the bow can be improved by rubbing it
-well with grease.
-
-[Illustration: Fig. 2 Timber-hitch knot and Bowline-knot]
-
-[Illustration: ARROW
-
-BOW
-
-PLATE 8]
-
-
-
-
-                            SWORD--PLATE 9.
-
-
-Plane the blade to size, then draw a center line on each side, and lay
-out the curves for the point and handle. Shape these ends with the
-draw-knife, spokeshave, or block-plane. Now measure 5" for the handle,
-and draw a line along the center of each edge to mark the cutting edges
-of the sword. A workman would do this with his pencil resting over his
-finger-nail as mentioned on page 32. Use the spokeshave to pare off the
-four corners (to sharpen the sword), and finish them with a plane. Try
-to take broad, flat chips so as to make the blade a good diamond shape.
-Where the blade and handle meet a good square shoulder must be made. A
-boy can do this best, perhaps, with a wide, flat file, though a workman
-would use a back-saw and chisel.
-
-Saw out the guard 5" × 3" × 1/2"; then draw the diamond 1-1/2" long and
-1/2" wide. It is not easy for a boy to cut this out, so be careful and
-guard against splitting the board. First drill small holes at each end
-of the diamond, then bore other holes as large as will go within the
-diamond, Plate 9. With a thin chisel pare straight thru the board onto a
-cutting board. When the diamond will fit the blade, draw the shape of
-the guard freehand and pare the edges as explained for the buzzer on
-page 20. Sandpaper both parts of the sword, and fasten the guard with
-glue and two 2" brads, driven from each edge of the guard in holes
-drilled for the purpose.
-
-[Illustration: SWORD
-
-PLATE 9]
-
-
-
-
-                          MAGIC BOX--PLATE 10.
-
-
-This is truly a magic box to those who do not understand how it works.
-Who would ever think that these little bits of people would hop up and
-down inside their house just because their window was rubbed with a
-piece of leather? Try it and see how excited they get.
-
-If the worker can cut glass, make the box first, otherwise he must get a
-piece of glass 5-1/2" × 3" and build the box to fit it. It requires
-careful work to make a good box, so be sure that all ends and edges are
-square and that corresponding parts are the same size before nailing it
-together. Plane all such small boards in the bench-hook. Make the ends
-first 1" wide and as _long_ as the glass is _wide_. Make the sides the
-same width and as long as the glass, _plus_ the thickness of the two
-ends. Glue and nail these to the ends, keeping the bottom edges flush.
-Set all nails with a nail-set.
-
-One edge and one end only of the bottom should now be planed square, the
-other edge and end being left to plane after the bottom is nailed in
-place. Cut a piece of tin 1/16" smaller than the glass, or glue some
-tinfoil on the inside of the bottom. If tinfoil is to be used, smooth it
-on a piece of paper carefully with the fingers; then spread some glue
-thinly over the bottom, and lay the tinfoil on it. The squared edge and
-end of the bottom are to be nailed first, having them fit nicely; then
-the other edge and end. Never drive a nail too near the corner of the
-bottom lest it strike the nails driven thru the sides of the box. Now
-plane the end and then the side of the bottom to fit. If tin is used
-instead of tinfoil put it inside the box after the bottom has been
-nailed in place. Make the two supports fit inside the box lengthwise and
-just wide enough to hold the top of the glass flush with the top edges
-of the box. To hold the supports, drive nails thru the ends of the box
-into them.
-
-[Illustration: MAGIC BOX
-
-PENCIL BOX
-
-PLATE 10]
-
-Everything about electrical apparatus should be clean and dry, so, as
-this is really an electric box, have the glass and tin clean before
-using it. Put some bits of charcoal, paper, straw, or sawdust into the
-box, have it warm and dry, rub the glass with a piece of leather (glove,
-shoe), and then see how the little people jump! The explanation is as
-follows: Rubbing glass with leather, fur, woolen, or silk _generates_
-electricity; this electricity _attracts_ non-electrified bodies, thus
-lifting the little people to the glass; as soon as they become _charged_
-with the electricity on the glass, they are _repelled_ and thrown down
-to the tin; the tin _conducts_ their charge of electricity away, and
-they are ready to begin their circus over again.
-
-
-
-
-                         PENCIL-BOX--PLATE 10.
-
-
-To make this box, saw out one long piece for the sides and ends, 22" ×
-1-7/8" × 1/4", or two shorter pieces, 12" × 1-7/8" × 1/4". The reason
-for having them so long is because it is difficult to make the groove
-nicely to the end of the board; and they are wide enough to try twice to
-make the groove.
-
-[Illustration: Fig. 3]
-
-File a nail (about 3/32" in diameter) sharp like a chisel, and drive it
-tightly into a small hole, drilled in a block of wood which has one
-corner rabbeted, that is, sawed away as shown in Fig. 3. The outside of
-the nail, measured from the shoulder of the rabbet, must be exactly 1/4"
-away, so that the lower edge of the groove will be 1/4" from the top of
-the box. Practice with this tool till a good groove can be made in waste
-lumber, then make the groove along one edge of the board. When well
-done, plane the board 1-3/8" wide, and saw it to the proper lengths for
-sides and ends. In the front end there is no groove, so plane it away
-from one piece just sawed. Sandpaper the flat sides before gluing and
-nailing them together. Prepare the bottom as directed for the magic box,
-page 38, then sandpaper, glue and nail it in place. Set all nails. Plane
-the bottom to fit. Prepare the cover somewhat too long but exactly the
-width between the grooves. As in making the whistle, page 32, so here
-draw pencil lines for the bevel 3/8" wide on the cover. Practice planing
-a bevel on waste wood first. The bevel at the further end of the cover
-can be planed by holding the cover upright in the vise. When it slides
-smoothly in the grooves, saw it the right length. For the notch, make a
-deep cut with a gouge, and cut the chip straight across with knife point
-or small chisel. Hold it in the bench-hook while doing this.
-
-
-
-
-                          TELEPHONE--PLATE 11.
-
-
-In these days when even boys are using wireless telegraphy, this may
-seem a humble telephone, but it is a surprisingly good one, and it is
-very easily made and operated. The drum should be hard and tight, the
-string should be a small, hard cord (tho the common pink cord thoroly
-waxed with paraffin will do), and the cord should be supported by
-nothing but the drums when the telephone is being used.
-
-After preparing the eight sides, observe in Plate 11, the method of
-nailing four boards of equal width together to form a square,--each one
-is nailed to another one. The ends of the boxes should be well rounded
-with sandpaper before the drum is stretched over them.
-
-The best material for the drum is rawhide,--the dried skin of an animal.
-The skin of a small animal like the cat, rabbit, or woodchuck is best.
-Country boys will not have much difficulty in securing such rawhide, but
-city boys may. To remove the hair, or fur, from a skin, slack a lump of
-lime as large as a hen's egg in a basin of water and soak the skin in it
-until the hair can be pulled off readily (usually a few minutes); then
-thoroly wash the skin, stretch it over one end of a box, and tack it
-every 3/8" with 2 oz. tacks. When thoroly dry it will be "tight as a
-drum" and ready to use. A good drum can also be made of an old (dressed)
-kid glove or shoe. Soak a piece 4" sq. in water a few minutes then
-stretch it while still wet, tightly over the box. When dry, coat it on
-both sides with melted paraffin. Fasten the cord to the drum simply by a
-knot on the inside. If common pink cord is used, drive the paraffin in
-with a hot flat-iron.
-
-To use the telephone, a boy at each end of the line holds his box so
-that the string will not touch anything, then one talks into his box
-while the other listens in his. The telephone may be stretched from one
-house to another if the houses are within several hundred feet of each
-other and have a free space between. If two telephones were provided, a
-person could talk and listen at the same time.
-
-[Illustration: TELEPHONE
-
-PLATE 11]
-
-
-
-
-                     HAPPY JACK WINDMILL--PLATE 12.
-
-
-On a windy day "Happy Jack" will be a whole circus out on the
-clothes-line post. If he can be painted in bright colors so much the
-better, otherwise he should be decorated with colored pencils.
-
-The body is drawn on a board, 9" × 2" × 1/2", by measuring all the
-figures from the hat down, and at these points drawing lines square
-across the board; also, draw a center-line from head to heel. The toes
-and hat rim split easily, so be careful of these parts. If no scroll-saw
-is at hand, saw every 3/8" with the back-saw straight across from the
-edge of the board to the outline of the body; then pare these little
-pieces away with a knife or chisel. The curves at the neck are best made
-with a No. 6 bit before sawing. The curves may be finished with
-half-round file or sandpaper. Take great care in boring the hole up the
-legs and across the shoulders; if a hole is started crooked, glue in a
-dowel of the same wood (see Dowels, page 11), let it dry, and then try
-again. Use a straight-edge as a guide, as for the whistle, page 32. A
-No. 3 bit is used thru the shoulders, and a No. 4 bit up the legs. To
-make the arms, use a 1/2" hard wood dowel 6" long. Bore 1/4" holes for
-the vanes 1/2" each side the center of the dowel and file the wrists,
-before sawing it in two. Round the ends some with sandpaper. Flatten the
-4" wire which goes thru the shoulders enough to keep it from turning in
-the arms. Drill holes in the arms to hold the wire firmly. To plane the
-vanes thin at the broad end, use the board mentioned at the bottom of
-page 19. When gluing and nailing the vanes in the arms, remember that
-one lies flat and the other nearly edgewise; also remember to make them
-balance. Bore a 3/16" hole in the center of the base and glue the dowel
-into it. Before trying to fasten "Happy Jack" to a post, drill holes in
-the base for nails or screws.
-
-[Illustration: HAPPY JACK WINDMILL
-
-PLATE 12]
-
-
-
-
-              GLOUCESTER "HAPPY JACK" WINDMILL--PLATE 13.
-
-
-This "Happy Jack" is the kind which is common along the coast of New
-England. He is often painted with blue and white uniform and black
-shoes, while the paddles are left unpainted.
-
-The drawing is made on squares so that it may be enlarged easily to any
-size. Keep the same _number_ of squares but make them any size desired;
-3/4" is a good size. The hat, being made separate from the body, should
-not be drawn on the same board.
-
-To make the hat without a lathe, make two wheels of soft wood, round one
-edge of the larger, and glue and nail the smaller one on it. Saw the
-head slanting to make a flat place for the hat, as shown in side view of
-hat, Plate 13. The space between the legs should be cut out with a
-turning or key-hole saw, tho it can be worked out as the diamond in the
-sword guard, Plate 9. The "Happy Jack" should be mounted on a large wire
-rod.
-
-[Illustration: GLOUCESTER HAPPY JACK WINDMILL
-
-PLATE 13]
-
-
-
-
-                  PADDLING INDIAN WINDMILL--PLATE 14.
-
-
-Make this windmill any dimension desired, using the same number of
-squares in drawing to keep the proportions. The stern of the canoe
-should be planed thin enough so that the completed windmill will nearly
-or quite balance on the upright wire rod. The arms should be made like
-those on the "Happy Jack," and as long as from the center of the
-shoulder to the topmost feather. If the canoe is not too wide, the
-Indian can be nailed in place by two nails as shown in Plate 14,
-otherwise drive smaller ones slanting thru the back into the canoe;
-drill holes in either case. After the hole is bored thru the shoulders,
-use a trysquare to tell where to start the hole up thru the canoe so
-that it shall come in front of the former.
-
-[Illustration: PADDLING INDIAN WINDMILL
-
-PLATE 14]
-
-
-
-
-                            KITE--PLATE 15.
-
-
-Kite flying is such fascinating sport that the three typical kites here
-given will make one want to build others, larger and of different
-shapes.[2] Kites have been made large enough to carry a man high in the
-air. The adjustments of a kite are so subtle that much patience is
-sometimes needed to make it fly. That is why the rather elaborate bridle
-is suggested for the paper covered kite with tail. It will require a
-little longer stay in the workshop, but it will save time outdoors.
-
-[Footnote 2: Many suggestions are found in "The Construction and Flying
-of Kites" by Charles M. Miller, price 20 cents, Manual Arts Press,
-Peoria, Ill.]
-
-To make the spine and crosspiece, saw a 1/4" strip from the edge of a
-7/8" straight-grained spruce board 3 ft. long; then saw this strip again
-lengthwise, and plane the two pieces 3 ft. × 3/8" × 1/4". Mark the
-center of the crosspiece and a point 8" from the top of the spine, and
-plane each end tapering thinner to 3/16". In each end saw a slot 3/16"
-deep, Plate 15. Glue and bind securely the middle of the crosspiece to
-the 8" point on the spine. Notice that the last few strands go _around_
-the others. Test the sticks to see that they are square with each other.
-This can be done by measuring from one end of the spine to each end of
-the crosspiece. Put a cord that will not stretch around the ends of the
-sticks, in the slots, and tie it tightly. Bind this cord into each slot
-in such a manner that it will not slip, and at the same time wind the
-sticks so that they will not split beyond the slot. While doing this,
-one must measure again from each end of the spine to the ends of the
-crosspiece so that the two halves of the kite will be equal.
-
-Cover the kite with strong, light paper. Glue the paper to the sticks,
-and fold it over the string 1/2". Try to have the string lay in the
-crease of the fold. Strengthen the corners with another piece of paper,
-2" wide.
-
-[Illustration: KITE
-
-TAILLESS KITE
-
-BOX KITE
-
-PLATE 15]
-
-To make an adjustable bridle, wind a cord twice around the spine near
-its top and tie it tightly on the front side, keeping the knot in the
-middle. Little holes will, of course, have to be made in the paper. Cut
-the cord about 2" long and tie bowline-knot, Fig. 2, p. 34. Measure on
-the crosspiece 10" from the center, and down the spine 12" from the
-crosspiece, and tie three more such knots. Double two cords, about 40"
-long, and tie them in one big knot, called the flying-knot, to make a
-loop about 1" long to which to fasten the anchor line. Mark a point on
-the spine 10" below the crosspiece. Hold the flying-knot here, and
-fasten two cords to the loops on the crosspiece with two or three
-half-hitches, Plate 15. Now bring the flying-knot 2" above the
-crosspiece and out from the kite far enough to make these two cords
-taut. Fasten another cord to the loop at the upper part of the spine.
-Adjust the remaining cord as taut as the others.
-
-A flat kite like this always needs a tail, and the most bothersome tail
-ever made is that familiar kind made of paper and string. To make a
-convenient, serviceable, and easily-made tail use strips, 3" wide, of
-bunting, cheese-cloth, or any soft, light cloth.
-
-In a high wind a longer tail is needed than in a light wind. If the kite
-seems too unsteady, pull it down, and try to adjust the bridle or the
-tail, before an accident occurs. If the kite dives, let go the string
-just before the kite reaches the ground so that it will not strike the
-ground with force enough to smash the kite. When letting out string
-rapidly, always protect the hand with a cloth or glove lest the string
-cut thru the skin. If in doubt about the strength of the anchor-line,
-two boys can very quickly test it 100 ft. or so at a time as it is being
-let out; one does not want the string to break when the kite is high in
-the air.
-
-
-
-
-                        TAILLESS KITE--PLATE 15.
-
-
-If one has to fly a kite amid many obstructions of trees, wires, and
-houses, one will appreciate the advantage of a tailless kite. Such a
-kite has to be more accurately made, however, and should be covered with
-cloth.
-
-When making the bow, file notches near the slot at each end in the same
-manner as for the bow, Plate 8, in which the twisting string will be
-fastened later. Lash the middle of the bow to a point 7" from the top of
-the spine. In the slots, put the cord which goes around the kite,
-measuring carefully to keep the two sides the same size. Sew a piece of
-colored cambric over the kite. Tie the middle of a strong cord 6-1/2
-feet long to the filed notch at one end of the bow with three
-half-hitches, as shown in Plate 15. Pass one part of this cord around
-the other notch, and fasten it in the same manner; then tie the two ends
-together with a square knot. Make the dowel for twisting the two cords
-on the back of the bow so as to bend the bow as desired. Into one end of
-the dowel drive a small brad and file it sharp. How much to bend the bow
-can be determined only by trying the kite. As the bow bends, the cloth
-becomes looser, and it is this looseness of the cloth which so holds the
-wind that the kite will fly without a tail. After twisting the cords
-enough, slip them towards the end of the dowel away from the spur, and
-rest the spur in the back of the spine.
-
-Tie a string around both the top and the bottom ends of the spine for
-the bridle. The flying-knot should come as far as the end of the bow;
-or, some tie the lower end of the bridle about 14" from the lower end of
-the spine, and make the flying-knot about 9" in front and 2" above the
-bow.
-
-
-
-
-                          BOX KITE--PLATE 15.
-
-
-In a gale too strong for other kites, a box kite will fly safely. The
-bridle is very easy to adjust, and the kite, tho somewhat more elaborate
-than the others, is not difficult to make. Thin sticks like these can be
-sawed from the edge of a straight-grained board. An easy way to make the
-notches in the ends of the braces is to clamp them all in the vise at
-once, flat surfaces together, and then saw them out with a back-saw.
-This method presupposes that the uprights are all planed the same
-thickness. If they are unequal in thickness, saw the notches as wide as
-the thinnest upright and pare the others each to fit its proper upright.
-In any construction like this, which has a number of parts fitting
-together, it is well to number the adjacent parts so that they may be
-put together again, each in its place. Little nicks are cut with a knife
-on the four edges of the braces where the lashing is to be wound. When
-all the sticks are fitted together, glue the braces to the uprights
-4-3/8" from the ends; two frames are thus made just alike. The lashing
-is done with large thread. Start it with two turns around the brace,
-then once around the upright, then once around the brace, then again
-around the upright, and so continue. The last few turns should be around
-the brace. See that the thread goes from the brace to the upright in the
-way most favorable for holding. When all the lashing is done, measure
-the center of each brace. Put one frame thru the other, and drive a pin
-thru the two centers. Now the frames must be brought to a 14-1/2" square
-by means of strong thread. Near the top of one upright tie a 6 ft.
-thread, leaving a short end. Simply wind the long end twice around each
-upright, and tie the end with a bow-knot until all sides of the square
-can be measured and adjusted. When all sides are equal, make the
-bow-knot into a square knot. Wind some thread around each upright,
-except the first, in such a manner as to hold the long thread securely.
-Now adjust the other end of the kite in the same way. Measure 8-3/4"
-from the ends of each upright and put other threads around the square.
-These can be fastened at each upright after the first by three
-half-hitches.
-
-The kite may be covered either with cloth or paper. If cloth is used,
-the edges should be hemmed. If paper, lay it on the floor, put glue on
-each upright, then press the paper to one upright. Wrap the paper around
-the kite and wind string around it several times to hold it while
-adjusting and pressing each corner. Glue the ends of the paper next,
-pulling them as tight as possible. Two flat-irons will hold the ends
-while drying. After the paper is on, its edges should be strengthened
-with a narrow ribbon of cloth glued to it.
-
-Tie the bridle strings just above and below the upper cell and have the
-flying-knot 5" in front of the end of the brace.
-
-
-
-
-                    KITE-STRING SAILBOAT--PLATE 16.
-
-
-To send messages up to his kite, many a boy has made a hole in a piece
-of paper and watched that go sailing up his anchor line. This sailboat
-will do that, and other things too, and come spinning down again to take
-another message. A parachute, made of a paper napkin, having a 12"
-thread running to each corner and a nail for ballast tied where the four
-threads are knotted together, can be sent up by this messenger,
-released, and allowed to float down from a great height. Paper gliders
-sent up this way will do many "stunts" before they reach ground. Fold a
-flimsy paper napkin in such a way as to hold a bunch of confetti with a
-pin thru only three or four thicknesses of the napkin. This can be tied
-to the keel and the pin withdrawn by the release and fall of a nail,
-and, behold, a shower of confetti! Be sure the falling nail will do no
-injury where it strikes.
-
-A light, frail model like this will require considerable time and
-patience to make and adjust so that it will work. Make the hull and
-posts from a stick about 13" long. Bore the 3/16" holes for the mast and
-keel, the former a little to the left (port, a sailor would say) of the
-center and 2-1/2" from the bow, the latter in the center 2" from the
-stern. Make the wheels of the ends of spools by sawing them off just
-where the straight portion begins, and glueing them together on a hard
-dowel. Very accurately find their centers and drill holes for 1" brads
-which form their axles. Drive these into the post so that the wheels run
-very freely. Do not nail the posts to the hull till the wire parts have
-been put in place. Make three staples of pins and drive them in the
-bottom of the hull so that a fine wire will just slide thru them easily.
-Three are used so that the wire will always be held straight. Next make
-the two eyes which hold the kite-string under the wheels. Coiled around
-once and a half, the coils must be separated enough to allow the string
-to slip between. The safety of the model, swinging violently high in the
-air, depends upon these eyes. They can be driven thru small, tight holes
-and bent on the under side to make them secure. They must be just high
-enough to allow the string to run free. The forward one is elongated
-because the kite-string slants upward so much. Bend the 4" wire trigger
-three times around a brad driven in a piece of wood for convenience. To
-handle wire readily for such work as this, two pliers will be found
-useful. Saw a notch in the bow just wide enough for this coil. Now glue
-and nail the posts in position.
-
-[Illustration: KITE-STRING SAILBOAT
-
-PLATE 16]
-
-Make the mast, all the spars, in fact, smaller at the outer end. Rig it
-completely before gluing the mast in place. Be sure that the booms will
-swing _over_ the forward wheel, so as not to interfere with its easy
-running. The sails should be of light cloth. The booms and the gaffs
-(see Plate 30 for names of parts) must swing freely on the mast, so as
-to fold together when the trigger is released. For the main-sheets, use
-thread tied with a long loop to slip over the fine wire part of the
-trigger. A cork 1-1/4" in diameter, slit to the center, can be put on
-the kite-string far enough from the kite to be safe from any entangling.
-On the keel, fasten ballast enough (about 1 oz.) to make the sailboat
-ride upright.
-
-
-
-
-              THE HYGROSCOPE OR WEATHER COTTAGE--PLATE 17.
-
-
-This model serves to indicate the humidity (dampness) of the air. It
-consists of the house, turntable, and figures, the turntable being
-suspended on a violin string. The violin string absorbs moisture from
-the air and untwists, thus causing the man to come out; when the air
-become dry the string twists tighter, thus causing the woman to come
-out. The model should be placed out doors but not exposed to rain or
-sun.
-
-The arches of the doorways may be made with a big bit (1-3/8") or a
-scroll saw. If a bit is used, bore a hole for the spur first, lest it
-split the board. While boring hold the board vertically in the vise. The
-portion cut off between the doorways can be sawed with the tip of the
-back-saw if the board is laid flat on the bench-hook. The slanting lines
-at the top, also, can be sawed while held down on the bench-hook. After
-the front, back and sides are made, nail the back to the sides, but
-screw the front. When this is done, put the house in the vise in an
-upright position and plane the tops of the sides slanting. Notice that
-one roof is wider than the other. Nail the narrower one first, with the
-grain running from front to back. Do not drive nails into the front but
-nail it securely at the back and side. Letting the plane rest on the
-other side of the house, plane the upper edge of this roof slanting, so
-that the other roof will fit. Nail this in place; set all nails; and
-plane the upper edge of this roof slanting, letting the plane rest on
-the first roof. Two brads may now be driven near the center of the
-ridge-pole to hold the roofs together. After making the floor, place the
-house in position on it (1/4" from back, 1/2" from ends) and draw a line
-around the house. Remove the house; drive three brads straight down thru
-the floor; pull them out and start them from the under side in the same
-holes; then put the house in place again and drive the brads home. Put
-in more brads to hold the house securely.
-
-To make the chimney, saw a notch 3/16" deep in the end of a 3/4" square
-stick. If it fits on the roof, bore a 5/16" hole thru its center, and
-saw the chimney off 3/4" long. Glue it 3/8" from the front end of the
-roof. When dry, bore the hole thru the roof. The chimney top with the
-dowel attached to it below is made to revolve so that the Hygroscope may
-be adjusted. To make the chimney top, bore a 1/4" hole into the end of a
-1/2" dowel; then saw it off 1/2" and glue in the upper dowel. Make the
-turntable somewhat round at each end. In the center of it, glue and nail
-the lower dowel. Next, paint the house if desired. The violin string is
-glued and wedged into holes in the upper and lower dowels so that the
-turntable will swing 3/16" above the floor.
-
-The man and woman may be made of cardboard, wood, clay, chalk or plaster
-of Paris; or they can be bought at a toy store. Painted in bright colors
-and shellacked, or varnished, they look well. They can be made to
-balance on the turntable by adding a piece of lead. Of course, neither
-they nor the turntable should touch any part of the house as they swing
-around.
-
-[Illustration: HYGROSCOPE
-
-OR
-
-WEATHER COTTAGE
-
-PLATE 17]
-
-
-
-
-                        ELECTROPHORUS--PLATE 18.
-
-
-The electrophorus consists of two parts, a pan filled with a resinous
-mixture, and a cover which has been completely covered with tinfoil.
-Under favorable conditions, a spark of electricity 1/2" long can be
-obtained from this electrophorus. The favorable conditions are these:
-The air should be dry; both parts of the electrophorus should be warm,
-dry, and clean; and the tinfoil and rosin should be perfectly flat, so
-as to come in close contact with each other.
-
-Make the pan and its sides as shown in Plate 18. Glue and nail the sides
-in place and round their upper edges well with sandpaper. To make the
-resinous mixture, melt a half teacup of rosin with two teaspoons of
-turpentine and about the same of paraffin in a rather deep dish, and
-pour the mixture into the pan. As all these materials are inflammable,
-perhaps the safest place to melt them is in the oven. After the pan is
-cold, test the surface of the rosin to see that it is flat every way. If
-it is not flat, sandpaper the high parts slowly with coarse sandpaper.
-
-When making the cover, observe the directions on page 20, then round the
-edge to a good half-circle. Test the cover also to see that it is flat,
-especially on its under side, for to get good sparks, the tinfoil and
-rosin must come just as close together as possible. Cut two circles of
-tinfoil 4-1/2" in diameter. Smooth them carefully on a piece of paper,
-spread glue thinly on the cover, lay the tinfoil on the glue, and smooth
-it with the fingers. Press the edges as smooth as possible because
-electricity escapes easily from sharp corners. Cover the larger open
-spaces with bits of tinfoil. Hard rubber (ebonite), being a
-non-conductor of electricity, makes the best handle. A piece of an old
-rubber comb or a fountain pen can be used for this purpose.
-
-To get a spark of electricity, rub the rosin with soft leather, fur, or
-woolen; place the cover on it; touch the top of the cover with the
-finger (to remove the negative electricity); lift the cover by the top
-of the handle; bring the edge of the cover near a finger, or other
-conductor, and a spark will fly off with a snap. It is a miniature flash
-of lightning. Some books on electricity describe many other experiments
-which can be tried.
-
-[Illustration: ELECTROPHORUS
-
-PLATE 18]
-
-
-
-
-                         WATERWHEEL--PLATE 19.
-
-
-This waterwheel is designed to be placed in a flowing stream. A longer
-trough might well lead the water into this one so as to get greater
-speed.
-
-Make the trough first, being careful to make a good fit where the sides
-nail to the bottom. Nail the top 5" from the end where the wheel is
-placed. The upper corners of the axle blocks are to be cut off 1". The
-center of the 5/16" hole for the axle is 7/8" from the lower edge. When
-nailing the axle blocks in place, put a dowel or lead pencil thru the
-holes to help in nailing the blocks exactly opposite each other.
-
-After sawing a board for the wheel 4-1/4" square, draw the diagonals and
-diameters (cornerwise and crosswise, that means) to divide it into eight
-parts. Draw a 4" circle for the wheel and a 3-1/4" circle to mark the
-depth of the notches for the paddles. Shape the wheel. (See page 20 for
-directions.) Test it with the trysquare to keep the edge square with the
-flat surface. Bore a 1/4" hole in the center with the greatest care, or
-the wheel will wobble sidewise. The notches are cut with the back-saw
-alone. One-eighth of an inch to one side of the eight lines across the
-circle, saw straight down to the inner circle. Be careful to hold the
-saw square with the wheel. After this saw cut is made, measure the width
-of the notch by holding the edge of a paddle so as just to cover the saw
-cut, and, with a knife point make a dot at the other side of the paddle.
-Holding the trysquare against one side of the wheel and the inner edge
-of its blade over the dot, score a knife line across the edge of the
-wheel. Then saw straight down again _inside_ this knife line. Saw
-cornerwise a few times and the wood will be removed sufficiently. The
-notches may better be too small than too large, for the paddles can be
-planed thinner to fit. Clean the wheel with the plane before nailing the
-paddles. All these paddles except one can be nailed with the wheel held
-in a corner of the vise. To nail that one, put a thin board upright in
-the vise and rest the wheel on its top. All nails should be started in
-the paddles, not in the wheel.
-
-[Illustration: WATERWHEEL
-
-PLATE 19]
-
-Make the axle of hard wood. Push it thru the axle blocks and wheel, and
-lock it to the wheel with a brad, Plate 19. The axle is made long so
-that a pulley (spool) can be put on and a belt (string) run from this to
-other pulleys. A leather washer outside each axle block keeps the wheel
-in the center. If the work has been carefully done, the paddles will not
-strike; if they do strike, they must be pared off.
-
-
-
-
-                         WATER MOTOR--PLATE 20.
-
-
-This motor is a waterwheel designed for an ordinary hose faucet. Under a
-stream of water no bigger than a large needle, it will fairly buzz. If
-the wheel does not run exactly true on the axle, the motor will need
-legs screwed on the outside of the box.
-
-Make the wheel of soft wood just as true as possible. (See page 20.) For
-the axle a small brass rod or a large knitting needle may be used. In
-the center of the wheel, drill a hole smaller than the axle so as to
-make a tight fit. Be very careful to bore this hole straight. Force the
-axle thru the wheel, and if the wheel wobbles only slightly drive wooden
-wedges beside the axle to force it square with the wheel. If it wobbles
-too much, plug the hole and try boring again. Resting the axle on the
-jaws of the vise, revolve the wheel rapidly to see where it is out of
-true, and patiently pare it down. The flat side of the wheel which
-wobbles only a little can be planed off. The strip of screen wire
-netting should now be tacked on the wheel. It is long enough to go twice
-around the wheel, and should be tacked on with a dozen small tacks.
-
-For suggestions about the pulley see page 56.
-
-Prepare a block of soft wood for the coupling. From its bottom, gage a
-line marking the height of the dovetails in which the blocks C and D fit
-3/8" on each side. Saw these dovetails 3/16" deep, and pare them
-slanting with a chisel. In the center of the top, bore a 1" hole, 3/4"
-deep; continue the hole thru the block with a 1/2" bit. Bore holes 3/8"
-from the top, 1/2" from the ends for the two 1-1/2" screws which are
-shown in the small drawing, Plate 20. Gage and saw out the left-hand
-half of the block (as shown in the plate) as deep as the 1" hole. The
-purpose of this is to permit a squeezing fit on the threads of the
-faucet. When first trying it on the faucet, squeeze it hard with a
-hand-screw to jamb the threads into the wood; after that, the screws can
-be put in and the coupling attached at pleasure. A 1/4" hole is bored in
-the 1/2" dowel, which serves as a nozzle, until the spur just shows.
-Without allowing the bit to bore any farther, turn it around enough so
-that the spur will wear the wood and thus make a tapering hole as shown
-in the sectional drawings.
-
-Prepare the sides, ends, and top of the box, the three blocks, the key
-wedge, and the two stops. The wedge should be 1/16" wider at one end
-than the other and should fit the dovetail. Block C should fit the
-other. In the top piece, bore a 3/4" hole in the middle 1-1/4" from the
-end. This hole is larger than the nozzle to allow for adjustments. All
-these parts must now be thoroly soaked with paraffin. Melt the paraffin,
-apply it with a brush to all surfaces, and drive it in with heat. During
-the process, the nozzle can be made fast in the coupling, using plenty
-of paraffin to make it water tight. See that the tiny outlet occupies
-the best position for directing the water onto the wheel. After the
-nozzle is cold again, the outlet should be carefully worked out again
-with the warm point of a big hat-pin or wire, filed to a good point.
-
-Put the parts together as follows: Nail one side (the right in the
-plate) to the ends; screw the other side to ends; nail top to ends and
-first side only; nail block B to A; then A to the top. Unscrew the side
-and bore holes in the center of the sides for the axle. Make them fit
-nicely, then soak them with paraffin. Put the wheel, the side, the
-pulley, and the stops in place. Put the coupling in such position that
-the nozzle comes over the rim of the wheel and nail block C. After
-putting two or three soft leather washers in the coupling screw it to
-the faucet, lock it to the motor, and the motor is ready.
-
-Better bearings for the axle can be made of two pieces of solder screwed
-to the inside of the sides. If these are made, the holes in the sides
-should be large enough not to touch the axle. The wheel and pulley can
-be locked to a brass axle by boring a hole thru the axle with a drill
-made of a needle. (See Drills, page 11.)
-
-[Illustration: WATER MOTOR
-
-PLATE 20]
-
-
-
-
-                         SAND WHEEL--PLATE 21.
-
-
-Fine sand will make a wheel like this spin around lively. Most of the
-parts are easily made, the wheel offering the most difficulties.
-
-As shown in the drawing it consists of two boxes, uprights connecting
-the two, and a wheel with paddles swung on an axle between the uprights.
-
-[Illustration: Fig. 4]
-
-To make the curves on the uprights, lay them edge to edge in the vise
-and start the spur of a large bit in the crack, 1-1/2" from each end. If
-a big spool cannot be obtained for the wheel, plane out an octagonal
-block 1-3/8" long, 1" in diameter. The slanting part of the spool must
-be whittled away. Divide one end into eight equal parts and draw lines
-lengthwise on the spool at each division. On these lines, measure very
-carefully 11/16" from one end. Then, holding the spool level in the vise
-bore 3/16" holes half thru the spool at each of these dots. The easiest
-way to lay out the paddles is in one long piece as shown in Fig. 4. If
-lines A and B are sawed carefully (see page 12) they will fit the spool
-well enough to glue. The stems of the paddles go into the holes bored in
-the spool. They are easily made round by paring the corners a little,
-and then screwing them around in a 3/16" hole in a piece of hard wood.
-The ends of the paddles where the sand strikes are bevelled on the under
-side. The holes in the uprights, thru which 1-1/4" brads are pushed into
-the center of the spool, must be exactly opposite each other, 3-1/4"
-from the bottom. Little leather washers should be put between the spool
-and the uprights.
-
-[Illustration: SAND WHEEL
-
-PLATE 21]
-
-Now make the boxes. To nail the boxes to the upright follow the
-suggestions on page 59 for nailing the floor of the weather cottage.
-Keep the brads near the center of the uprights lest they split the
-curves. A 5/16" hole for the sand is bored in the upper box in such a
-position that the sand will strike near the middle of the ends of the
-paddles. The peg is tapered to fit this hole.
-
-
-
-
-                        RUNNING WHEEL--PLATE 22.
-
-
-It is fine fun for several boys to race down the street with running
-wheels. Each boy can have a different kind of wheel by following the
-suggestions on Plate 22.
-
-[Illustration: Fig. 5]
-
-The wheel may be made any convenient size. Saw a board off square and
-plane it flat. To be sure that it is flat, it must be tested with a
-straight-edge from corner to corner, crosswise, and lengthwise. Draw the
-circle with a string pinned to the center, if a large compass is not at
-hand. Saw it with a turning saw and finish it as suggested on page 20.
-Bore and countersink a hole in the center for a 1-1/2" flat-head screw.
-Make the handle and drill a small hole in it where the wheel is to be
-screwed on. Round off the upper end and edges of the handle so that it
-feels good to the hand grasping it. The screws used in the connecting
-rod should slip easily thru the holes at each end. Altho one arm will
-do, two look better. To draw the boy, draw as many 3/4" squares on the
-board as there are in Fig. 5, then sketch the outline one square at a
-time. To cut it out, a scroll-saw or turning-saw is almost surely
-needed, tho a patient boy can do it with auger-bits, back-saw, knife,
-and file--the bits to be used first at all the inside angles. On the
-handle, must be put a block on which to screw the boy. To fasten the two
-arms loosely at the shoulders, the screw should be loose in the shoulder
-and first arm, and tight in the second arm. The same is true of the
-hands and flagpole. In the top of the flagpole, bore a hole to fit a
-small flag. Paint of bright colors makes the model look much more
-pleasing.
-
-An easy way to make the sliding part of the lower right-hand running
-wheel, Plate 22, is to cut out with bit and chisel a narrow slot thru
-the handle, wide enough for two screws, with washers on them, which
-screw into the block holding the flag.
-
-[Illustration: RUNNING WHEEL
-
-PLATE 22]
-
-
-
-
-                           RATTLE--PLATE 23.
-
-
-This is a noisy toy and will make a safe substitute for fire-crackers on
-the Fourth of July. Some of the dimensions may be changed to suit such a
-spool as can be obtained. It should be a rather deep spool, that is, one
-that held a lot of thread.
-
-The noise is made by the spring snapping off the slats in the spool as
-the head of the rattle is swung round and round. Draw lines across one
-end of the spool to divide it into eight equal parts. Place the spool
-endwise in the vise and, with the back-saw, cut eight notches a little
-more than 1/16" wide straight towards the opposite side of the spool. By
-sawing twice at each notch, the wood which remains can easily be removed
-with the saw held slanting. There are several ways of making the eight
-little slats which fit into these notches; the easiest, perhaps, is to
-split them from a block (1-5/8" × 1-1/2" × 5/16") of a straight-grained
-wood, and plane them on the jig described at the foot of page 19. Glue
-them in the notches. Plane the back and the spring this same way. Square
-both ends of the back but do not plane it quite to width until it is
-glued and nailed in place. In the two sides, bore a 5/16" hole for the
-dowel, 3/4" from the end and a little over 3/4" from the back edge.
-(Holes are always located by their centers.) This dowel must fit tightly
-in the handle and spool, and loosely in the two sides. Plane the spring
-thinner at the narrow end. It should be narrow enough and its corners
-cut off enough so as not to touch the spool when it snaps. The handle
-might well be octagonal rather than round.
-
-The parts may now be put together as follows: Glue and nail the sides
-first to the thick end, second to the thin end. The distance between the
-ends inside is 3-5/16". Keep these four parts flush on the back edges so
-that the back will fit. Glue and nail the back. Glue the dowel in the
-handle. Put glue inside the spool and on the middle portion of the
-dowel, then, with the spool between the two sides, push the dowel thru
-all three holes. Glue and nail the spring in place. It should be as far
-towards the spool as it will go without snapping the next slat when it
-snaps off one slat.
-
-[Illustration: RATTLE
-
-PLATE 23]
-
-
-
-
-                            CART--PLATE 24.
-
-
-The important features of a cart are the wheels and axle and the tongue;
-if these are strong and the tongue securely fastened, almost any box
-will do for the body. Two tongues, nailed or screwed to the sides of the
-body, probably make the strongest handle, but they are not so good
-looking as the one shown in Plate 24. If this one is screwed to the box
-with six 1" screws, two in the tongue and two in each block, it will be
-strong enough. Some of the nicer boxes to be secured of a grocer will do
-for a body, tho it is better to make one one's self.
-
-Four wheels of 1/2" hard wood should be made (see page 20) and then each
-two of the four glued and nailed together very securely with the grain
-crosswise. For this purpose, 1-1/4" clout, or clinch nails are best. Do
-not drive them too near the center nor the rim. To clinch nails, they
-should be driven onto a piece of iron. After this is done, a 7/8" hole
-(or larger if you can get a larger stick for the axle) is bored straight
-thru the center. To cut the cylindrical ends of the axle, first draw a
-7/8" circle at the center of each end, then lay out and saw out two
-rectangular pieces, one on each side of the circles so as to leave a
-7/8" square pin, 2-1/4" long. Proceed to make these pins; first, eight
-sided; then, sixteen sided; then, round; using knife or chisel and a
-coarse flat file. Make the hole in the washers before cutting off each
-corner 9/16". These washers are to be fastened to the axle when held
-rather snugly against the wheel with two 1" screws put crosswise the
-grain. Before putting the wheels on the last time, rub the axles and
-holes well with hard soap to make them run easier. Draw a line across
-the bottom of the body 5" from the back end, and bore four screw holes
-thru the bottom; countersink them well on the inside of the body, and
-put 1" screws thru into the flat side of the axle. The axle is planned
-so that the wheels run within 1/8" of the body.
-
-[Illustration: CART
-
-PLATE 24]
-
-With a curved lower edge, the tongue is 2-1/2" wide at one end and
-1-1/2" at the other. To get the correct slant at the wide end, block up
-the cart level, have some one (or the vise) hold the tongue in the
-position wanted when finished, then with a strip of wood about 2" wide
-placed upright against the front of the body, draw a line on the tongue.
-From the lowest corner of the tongue, draw another line parallel to the
-first, and saw off. After making the two blocks and fastening them
-securely to the tongue, saw the lower ends flush with the curve of the
-tongue. Place the tongue in position, draw a line around it on the body,
-then bore holes where screws will go best into the tongue and blocks.
-Six 1" screws well countersunk will hold the tongue securely. Since the
-tongue is fastened to the _front_, the sides and bottom must be well
-nailed to _it_; or, the corners may be strengthened with a piece of tin
-inside and outside each corner, tacked or riveted together. Each piece
-of tin should be about 3" square.
-
-A piece of old bicycle frame forced tightly into the hole of a wheel,
-makes it very durable. Such a hole would doubtless have to be bored with
-an expansive bit. A bicycle frame is easily filed in two at some
-distance from the reinforced joints. Such a piece should be longer than
-the thickness of the wheel to allow filing it flush after it is driven
-in. To force it in, use a strong vise, or, after protecting it with hard
-wood, drive it slowly with a heavy hammer.
-
-Small carts can be made with wheels made of spools like those of the
-cannon. (See Plate 25.)
-
-
-
-
-                           CANNON--PLATE 25.
-
-
-This cannon will shoot small marbles very well. The force of it depends,
-of course, on the strength of the rubber bands. Because the ramrod and
-handle are rather heavy, a strong dowel is put thru the handle and
-ramrod. The rubber washer absorbs some of the shock.
-
-For the barrel draw a 1-1/4" circle on one end of a stick 6-1/2" ×
-1-1/2" × 1-1/2". From the center of this circle, bore a 9/16" hole
-straight thru the stick endwise, stopping as soon as the spur comes
-thru. Set the needle of the compass in this spur hole and draw a 1"
-circle and, if possible, a 1-1/4" circle; then finish boring.
-
-Plane the stick round to the 1-1/4" circle. To hold the stick while
-doing this, put a rod thru the hole, open the vise 6-1/2" and let the
-barrel rest endwise in the vise. Two and one-half inches from the breech
-end of the barrel, draw a line around it to limit the taper of the
-muzzle end. Plane the muzzle to the 1" circle. Two inches from the
-breech, bore a 3/8" hole straight thru the barrel; and into this hole
-glue the axle. After the glue is dry, bore out the barrel again, and
-sandpaper the hole well.
-
-Make the ramrod fit loosely in the barrel. (See directions for Dart,
-page 16.) Make the handle in the same manner as the barrel was made,
-except that, after drawing the 1-1/4" circle at the end where the spur
-just appears, the hole is _not_ bored further. Glue the ramrod in place,
-and fasten it with the 3/8" dowel. The curved notch into which the
-rubber bands are tied, can be worked out patiently with a round file,
-first cutting a V-shaped notch with a knife. Pare the corners and
-sandpaper all parts well.
-
-The rubber washer can be made of an old rubber heel. To bore a hole in
-it, squeeze it between two boards and bore thru both together.
-
-At least one of the uprights must be screwed to the base. The first one
-may be nailed. Glue and nail this one 1/4" from the edge of the base.
-Hold the other in place and draw a line around it. Bore holes for the
-screws, put the screws in the holes, and press the upright on them to
-mark where to bore in the upright. After boring in the uprights, put the
-cannon and upright in place, and tighten the screws. The wheels can be
-made of the ends of large spools, well countersunk for a short, large
-screw.
-
-[Illustration: CANNON
-
-PLATE 25]
-
-[Illustration: AUTOMOBILE
-
-PLATE 26]
-
-
-
-
-                         AUTOMOBILE--PLATE 26.
-
-
-Tho the motor (an elastic band) which makes this automobile go is a
-short-winded affair, still, if the wheels are easy running, it will go
-alone for a short distance on a wooden floor. A stronger elastic can be
-used if the automobile carries a load. If the parts are painted with
-bright colors before they are entirely put together, the automobile will
-look very well.
-
-First, make the body, then 4-1/4" from the front end and 3/4" from the
-right side, bore a 1/4" hole in the body for the steering post. This
-should fit tightly so as to hold the wheels in any position desired.
-Leather washers are nailed to the post close to the body. The steering
-post must be put in place before any other parts are fastened to the
-body.
-
-The ends of the rails which are later fastened to the bottom of the
-body, slant 1/2". The center of the holes for the axles is 3/4" beyond
-this slanting line and 1/4" above the lower edge of the rails. When
-boring these 1/4" holes, the rails should be clamped together so that
-the holes will be exactly opposite each other. The forward holes are
-made long to allow the axles to swing back and forth. To make this hole,
-two 1/4" holes are bored side by side and the top and bottom smoothed
-with a 1/4" chisel. When nailing the body to the rails, put the rear
-axle thru the holes to aid in keeping them opposite each other.
-
-The forward axle is made in one piece and kept so until after the
-steering "rope" is in place. The axle must be held carefully in place
-while the brad holes are bored 1/8" from the outer edge of the rails and
-straight thru the center of the axle. A tight fitting brad is driven
-into this hole. The steering rope must not stretch; large, hard thread
-is suitable. Wind a piece about 18" long tightly around the axle about
-1/4" from one rail and tie it. Pass one end thru the small screw-eyes
-shown in the lower drawing, and wind it around the axle near the other
-rail leaving no slack in the screw-eyes; then wind six to eight turns
-smoothly around the steering post, and fasten the end to the beginning
-with several half-hitches. (See Plate 15.) A separate thread should be
-tied around the axle and steering rope at the second place. Should
-there be any slack, it can be taken up by laying a V-shaped thread over
-the steering rope near the axle and passing the two ends over the upper
-side of the axle, and tying them across the steering rope on the other
-side of the axle. This tends to pull the steering rope together on top
-of the axle.
-
-The wheels can be sawed from short lengths of curtain poles, obtained at
-a furniture store. The 1/4" holes for the axle, must be bored exactly at
-the center. The wheels must turn freely on the front axle, but be glued
-to the rear axle, which must itself turn freely in the rails. After the
-wheels are in place, the front axle can be sawed in two with a back-saw,
-using very short strokes, and sawing two cuts nearly thru before either
-is sawed completely.
-
-Nail the wind-shield to the engine, then glue both to the body. Nail the
-seat-back to the seat so that the top of the seat will be 3/4" above the
-body, then nail the two sides to the end and to the seat-back and seat.
-Glue the whole to the body. Nails can be driven up thru the body into
-the engine, the seat back, and the end, if care is used in locating
-them.
-
-One end of the elastic band (motor) is tied with a bit of string to a
-brad driven in the forward end of the body of the automobile. On the
-other end of the elastic band is tied a piece of string about 8" long.
-This is put just under the body and above the steering rope and wound
-two or three times tightly around the rear axle and tied. The string and
-elastic band should be simply straight, the elastic neither stretched
-nor loose. To wind up the motor, move the automobile backwards on the
-floor and hold the rear wheels until ready to let the automobile go.
-
-
-
-
-                         BOW PISTOL--PLATE 27.
-
-
-For target shooting in the house, this is a fine toy. With nicely made
-arrows and a good bow, it will shoot very well.
-
-Make a good bow of rattan, or other tough wood. An old spoke of a
-carriage wheel could doubtless be obtained of a blacksmith or
-wheelwright, and such a hickory spoke would make a good bow. Make the
-bow much like that shown on Plate 8, except that it should be round at
-the center to fit the 3/8" hole in the pistol. The bowstring should be
-a hard cord so that it will slip easily from the notches in the barrel
-when the trigger is pulled.
-
-[Illustration: Fig. 6]
-
-Before shaping the pistol, make the groove in the center of one edge of
-the board. This should be made with a 3/8" round plane. It can be made,
-however, with the tool shown in Fig. 6, a gouge, and a round file. This
-tool is much like the one described on page 41 tho a larger nail is
-used. Make the groove 7/32" deep; gage a line 3/16" from each side of
-the board; then use the gouge inside these lines and as deep as the
-groove. When the gouging is well done, smooth the groove with a round
-file or coarse sandpaper wrapped around a pencil.
-
-Draw and shape the pistol. Make the lower edge of the barrel half round.
-Sandpaper it well. Make the trigger of hard wood and screw it on the
-pistol. The shape of the notch next to the trigger is very important but
-the shape of the other one is not so. Both notches, however, must be so
-smooth and well rounded as not to injure the bowstring. They should be
-not deeper than one-half the depth of the groove.
-
-Arrows are quickly made by sawing long strips of straight-grained wood,
-3/16" square, planing the corners, and sandpapering; then cutting them
-5" long, splitting the ends (see page 16), inserting a paper 1" × 1/2"
-and tying the end with thread.
-
-[Illustration: BOW PISTOL
-
-PLATE 27]
-
-
-
-
-                         ELASTIC GUN--PLATE 28.
-
-
-If cash carrier elastic cord about 5/16" in diameter and 18" long is
-used on this gun, it will shoot buckshot, peas, small arrows, etc., with
-considerable force; in fact, if the cord is fastened far enough forward,
-it will require all a boy's strength to pull the rider back to the hook.
-The gun may be made of pine, whitewood or clear spruce.
-
-[Illustration: Fig. 7]
-
-To lay out the gun (see Fig. 7) first draw A B, then A C, then measure B
-D and draw C D; next measure the width of the barrel and draw E F; add
-3/8" below this for the gun-stock, and finally draw the curves freehand.
-To saw it out, first rip it along E F, then cross cut it at H F, then
-rip it as far the curve along C D, and then along the lower side of the
-gun-stock to meet C D, finally along A B. Of course, none of this sawing
-should quite touch the lines. Plane to these lines wherever possible,
-then use the spokeshave. The curve and corner at F should be pared with
-a chisel. The lower edge of the gun-stock and barrel is made half-round,
-but the upper edge, especially where the spring is screwed, is only
-slightly round. The curve at the butt of the gun-stock should be cut out
-with the turning-saw, and rounded with a half-round file. The groove can
-be made as in the bow pistol. (See page 86.)
-
-All parts of the gun should be well sandpapered, especially where the
-elastic will rub on the barrel.
-
-Make the trigger of tough wood.
-
-[Illustration: ELASTIC GUN
-
-PLATE 28]
-
-Bore a 1/4" hole for the trigger post about 3/4" from the back end of
-the groove, making it slant forward about 3/4". Make this hole smooth as
-possible. Where the hole comes thru the gun-stock, start the mortise in
-which the trigger belongs. This should be 3/8" deep and an easy fit for
-the trigger. Put the trigger in place, and drill a small hole straight
-thru the gun-stock and trigger. Consider carefully where to bore this
-hole so that it will not come too near the edge of the trigger. Insert a
-good-fitting brad and see if the trigger post will move up and down
-about 1/4". Do not make the mortise so long that the trigger post will
-slip by the trigger.
-
-Now make the spring of hard wood. Pare the curve from each end with a
-chisel, holding the spring endwise in the bench-hook. The holes for the
-screw and the hook must be large enough so that the spring will not be
-split, and yet the hook must be screwed in strongly to hold the elastic.
-The hook must be filed off enough, and slanting, so that the screw-eye
-in the rider will slide under it and be caught.
-
-The rider is the hardest part to make because it is small and must be of
-hard wood; also, the block must be nicely fitted into the long piece.
-Make the lower edge of the long piece round so as to slide well in the
-groove. Bore a 5/16" hole thru the block _endwise_ the grain,
-countersink the ends, and smooth them so that they cannot injure the
-elastic. Next lay out, saw, and chisel a notch 5/16" deep in the long
-piece in which the block will fit snugly. Glue it and nail it from the
-under side, or put in a 1/2" screw. Holes will have to be bored
-carefully for either brads or screw. Bore a hole, and put the screw-eye
-in such a position that it will slide under the hook with a snap. Be
-careful not to twist the eye off in this hard wood. The back end of the
-eye might well be filed somewhat slanting so as to slip under the hook
-better.
-
-Put the elastic thru the rider, snap the rider on the hook, and pull the
-ends of the elastic as far as seems best,--don't have it too strong!
-Where the ends of the elastic are pulled, bore two 1/4" holes thru the
-barrel one above the other. Bind the elastic securely between these
-holes; to make it doubly secure, wind a string between the elastic and
-the barrel to pull the first strings closer together.
-
-Now saw off the ends of a spool about 1/2" and screw them to the barrel
-in such a place that they will hold the elastic, without stretching,
-against the sides of the barrel. These spools should turn easily. They
-cannot be placed exactly opposite because the screws will interfere.
-
-Snap the rider to the hook, pull the trigger, and notice that the rider
-goes up with the trigger post. To hold it down, put a slender 3/4" screw
-on each side of the groove in such a place that the screw heads will
-come over the outside of the screw-eye; or, 1" brads may be bent over
-the screw-eye. When everything is in working order, drive a 1" brad on
-each side of the spring to keep the hook always in place.
-
-
-
-
-                       RATTLE-BANG GUN--PLATE 29.
-
-
-For boys who want to play soldier, here is a gun which will make a big
-noise but will not hurt anybody.
-
-First, make the rattle of maple. The slot in it can be made with the
-rip-saw. The solid end must be nicely squared to fit the forward end of
-the pocket cut out of the gun-stock. Here it must be held firmly in
-place by glue and two screws. One screw is put slanting from the top of
-the gun-stock; the other is put straight from the bottom. That the
-rattle may sound the loudest, it must not touch anywhere else than this
-solid end. When putting the knocker and trigger in place, see that they
-also do not touch the rattle. The gun-stock is made like that of the
-elastic gun (Plate 28) except that it has to be 2-3/8" wide in that
-portion which holds the rattle. The pocket is 3-1/2" from the forward
-end and 1-1/2" deep where the solid part of the rattle fits. To put the
-slanting screw in nicely, a place must be cut out with a small chisel
-for its head, 3/8" deep and 1/2" away from the pocket. Clamp the rattle
-in position, bore a hole for the screw, then glue and screw the rattle
-in place. Before the glue is dry, see that the rattle is straight, then
-put the lower screw into it.
-
-Make the knocker of maple. The reason for the triangular notch in its
-bottom edge will be evident when the trigger is turned around. The
-stiffer the spring is, the harder, of course, it will strike the rattle,
-and also, the harder the trigger will turn; 1/8" will be thick enough
-for the thinnest place.
-
-The trigger should also be of maple. Join it with a cross-lap joint.
-(See page 24.) Then, holding each end successively upright in the vise,
-draw the slanting lines and saw for 3/8" lengthwise in such a way as to
-leave 1/16" flat on each of the two adjacent surfaces. After sawing
-endwise, saw the little corner pieces off crosswise. The trigger has to
-withstand considerable pulling, so it should fit nicely, yet easily, a
-1" screw in its center. Before screwing either the knocker or the
-trigger in place, lay both on the gun-stock so that they will engage
-properly; then mark the place for the screws, drill holes, and screw
-them on. If the knocker touches the rattle, take it off and plane a
-slanting chip or two where it is screwed to the gun-stock. A thin
-leather washer 5/8" in diameter will prevent the trigger touching. A
-little soap will make the trigger turn easier.
-
-[Illustration: RATTLE-BANG GUN
-
-PLATE 29]
-
-The barrel may well be made of a broomstick. To make it fit on the top
-of the gun-stock, saw it down the middle and cut off the lower half.
-Before fastening it in place, be sure that it will not touch the
-sounding part of the rattle.
-
-[Illustration: Fig. 8]
-
-A still louder and more difficult rattle to make is shown in Fig. 8.
-Most boys would find it impossible to bore a 1" hole endwise in maple.
-The knocker and trigger would both have to be set out from the
-gun-stock.
-
-
-
-
-                            BOAT--PLATE 30.
-
-
-This boat is designed rather heavy to insure good service. It has
-ballast and beam enough to right itself even tho the sails do get wet.
-If a better looking boat is desired, draw the deck more slender; hollow
-the hull with bit and gouge; pare the gunwales with the spokeshave to
-give it some sheer; and nail on a thin deck. Soft pine is the best wood
-for the hull and spruce for the spars.
-
-To lay out the hull, draw a center-line lengthwise on top, bottom, and
-ends of the block of wood. Make all the measurements given on the deck;
-(top of the hull, Plate 30) first lengthwise, then crosswise. Square
-with the deck, the curve should be worked out with rip-saw and
-spokeshave. The stem should next be undercut with the saws (rip and
-crosscut) so as to make place for the rudder. On the bottom leave a flat
-place 7-1/4" × 1/2" for the keel to fit; then round the hull as
-suggested by the sectional drawings at AB and CD.
-
-Make the keel and nail it securely in place. From the under side of the
-boat and slanting the same as the keel and undercut, bore a 5/8" hole
-for the stem of the rudder.
-
-Make the rudder and tiller of 1/4" wood. The little mortise in the
-tiller can be cut with a small chisel after a 3/16" hole is bored at its
-center. For the wheel, make a dowel about 2" long and into one end of it
-bore a hole about 1" deep for a 1-1/4" screw. Saw a piece from this end
-5/8" long and screw it to the deck about 1-1/2" in front of the hole
-bored for the rudder. The wheel should turn rather hard so as to stay in
-any position desired.
-
-To make the spars, (mast, boom, etc.,) follow the directions on page 16.
-Use large screw-eyes in the gaff and boom (or see Plate 16, "method of
-swinging booms to mast") and a very small one at the top of the mast. To
-nail the bowsprit securely, place it 1" back of the prow, drive a 1"
-brad thru it near the prow, and one on each side of it 3/4" back. Bend
-these latter over the bowsprit before they are driven in their full
-length. An upward slant is given to the bowsprit by planing its larger
-end slanting to fit the deck.
-
-The rudder is hung on two staples made of pins. Two headless pins are
-driven into the rudder and bent down at right angles to slip into these
-staples. In order that the stem of the rudder may turn enough, the
-rudder must be hung close to the hull. Each "rope" of the rigging should
-have its own screw-eye (or staple) and cleat on the deck. The cleat (a
-device for fastening a "rope" in any position, by winding it back and
-forth) is simply two slender brads driven slanting.
-
-The mainsail should be 9" on the mast and 11" at its outer edge. It
-should be hemmed and properly fastened to the spars. On the mast, fine
-wire rings or loops of thread may be used. The jib should extend 9" up
-the stay (the "rope" from the end of the bowsprit to the top of the
-mast) and be either sewed to it or made to slide on it with small rings
-of wire.
-
-Ballast can be cut (with tin-shears or saw) from lead pipe and nailed to
-the keel. To drive brads thru lead, pinch them between the thumb and
-finger, and drive them gently.
-
-For convenience in holding the boat when it is out of the water, make a
-dry dock as shown in the drawing.
-
-[Illustration: BOAT
-
-PLATE 30]
-
-
-
-
-                         PILE-DRIVER--PLATE 31.
-
-
-In wet, soft soil, wherever any building operations are to be
-undertaken, long, straight logs called piles have first to be driven to
-support the foundation. In wet soil they never rot; those driven for the
-building of Venice centuries ago are still solid. If holes are bored in
-the weight of this toy pile-driver, it is made more effective.
-
-This is not a difficult model if each part is well made. It is
-important, however, to nail it in the following order: Runs to uprights,
-uprights to sides, sides to base, top to uprights, braces to uprights,
-then to base. The ends of the braces are mitered, that is, sawed, like
-the corner of a picture-frame, on the diagonal of a square. The axle of
-the little spool is made by two 1" brads, and it rests in notches as
-near the end of the top blocks as is convenient to file them. It is held
-in place by little brads, or pins crossed over it, or by a staple made
-of a pin. A crank for the big spool (called the drum) is made of a 3"
-piece of stiff wire. It should be flattened enough not to turn in the
-drum. Fasten the string to the drum thru a little hole drilled thru its
-rim. If the string comes off the upper spool, put a large screw-eye into
-the top piece and pass the string thru it.
-
-[Illustration: PILE DRIVER
-
-PLATE 31]
-
-
-
-
-                          WINDMILL--PLATE 32.
-
-
-On a hilltop, exposed to every wind that blows, one of these windmills
-made by a boy has been spinning around for four years. The windmill in
-this form serves also as a weathervane. Pine is the best wood for this
-model. To withstand the weather, the model should be painted.
-
-After planing the post to size, lay out the chamfers (see page 32) with
-a pencil on all four sides. The curve should be cut with a knife; the
-upper part may be planed if the square part is not squeezed in the vise.
-Plane the two pieces for the vanes as accurately as possible so as to be
-able to make a good joint. Lay out and cut this joint as directed on
-page 24. After it is well fitted, draw the curves where the edges are to
-be whittled away. There are sixteen of them. Open the compass 3/4" and
-place the needle point always on the _front right-hand_ edge as the
-wheel turns around. The curve begins 1/8" from the joint and ends 1/8"
-from the back edge (one also goes towards the lower edge). From this
-point draw a straight line to the end of the vane. Draw such lines as
-explained on page 32. Take the joint apart and whittle the edges away to
-these curves.
-
-On the beam, make chamfers 1-3/4" long. At the rear end, on the top and
-bottom, draw a center-line and two lines on each side of the center-line
-1/8" apart. Between the first two, nearest the center-line, make the
-V-shaped groove in which the rudder fits. The sides of the beam are to
-be pared away to the other two lines, leaving this end 1/2" wide.
-
-The curves at the rear end of the rudder can be sawed best with a scroll
-saw. Lacking that, proceed as follows: First, bore a 1/4" hole near the
-short straight line in the middle. Resting the rudder on a cutting
-board, pare to this line with a chisel. Next, saw straight from the end
-of the rudder to this straight line; then saw the corners, and pare to
-the curves. The width of the notch at the front end of the rudder is
-equal to the space left between the roots of the V-shaped notches in the
-beam. Measure this space, lay out the notch, saw, and chisel it; then
-pare the corners so as to fit the V-shaped notches in the beam. Beware
-of crowding the rudder, for it will split easily. When fitted, glue and
-nail it in place, slanting a 1" brad thru the curve into the beam.
-
-[Illustration: WINDMILL
-
-PLATE 32]
-
-Put the wheel on the beam with two washers and a large screw (2" No. 12
-round head is a good one). For this screw bore a 1/4" hole thru the
-center of the wheel, and a smaller hole in the beam. Now balance the
-windmill on the top of the post, and put the beam and post together with
-washers and screw in the same manner.
-
-
-
-
-                      KITE-STRING REEL--PLATE 33.
-
-
-A boy who flies kites will appreciate this reel for hauling in his kite
-quickly and keeping the string in order. The axle is made long for the
-purpose of putting on a brake when letting out a kite. The brake is
-simply a strong cord, fastened to a screw in the lower part of the
-further upright, (as viewed in Plate 33) wound several times around the
-axle, and the other end held in the hand. A 1" hole is bored in the base
-so that the reel can be anchored to the ground with a stake. With a loop
-of string fastened to the upright below the crank, the crank can be kept
-from turning, if one does not wish to let out all of the kite-string.
-
-Make the base first, then the uprights. In the uprights, it is more
-convenient to bore the 9/16" holes before the sides are planed slanting.
-After the wheel pieces are joined in the manner explained on page 24,
-lay out the slanting lines on each arm while the joint is still
-together; then take it apart and plane to the slanting lines. Hold each
-piece securely slantwise in the vise, because one pair especially is apt
-to split from the notch outward. When this planing is finished, glue the
-joint and bore a 1/2" hole straight thru the center. If convenient, make
-the cross pieces in one long piece, 20", planing off one corner flat
-(see sectional drawing, Plate 33) within 1/8" of the two adjacent
-corners. Being careful to drive no brad into the 1/2" hole, glue and
-nail these four cross pieces to one wheel. Then glue them to the other
-wheel and wind some string around tightly enough to hold this wheel
-while adjusting and nailing it. It will require care to get the cross
-pieces square with the first wheel, and the second wheel parallel with
-the first. After the string is wound around to hold the second wheel,
-measure the distance from wheel to wheel at the ends of all the arms.
-The nailing can be done while one arm of the wheels is held in the vise.
-The axle and handle should be glued and nailed to the crank. Now put the
-reel together, not forgetting the washers inside the uprights, and lock
-the wheels to the axle by drilling a hole for a 2" nail thru cross
-piece, wheel, and axle.
-
-[Illustration: KITE STRING REEL
-
-PLATE 33]
-
-[Illustration: STRING MACHINE
-
-PLATE 34]
-
-
-
-
-                       STRING MACHINE--PLATE 34.
-
-
-On a machine like this, one can twist bowstrings, topstrings,
-fish-lines, silk cord for fancy work, and any similar cord. Tho designed
-to be held on the floor or table with flat-irons, clamps, of course,
-will hold it better.
-
-Make the tail piece first. In the cross pieces of the tail piece are two
-screws 7/8" from the ends; be careful to bore the holes large enough so
-the screws will not split them. The edges of the lower cross piece must
-be sandpapered enough not to cut the elastic bands.
-
-In order that the belt shall run on the center of the wheels in the head
-piece, it is important to have the three axles parallel. To make them
-so, the two uprights must be clamped together while boring the 3/8"
-holes for the axles. Lest the spur of the bit split the uprights, drill
-small holes at each center first. Do not nail the longer upright to the
-base until the belt runs well in both directions. On a lathe, the wheels
-and axles could easily be made of one piece; lacking a lathe, a big
-spool or curtain pole must be used. Plug the hole of the spool with a
-dowel, then very accurately find its center and bore a 3/8" hole thru
-it. Saw it into three 5/8" pieces for the wheels. Glue these to the
-axles so that 1" extends thru the taller upright. A belt runs better on
-a wheel that is "crowned," that is, slightly larger in the middle; so
-the edges of these wheels must be pared 1/32", making a gentle curve.
-Put the washers each side of the wheels, then put the wheels in place in
-the taller upright, and nail this to the triangular block. Pull a 5/8"
-leather belt tightly around the three wheels and sew the ends so that
-they butt together. Clamp the shorter upright in position and turn the
-upper axle to see if the belt runs well in both directions. It will run
-true when all three axles are parallel, so keep knocking the shorter
-upright from side to side or up and down until the belt does run true;
-then bore holes for three screws to hold it to the triangular block.
-Make the crank and lock it to the upper axle with a 1/2" screw.
-
-To twist a string, set the two parts of the machine somewhat farther
-apart than the finished length desired, put on as many threads, from
-hooks on the tail piece to corresponding hooks on the head piece, as
-will make the finished string the desired size. Observe how these
-separate threads were twisted, and start the machine in the _opposite_
-way. Twist until the three strands kink readily when the head piece is
-brought nearer the tail piece. The tighter these are twisted, the harder
-the string will be. (Soap rubbed on the inside of the belt may make the
-belt carry more power). When these three strands are twisted enough,
-remove the two lower ones from their _hooks on the head piece_ to the
-upper hook. Twist in the _opposite_ direction until the string kinks
-again, and it is made. If the three strands are waxed, a stronger string
-will be made.
-
-
-
-
-                     WINDMILL FORCE-PUMP--PLATE 35.
-
-
-If this pump is properly connected with an air chamber, as explained
-later, it will send a small stream of water some ten feet. In a gale,
-the windmill is strong enough, in fact, to force the valves from the
-glass tubes. Like any model of considerable mechanism, this will require
-patience to get it in working order. The post is made short for
-stability. If it can be held in place firmly, a trestlework tower like a
-real windmill might be built of stock 1/2" × 1/2" for the corner posts
-and 1/2" × 1/8" for the braces.
-
-The post is slanting on two sides to fit the journals at the top. It is
-fastened to the base with two 2" screws. Make the wheel center 2-1/8"
-square, and thru its center bore a 1/4" hole. If it does not revolve
-true, make another block and try again. Make the block octagonal by
-cutting off each corner 5/8". On each of the eight faces saw notches
-1/8" wide and 5/16" deep into which the vanes will fit. (See page 64 on
-cutting notches.) Make and glue the vanes in place and lay the wheel
-flat to dry.
-
-Procure three pieces of water-gage glass 2" long, 7/16" to 1/2" inside
-diameter. Glass tubes can be broken apart by filing a slight notch,
-grasping the tube firmly each side of the notch, and pulling and bending
-the tube away from the notch. If the file starts a little break, this
-will be comparatively easy, if it does not, file some more. Into two
-tubes little valves must be cemented. These can be made of a firm piece
-of leather. Sole leather that is not too hard is best. With knife or
-chisel, pare two pieces on the cutting board to fit in the tubes. The
-cement will make them water tight later. Push the sharp point of a
-penknife into the smooth side of the leather disk and make a circular
-cut, as one would remove a speck from an apple, but do not cut the flap
-completely out, because it must be left hinged to the disk. Turn this
-flap up straight out of the way so as to be able to work a 1/4" hole
-thru the disk. This can be punched, drilled, or cut out with a 1/8"
-chisel, and finished with a penknife. Of course, the edges of the flap
-should cover this hole completely. The valve in the lowest tube should
-be cemented about 1/2" from the lower end with the flap up, that in the
-horizontal tube about 3/4" from the outer end with the flap out.
-
-[Illustration: WINDMILL FORCE-PUMP
-
-PLATE 35]
-
-To make sealing-wax sticky enough to cement these valves in the tubes,
-melt one teaspoon of wax with one-half teaspoon of turpentine in a large
-spoon, and allow it to cool. Break it in pieces small enough to go in
-the tubes. Put the valve in the tube a little to one side of its final
-position; put in some of the wax mixture; heat the tube in an alcohol
-flame, rolling the tube till the wax begins to melt; remove from the
-flame; and when the wax is all melted, push the valve to its final
-position with a pencil. While it is cooling, see that the wax does not
-flow into the valve. All three tubes must have a piece of rubber tubing
-on the outside to serve as packing in the wooden block. With an
-expansive bit, holes can be bored in the block so that the rubber tubing
-will fit tightly. Lacking that, bore a smaller hole and enlarge it with
-a round file. The center of the vertical hole is somewhat to the left
-(as viewed in Plate 35) of the center of the block to allow the
-horizontal tube more support. This will require the notch in the upright
-also to be to the left of the center. After the holes are bored, the
-pores of the wood must be filled with paraffin. In a little dish, melt
-some paraffin and put it into the holes with a rag tied to a stick. When
-the holes are well covered, drive the wax into the wood with an alcohol
-or candle flame held in the hole till the wood is fairly hot. The
-outside of the block might well be treated in like manner. It will be
-best to cement these tubes in their places. Melt a tablespoon of sealing
-wax with about as much turpentine. With this, not too hot, build up a
-good fillet over the rubber tubing 1/4", perhaps, on the glass tubes.
-
-Make a good fitting piston for the upper tube; it must not slide hard
-(oil it) and yet it must be air tight. To make the piston file two
-grooves 1/2" apart around and near the end of the piston rod. Wind a
-hummock of yarn between these grooves till it almost fills the tube,
-then wrap a piece of soft cloth (knitted underwear) smoothly over the
-hummock, tying it in each groove with thread.
-
-Lock the crank to the axle with a 1/2" screw. Adjust the axle and keep
-it in position with two leather washers locked to the axle just outside
-the journals. Clamp the block to the base, adjust it in line with the
-crank, and fasten it with two 1-1/2" screws up thru the base. The last
-connection to make is between the crank and connecting-rod. To make
-this, raise the piston to its highest position, and turn the crank to
-its lowest; choose what seems the best point for the screw, marking the
-point on crank and connecting-rod; now lower the piston and raise the
-crank; if the two points do not come together, the screw should be
-placed half way between them. This screw should be tight in the crank.
-The wheel can now be glued to the axle or locked with a brad slanting
-from the front of the wheel center.
-
-Before they will work, the valves must be made limber with water, and to
-start the pump, water may have to be put on each side of the valves.
-Water may be pumped to any height by fastening a pipe to the horizontal
-tube. To obtain a steady stream, like a fire-engine, connect the
-horizontal tube with an air-tight bottle. The pipe which goes into this
-bottle should reach just below the stopper. The outlet pipe should
-nearly reach the bottom of the bottle, and it should have a nozzle
-smaller than any other opening in the whole apparatus. The bottle should
-be partly full of water. Quarter-inch glass tubing can be melted and
-shaped in an alcohol flame, and, if some rubber tubing is used as a
-connection, the nozzle can be played anywhere.
-
-
-
-
-                            BOOKS _for_ BOYS
-
-
-    Especially Helpful for the Use of Boys in their Home Shops
-
-
-BEGINNING WOODWORK, At Home and in School.
-
-_By Clinton S. VanDeusen._
-
-A full and clear description in detail of the fundamental processes of
-elementary benchwork in wood. This description is given thru directions
-for making a few simple, useful articles, suitable either for school or
-home problems. The book contains more than one hundred original sketches
-and ten working drawings. Price, $1.00.
-
-
-MANUAL TRAINING TOYS, for the Boys' Workshop.
-
-_By Harris W. Moore._
-
-This book contains a collection of working drawings illustrating
-forty-two projects, overflowing with "boy" interest. It is a popular
-boys' book that is truly educational. The projects are all new in the
-manual training shop. The text gives instructions for making each
-project and treats of tools and tool processes. Price, $1.00.
-
-
-_The_ CONSTRUCTION _and_ FLYING _of_ KITES.
-
-_By Charles M. Miller._
-
-A book of unusual interest to the boy. It contains seven full-page
-plates of drawings of kites and fifteen figures--over forty kites shown.
-Details of construction are given and a kite tournament is described.
-Full of interesting suggestions. Price, 20 cents.
-
-
-ESSENTIALS _of_ WOODWORKING.
-
-_By Ira S. Griffith._
-
-A textbook written especially for the use of grammar and high school
-students. A clear and comprehensive treatment of woodworking tools,
-materials, and processes, to supplement, but not to take the place of
-the instruction given by the teacher. The book does not contain a course
-of models; it may be used with any course. It is illustrated with
-photographs and numerous pen drawings. Price, $1.00.
-
-
-                         THE MANUAL ARTS PRESS
-
-                            PEORIA, ILLINOIS
-
-
-
-
-                            BOOKS _for_ BOYS
-
-
-The "Problems Series" of Working Drawings, Good for Either Home or
-School Use
-
-
-PROJECTS _for_ BEGINNING WOODWORK _and_ MECHANICAL DRAWING.
-
-_By Ira S. Griffith._
-
-A work book for the use of students in grammar grade classes. It
-consists of working drawings and working directions. The projects are
-such as have proven of exceptional service where woodworking and
-mechanical drawing are taught in a thoro, systematic manner in the
-seventh and eighth grades. The aim has been to provide successful rather
-than unique problems. The fifty projects in the book have been selected
-and organized with the constant aim of securing the highest educational
-results. The book is especially suited for use in connection with
-"Essentials of Woodworking" by the same author. Price, 75 cents.
-
-
-PROBLEMS _in_ WOODWORKING.
-
-_By M. W. Murray._
-
-A convenient collection of good problems consisting of forty plates
-bound in heavy paper covers with brass fasteners. Each plate is a
-working drawing, or problem in benchwork that has been successfully
-worked out by boys in one of the grades from seven to nine inclusive.
-Price, 75 cents. Board covers, 95 cents.
-
-
-ADVANCED PROJECTS _in_ WOODWORK.
-
-_By Ira S. Griffith._
-
-This book is similar to "Projects for Beginning Woodwork and Mechanical
-Drawing," but is suited to high school needs. It consists of fifty
-plates of problems and accompanying notes. It is essentially a
-collection of problems in furniture making selected or designed with
-reference to school use. On the plate with each working drawing is a
-good perspective sketch of the completed object. In draftsmanship and
-refinement of design these problems are of superior quality. It is in
-every respect an excellent collection. Price, $1.00.
-
-                          THE MANUAL ARTS PRESS
-
-                            PEORIA, ILLINOIS
-
-
-
-
-                            BOOKS _for_ BOYS
-
-
-The "Problems Series" of Working Drawings Good for Either Home or School
-Use
-
-
-PROBLEMS _in_ FURNITURE MAKING.
-
-_By Fred D. Crawshaw._
-
-This book, revised and enlarged, consists of 43 full-page plates of
-working drawings suitable for use in grammar and high schools and 36
-pages of text, including chapters on design, construction and finishes,
-and notes on the problems. Each project is shown in its completed form
-by a perspective sketch. Loose leaf, bound in board covers with brass
-fasteners. Price, $1.00.
-
-
-PROBLEMS _in_ WOOD-TURNING.
-
-_By Fred D. Crawshaw._
-
-In the first place this is a book of problems--25 plates covering
-spindle, faceplate, and chuck turning. In the second place it is a
-textbook on the science and art of wood-turning illustrated by fifty pen
-sketches. It gives the mathematical basis for the cuts used in turning.
-In the third place it is a helpful discussion of the principles of
-design as applied to objects turned in wood. It is a clear, practical
-and suggestive book on wood-turning. Price, 80 cents. Board covers,
-$1.00.
-
-
-PROBLEMS _in_ MECHANICAL DRAWING.
-
-_By Charles A. Bennett._ With drawings made by Fred D. Crawshaw.
-
-This book consists of 80 plates and a few explanatory notes, and is
-bound in heavy paper covers with brass fasteners. Its purpose is to
-furnish teachers of classes beginning mechanical drawing with a large
-number of simple, practical problems. These have been selected with
-reference to the formation of good habits in technique, the interest of
-the pupils, and the subjects generally included in a grammar and
-first-year high school course. Each problem given is unsolved and
-therefore in proper form to hand to the pupil for solution. Price,
-$1.00. Board covers, $1.20.
-
-
-                         THE MANUAL ARTS PRESS
-
-                            PEORIA, ILLINOIS
-
-
-
-
-                            BOOKS _for_ BOYS
-
-
-Some Choice Books for Home or School Libraries
-
-
-HANDWORK _in_ WOOD.
-
-_By William Noyes._
-
-A handbook for teachers and a textbook for normal school and college
-students. A comprehensive and scholarly treatise, covering logging,
-sawmilling, seasoning and measuring, hand tools, wood fastenings,
-equipment and care of the shop, the common joints, types of wood
-structures, principles of joinery, and wood finishing. 304
-illustrations--excellent pen drawings and many photographs. Price,
-$2.00.
-
-
-WOOD _and_ FOREST.
-
-_By William Noyes._
-
-A companion volume to "Handwork in Wood," by the same author. Especially
-adapted as a reference book for teachers of woodworking. Not too
-difficult for use as a textbook for normal school and college students.
-Treats of wood, distribution of American forests, life of the forest,
-enemies of the forest, destruction, conservation and uses of the forest,
-with a key to the common woods by Filibert Roth. Describes 67 principal
-species of wood with maps of the habitat, leaf drawings, life size
-photographs and microphotographs of sections. Contains a general
-bibliography of books and articles on wood and forest. Profusely
-illustrated with photographs from the United States forest service and
-with pen and ink drawings by Anna Gausmann Noyes and photographs by the
-author. 309 pages. Price, $3.00.
-
-
-BOOKS _on the_ MANUAL ARTS.
-
-A catalog listing and describing 260 books on the manual arts, including
-all the standard and the best of the recent publications. It is an
-up-to-date bibliography and a valuable reference book for teachers,
-librarians and all interested in manual, industrial, and vocational
-education. Mailed free on request.
-
-
-                         THE MANUAL ARTS PRESS
-
-                            PEORIA, ILLINOIS
-
-
-
-
-
-End of the Project Gutenberg EBook of Manual Training Toys for the Boy's
-Workshop, by Harris W. Moore
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-<pre>
-
-The Project Gutenberg EBook of Manual Training Toys for the Boy's Workshop, by 
-Harris W. Moore
-
-This eBook is for the use of anyone anywhere at no cost and with
-almost no restrictions whatsoever.  You may copy it, give it away or
-re-use it under the terms of the Project Gutenberg License included
-with this eBook or online at www.gutenberg.org/license
-
-
-Title: Manual Training Toys for the Boy's Workshop
-
-Author: Harris W. Moore
-
-Release Date: November 2, 2012 [EBook #41268]
-
-Language: English
-
-Character set encoding: ISO-8859-1
-
-*** START OF THIS PROJECT GUTENBERG EBOOK MANUAL TRAINING TOYS ***
-
-
-
-
-Produced by Chris Curnow, Paul Mitchell and the Online
-Distributed Proofreading Team at http://www.pgdp.net (This
-file was produced from images generously made available
-by The Internet Archive)
-
-
-
-
-
-
-</pre>
-
-<div class = "transnote"><div class = "center">Transcriber's Note.</div>
-On page 70, the word "on" was added as the most likely word to correct a typographical omission and "drawn" changed to "draw".
-Otherwise only a very few minor typographical errors have been corrected.
-</div>
-
-<div class = "figcenter"><img id = "testing" src="images/i_002m.jpg" width="850" height = "614" alt ="Testing the Kit"/></div>
-<p style="text-align:center">TESTING THE KITE-STRING SAILBOAT</p>
-<p><span class="pagenum"><a name="Page_1" id="Page_1">[Pg 1]</a></span></p>
-
-<h1><span class="smcap">Manual Training Toys</span></h1>
-<h1><i>for</i></h1><h1>THE BOY'S WORKSHOP<br /></h1>
-<p><br /></p>
-<h2><i>By</i></h2><h2>HARRIS W. MOORE</h2>
-<h3>SUPERVISOR OF MANUAL TRAINING<br />
-WATERTOWN, MASSACHUSETTS<br /></h3>
-<p><br /></p>
-<div class = "figcenter"><img src="images/i_003m.png" width = "203" height = "207" alt = "Printer's Logo"/></div>
-
-<p><br /></p>
-<h3>THE MANUAL ARTS PRESS<br />
-PEORIA, ILLINOIS</h3>
-
-<p><span class="pagenum"><a name="Page_2" id="Page_2">[Pg 2]</a></span></p>
-<p>&nbsp;</p>
-<p><span class="pagenum"><a name="Page_3" id="Page_3">[Pg 3]</a></span></p>
-
-
-
-
-
-<h2>DEDICATED<br />
-TO THE BOY WHO LIKES<br />
-TO TINKER 'ROUND<br /><br /></h2>
-
-<p><span class="pagenum"><a name="Page_4" id="Page_4">[Pg 4]</a></span></p>
-
-
-
-
-
-<h4>Copyright, 1912</h4>
-<h3><span class="smcap">Harris W. Moore</span></h3>
-
-<hr class="chap" />
-
-<p><span class="pagenum"><a name="Page_5" id="Page_5">[Pg 5]</a></span></p>
-
-
-
-
-<h2><a name="CONTENTS" id="CONTENTS">CONTENTS.</a></h2>
-
-
-<table border = "0" width = "400">
-<tr><td>Frontispiece</td><td align = "right"><a href = "#testing">Testing the Kite-string Sailboat</a></td></tr>
-</table>
-<p><br /></p>
-<table width = "400">
-<tr><td><a href = "#INTRODUCTION">Introduction</a></td><td class = "tdr">PAGE.</td></tr>
-<tr><td><span style="margin-left: 2em;"><a href = "#bench">Bench</a>, <a href = "#mtools">Marking Tools</a></span></td> <td align = "right"><a href = "#Page_7">7</a></td></tr>
-<tr><td><span style="margin-left: 2em;"><a href = "#saws">Saws</a></span></td> <td align = "right"><a href = "#Page_8">8</a></td></tr>
-<tr><td><span style="margin-left: 2em;"><a href = "#planes">Planes</a>, <a href = "#bits">Bits</a>, <a href = "#nails">Nails</a></span></td><td align = "right"><a href = "#Page_9">9</a></td></tr>
-<tr><td><span style="margin-left: 2em;"><a href = "#screws">Screws</a>, <a href = "#glue">Glue</a></span></td><td align = "right"><a href = "#Page_10">10</a></td></tr>
-
-<tr><td><span style="margin-left: 2em;"><a href = "#sandpaper">Sandpaper</a>, <a href = "#dowels">Dowels</a>, <a href = "#drills">Drills</a>, <a href = "#sharp">Sharpening</a></span></td><td align = "right"><a href = "#Page_11">11</a></td></tr>
-
-<tr><td><span style="margin-left: 2em;"><a href = "#Holding">Holding Work</a></span></td><td align = "right"><a href = "#Page_12">12</a></td></tr>
-
-<tr><td><span style="margin-left: 2em;"><a href = "#Planing">Directions for Planing</a></span></td><td align = "right"><a href = "#Page_13">13</a></td></tr>
-
-<tr><td><a href = "#DART_Plate_1">Dart</a></td><td align = "right"><a href = "#Page_16">16</a></td></tr>
-
-<tr><td><a href = "#SPOOL_DART_Plate_1">Spool Dart</a></td><td align = "right"><a href = "#Page_18">18</a></td></tr>
-
-<tr><td><a href = "#DART_FOR_WHIP-BOW_Plate_1">Dart for Whip-Bow</a></td><td align = "right"><a href = "#Page_19">19</a></td></tr>
-
-<tr><td><a href = "#BUZZER_Plate_2">Buzzer</a></td><td align = "right"><a href = "#Page_20">20</a></td></tr>
-
-<tr><td><a href = "#FLYING_TOP_Plate_3">Flying Top (Plate 3)</a></td><td align = "right"><a href = "#Page_22">22</a></td></tr>
-
-<tr><td><a href = "#FLYING_TOP_Plate_4">Flying Top (Plate 4)</a></td><td align = "right"><a href = "#Page_24">24</a></td></tr>
-
-<tr><td><a href = "#TOP_Plate_5">Top</a></td><td align = "right"><a href = "#Page_26">26</a></td></tr>
-
-<tr><td><a href = "#TOM-TOM_DRUM_Plate_6">Tom-Tom Drum</a></td><td align = "right"><a href = "#Page_28">28</a></td></tr>
-
-<tr><td><a href = "#POP-GUN_Plate_7">Pop-gun</a></td><td align = "right"><a href = "#Page_30">30</a></td></tr>
-
-<tr><td><a href = "#WHISTLE_Plate_7">Whistle</a></td><td align = "right"><a href = "#Page_32">32</a></td></tr>
-
-<tr><td><a href = "#ARROW_Plate_8">Arrow</a></td><td align = "right"><a href = "#Page_33">33</a></td></tr>
-
-<tr><td><a href = "#BOW_Plate_8">Bow</a></td><td align = "right"><a href = "#Page_34">34</a></td></tr>
-
-<tr><td><a href = "#SWORD_Plate_9">Sword</a></td><td align = "right"><a href = "#Page_36">36</a></td></tr>
-
-<tr><td><a href = "#MAGIC_BOX_Plate_10">Magic Box</a></td><td align = "right"><a href = "#Page_38">38</a></td></tr>
-
-<tr><td><a href = "#PENCIL-BOX_Plate_10">Pencil-Box</a></td><td align = "right"><a href = "#Page_41">41</a></td></tr>
-
-<tr><td><a href = "#TELEPHONE_Plate_11">Telephone</a></td><td align = "right"><a href = "#Page_42">42</a></td></tr>
-
-<tr><td><a href = "#HAPPY_JACK_WINDMILL_Plate_12">Happy Jack Windmill</a></td><td align = "right"><a href = "#Page_44">44</a></td></tr>
-
-<tr><td><a href = "#GLOUCESTER_HAPPY_JACK_WINDMILL_Plate_13">Gloucester "Happy Jack" Windmill</a></td><td align = "right"><a href = "#Page_46">46</a></td></tr>
-
-<tr><td><a href = "#PADDLING_INDIAN_WINDMILL_Plate_14">Paddling Indian Windmill</a></td><td align = "right"><a href = "#Page_48">48</a></td></tr>
-
-<tr><td><a href = "#KITE_Plate_15">Kite</a></td><td align = "right"><a href = "#Page_50">50</a></td></tr>
-
-<tr><td><a href = "#TAILLESS_KITE_Plate_15">Tailless Kite</a></td><td align = "right"><a href = "#Page_53">53</a></td></tr>
-
-<tr><td><a href = "#BOX_KITE_Plate_15">Box Kite</a></td><td align = "right"><a href = "#Page_54">54</a></td></tr>
-</table>
-<p><span class="pagenum"><a name="Page_6" id="Page_6">[Pg 6]</a></span></p>
-<table width ="400">
-
-<tr><td><a href = "#KITE-STRING_SAILBOAT_Plate_16">Kite-String Sailboat</a></td><td align = "right"><a href = "#Page_56">56</a></td></tr>
-
-<tr><td><a href = "#THE_HYGROSCOPE_OR_WEATHER_COTTAGE_Plate_17">The Hygroscope or Weather Cottage</a></td><td align = "right"><a href = "#Page_59">59</a></td></tr>
-
-<tr><td><a href = "#ELECTROPHORUS_Plate_18">Electrophorus</a></td><td align = "right"><a href = "#Page_62">62</a></td></tr>
-
-<tr><td><a href = "#WATERWHEEL_Plate_19">Waterwheel</a></td><td align = "right"><a href = "#Page_64">64</a></td></tr>
-
-<tr><td><a href = "#WATER_MOTOR_Plate_20">Water Motor</a></td><td align = "right"><a href = "#Page_67">67</a></td></tr>
-
-<tr><td><a href = "#SAND_WHEEL_Plate_21">Sand Wheel</a></td><td align = "right"><a href = "#Page_70">70</a></td></tr>
-
-<tr><td><a href = "#RUNNING_WHEEL_Plate_22">Running Wheel</a></td><td align = "right"><a href = "#Page_73">73</a></td></tr>
-
-<tr><td><a href = "#RATTLE_Plate_23">Rattle</a></td><td align = "right"><a href = "#Page_76">76</a></td></tr>
-
-<tr><td><a href = "#CART_Plate_24">Cart</a></td><td align = "right"><a href = "#Page_78">78</a></td></tr>
-
-<tr><td><a href = "#CANNON_Plate_25">Cannon</a></td><td align = "right"><a href = "#Page_81">81</a></td></tr>
-
-<tr><td><a href = "#AUTOMOBILE_Plate_26">Automobile</a></td><td align = "right"><a href = "#Page_84">84</a></td></tr>
-
-<tr><td><a href = "#BOW_PISTOL_Plate_27">Bow Pistol</a></td><td align = "right"><a href = "#Page_86">86</a></td></tr>
-
-<tr><td><a href = "#ELASTIC_GUN_Plate_28">Elastic Gun</a></td><td align = "right"><a href = "#Page_88">88</a></td></tr>
-
-<tr><td><a href = "#RATTLE-BANG_GUN_Plate_29">Rattle-Bang Gun</a></td><td align = "right"><a href = "#Page_92">92</a></td></tr>
-
-<tr><td><a href = "#BOAT_Plate_30">Boat</a></td><td align = "right"><a href = "#Page_95">95</a></td></tr>
-
-<tr><td><a href = "#PILE-DRIVER_Plate_31">Pile-Driver</a></td><td align = "right"><a href = "#Page_98">98</a></td></tr>
-
-<tr><td><a href = "#WINDMILL_Plate_32">Windmill</a></td><td align = "right"><a href = "#Page_100">100</a></td></tr>
-
-<tr><td><a href = "#KITE-STRING_REEL_Plate_33">Kite-String Reel</a></td><td align = "right"><a href = "#Page_103">103</a></td></tr>
-
-<tr><td><a href = "#STRING_MACHINE_Plate_34">String Machine</a></td><td align = "right"><a href = "#Page_106">106</a></td></tr>
-
-<tr><td><a href = "#WINDMILL_FORCE-PUMP_Plate_35">Windmill Force-Pump</a></td><td align = "right"><a href = "#Page_108">108</a></td></tr>
-</table>
-<hr class="chap" />
-
-<p><span class="pagenum"><a name="Page_7" id="Page_7">[Pg 7]</a></span></p>
-
-
-
-
-<h2><a name="INTRODUCTION" id="INTRODUCTION">INTRODUCTION.</a></h2>
-
-
-<p>The wise man learns from the experience of others. That is the reason
-for this introduction&mdash;to tell the boy who wants to make the toys
-described in this book some of the "tricks of the trade." It is
-supposed, however, that he has had some instruction in the use of tools.</p>
-
-<p>This book is written after long experience in teaching boys, and because
-of that experience, the author desires to urge upon his younger readers
-two bits of advice: First, study the drawing carefully,&mdash;every line has
-a meaning; second, printed directions become clearer by actually taking
-the tool in hand and beginning to do the work described.</p>
-
-<div class = "asdr"><a name = "bench"><span class="smcap">Bench.</span></a></div>
-
-<p>If he buys the vise-screw, an ambitious boy can make a bench that will
-answer his needs, provided, also, that he can fasten it to floor or
-wall. It should be rigid. A beginner will find a hard wood board,
-10"×2"×1/4", fastened to the forward end of the bench, a more convenient
-stop than the ordinary bench-dog. If he has a nicely finished bench, he
-should learn to work without injuring the bench. A <i>cutting board</i>
-should always be at hand to chisel and pound upon and to save the
-bench-top from all ill use. The <i>bench-hook</i> should have one side for
-sawing and one for planing, the former having a block shorter than the
-width of the board so that the teeth of the saw, when they come thru the
-work, will strike the bench-hook rather than the bench-top.</p>
-
-
-<div class = "asdr"><a name = "mtools"><span class="smcap">Marking Tools.</span></a></div>
-
-<p>To measure accurately, hold the <i>ruler</i> on its edge so that the
-divisions on the scale come close to the thing measured. Let the pencil
-or knife point make a dash on the thing measured which would exactly
-continue the division line on the ruler. If it can be avoided, never use
-the end of the ruler; learn to measure from some figure on the ruler.</p>
-
-<p><span class="pagenum"><a name="Page_8" id="Page_8">[Pg 8]</a></span></p>
-
-<p>The spur of the <i>gage</i> should be filed like a knife point. It seldom
-stands at zero of the scale, hence, when setting the gage for accurate
-work, measure from the block to the spur with a ruler. The gage is a
-rather difficult tool for a boy to use but it will pay to master it. It
-may be used wherever square edges are to be made, but chamfers and
-bevels should be marked with a pencil.</p>
-
-<p>In laying out work, the beam (the thick part) of the <i>trysquare</i> should
-always be kept on either the working-face or the working-edge. (See <a href = "#Page_13">page
-13</a>, <a href="#Planing">Directions for Planing.</a>) Let the blade rest flat on any surface.
-Hold the trysquare snugly to the work with the fingers and thumb acting
-much like a bird's claw.</p>
-
-<p>For accurate work (e. g. joints), lines should be drawn (scored) with
-the sharp point of a small <i>knife</i> blade, held nearly straight up from
-the edge of the trysquare blade.</p>
-
-<p>Circles are located by two lines crossing at the center.</p>
-
-
-<div class = "asdr"><a name = "saws"><span class="smcap">Saws.</span></a></div>
-
-<p>The teeth of a <i>rip-saw</i> are like so many little chisels set in a row;
-they pare the wood away. The teeth of a <i>crosscut-saw</i> are like knife
-points, they score two lines, and the wood breaks off between them.
-Large sawing should be done on a saw-horse so that the worker is over
-his work. If it is necessary to hold work in the vise to rip it, hold it
-slanting, so that the handle of the saw leads the line, as it naturally
-does when the work is on a saw-horse.</p>
-
-<p>The <i>back-saw</i>, tho a crosscut-saw, may be used in any direction of the
-grain.</p>
-
-<p>Any saw should be in motion when it touches the wood it is to cut. To
-guide it to the right place, a workman lets his thumb touch the saw just
-above the teeth, the hand resting firmly on the wood. A little notch,
-cut in the edge right to the line where the saw is to cut, will help a
-beginner to start accurately. Saws are rapid tools, and it pays to go
-slowly enough with them to do accurate work. Plan the work so as to make
-as few cuts as possible.</p>
-
-<p><i>Turning-saws</i> are best used so that the cutting is done on the pull
-stroke, keeping the two hands near together. When one handle is turned,
-the other must be turned equally.</p>
-<p><span class="pagenum"><a name="Page_9" id="Page_9">[Pg 9]</a></span></p>
-
-
-<div class = "asdr"><a name = "planes"><span class="smcap">Planes.</span></a></div>
-
-<p>Generally being in a hurry to get work done, boys are apt to take big
-shavings with a plane. This results in rough work. Fine shavings are
-better. If the plane is allowed to rest level on the work, it will find
-the high places without continual adjusting. The first two inches of a
-stroke are the hardest to plane; to plane these, press harder on the
-forward end of the plane. Start the plane level. Usually it is best to
-keep the plane straight, or nearly so, in the direction of the push.</p>
-
-<p>The <i>block-plane</i> is properly used to plane the end of wood. (See <a href = "#Page_12">page
-12</a> on <a href = "#Holding">Holding Work.</a>) On other small surfaces, however, it is often more
-convenient than a large plane.</p>
-
-
-<div class = "asdr"><a name = "bits"><span class="smcap">Bits.</span></a></div>
-
-<p><i>Auger-bits</i> are numbered by the number of sixteenths in the diameter of
-the hole they bore, e. g. No. 4 bores a 4/16" hole. <i>Gimlet-bits</i> are
-numbered by thirty-seconds.</p>
-
-<p>Whenever boring with an auger-bit, stop as soon as the spur pricks thru
-the other side, turn the work over, start the spur in the little hole it
-made, and finish boring. It will always split the wood, if the bit is
-allowed to go way thru. It is difficult to bore a hole straight thru a
-piece of wood, because to tell whether the bit is held straight when
-starting the hole, one must look at it from two directions. If someone
-else can stand a quarter circle away from the worker and watch the bit,
-that is the best help; otherwise, the worker himself must hold the brace
-steady while he walks around a quarter circle and judges whether the bit
-is straight. Care should be taken to hold the work level in the vise.</p>
-
-
-<div class = "asdr"><a name = "nails"><span class="smcap">Nails.</span></a></div>
-
-<p>The words, "nail," "brad," and "nailing" are used somewhat
-interchangeably in this book; "nailing" may mean driving a brad. Brads
-have smaller, thicker heads, nails have larger, flat heads.</p>
-
-<p>To drive a nail straight, start it straight. The hole cannot be
-<span class="pagenum"><a name="Page_10" id="Page_10">[Pg 10]</a></span>
-straightened by bending the nail so that it looks straight after it is
-partly driven. Many gentle blows with the <i>hammer</i> will often drive a
-nail where heavy blows would fail. The fingers pinching the nail often
-prevent its bending. If possible, keep nails away from the corners of
-boards. Several nails joining two boards hold them stronger if the nails
-are driven at different angles. Nails are usually "set," that is, the
-heads are driven with a <i>nail-set</i> below the surface. They must always
-be set below surfaces which are to be planed. It is often wise not to
-drive the first nail or two way in until the work is examined. In
-withdrawing nails, a block under the hammer will often aid greatly, and
-also protect the surface of the work.</p>
-
-
-<div class = "asdr"><a name = "screws"><span class="smcap">Screws.</span></a></div>
-
-<p>Screws usually need holes properly bored to receive them; a large hole
-first, the size of the screw above the threads, a small hole next, the
-size at the roots of the threads (in hard wood somewhat larger), and a
-place for the head made with a <i>countersink</i>. Usually the screw should
-slip easily thru the first piece of wood and be tight in the second. The
-<i>screwdriver</i> should always be held in the line that the screw is going,
-and it ought fairly to fit the slot in the head. In hard wood, one must
-be careful not to twist screws off, especially brass screws, which are
-easily broken.</p>
-
-
-<div class = "asdr"><a name = "glue"><span class="smcap">Glue.</span></a></div>
-
-<p>A beginner often wonders why things stick to his fingers instead of to
-their proper places; it is because he has a little glue on his fingers
-and usually a lot on the article; therefore, don't use too much glue. It
-is best, especially in holes and their pegs, to put glue on both
-surfaces of contact. Good glue will hold two surfaces, making good
-contact, stronger than the wood. Wipe off excess glue as soon as
-possible, using hot water for hot glue. Much labor is thus saved. Allow
-glue plenty of time to become dry. The moisture has to work its way thru
-the wood itself, and this takes hours; six to ten hours is not too long.</p>
-<p><span class="pagenum"><a name="Page_11" id="Page_11">[Pg 11]</a></span></p>
-
-
-<div class = "asdr"><a name = "sandpaper"><span class="smcap">Sandpaper.</span></a></div>
-
-<p>Sandpaper varies in coarseness from No. 00 to No. 3, every sheet being
-stamped. It should not be used on a given piece until all work with edge
-tools is finished. The particles of sand left in the surface would
-quickly dull an edge tool. When using sandpaper on flat surfaces, wrap
-it closely about a rectangular block of wood. Try to keep all corners as
-sharp as they are left by the edge tools so that there will be a
-crispness of appearance which always marks good workmanship. Often the
-same care in holding work while sandpapering it must be taken as was
-taken when shaping it. Always sandpaper with, or lengthwise the grain.</p>
-
-
-<div class = "asdr"><a name = "dowels"><span class="smcap">Dowels.</span></a></div>
-
-<p>Sticks that are planed nearly to size can be made round and smooth by
-driving them thru a hole in a block of hard wood or iron; such sticks
-are called dowels. Two holes may be used if the second is only a little
-smaller than the first. Drive gently with a <i>mallet</i> rather than with a
-hammer. In many of the models in this book such dowels are used. Dowels
-(made by a different process, however,) can often be bought at hardware
-stores.</p>
-
-
-<div class = "asdr"><a name = "drills"><span class="smcap">Drills.</span></a></div>
-
-<p>For ease in making small holes, a <i>hand-drill</i> is essential. For some
-holes a headless nail will answer. To make better drills, break a
-needle, a knitting-needle, umbrella rib, or other piece of hard wire to
-suitable length; on a grindstone, flatten it near the point on two
-sides; then, putting it in the chuck of the hand-drill, try to hold it
-on the grindstone at the proper angle to form the two cutting edges; or
-it may be held against the edge of the bench and sharpened with an
-oilstone resting on top of the bench. Very convenient long drills can be
-thus made of knitting-needles.</p>
-
-
-<div class = "asdr"><a name = "sharp"><span class="smcap">Sharpening.</span></a></div>
-
-<p>To work with dull tools is altogether unsatisfactory. A boy should learn
-to sharpen his own edge tools. To grind a good bevel on a tool
-<span class="pagenum"><a name="Page_12" id="Page_12">[Pg 12]</a></span>
-like a chisel, it must rest upon something steady. The reflection of
-light on the newly ground surface will indicate whether the surface is
-flat or not. This process of grinding makes what is called a
-featheredge, or wire-edge, and the tool must be whetted on an oilstone
-to remove this wire-edge. The flat side <i>must be kept flat</i> on the
-stone; the bevel may be lifted just a trifle. When whetting the bevel,
-try to avoid a rocking motion, for this would round the edge. After the
-wire-edge is completely removed, a still keener edge can be obtained by
-stropping the tool on a piece of leather, much as a razor is stropped. A
-piece of leather glued to a wooden mount and sprinkled occasionally with
-the finest emery powder will help much in keeping the edge tools keen.</p>
-
-
-<div class = "asdr"><a name = "Holding"><span class="smcap">Holding Work.</span></a></div>
-
-<p>The way work is held in the vise often makes the difference between
-success and failure. Small surfaces are easily planed true if held
-almost flush with the jaws of the vise so that the top of the bench
-serves to guide the plane; for example, the <a href = "#Page_20">wheel-center</a>, <a href = "#Page_20">page 20</a>, or
-the <a href = "#plate33">crank, Plate 33</a>, are easily planed in this manner. Sometimes
-articles, like spools, can be held endwise with safety when they might
-be crushed if squeezed sidewise.</p>
-
-<p>A good way to hold the paddles of the sand wheel, <a href = "#plate21">Plate 21</a>, <a href = "#fig4">Fig. 4</a>, to
-saw the lines A B is to put the paddles about half-way down the end of
-the vise so that the back-saw can be held near the end of the vise jaws.</p>
-
-<p>The <i>bench-hook</i> is the best device for holding a great deal of small
-work for sawing and for planing sides, corners, and ends. When planing
-ends, to avoid splitting the far corner, another piece of equal
-thickness may be put behind the first. The better way, however, is never
-to plane over the far corner, but turn the work and plane always towards
-the center; in other words, plane half way from each edge. Where a
-corner can be whittled off to form a buttress, there is practically no
-danger of splitting that corner. For <a href = "#Footnote_1_1">planing thin boards</a>, see <a href = "#Page_19">page 19</a>.</p>
-<p><span class="pagenum"><a name="Page_13" id="Page_13">[Pg 13]</a></span></p>
-
-
-<div class = "asdr"><a name = "Planing"><span class="smcap">Directions for Planing.</span></a></div>
-
-<p>1. Plane one broad surface. Test it <i>crosswise</i>, <i>lengthwise</i>, and
-<i>cornerwise</i>. This surface is called the <i>working-face</i>, and should be
-marked with a pencil line near the edge to be planed next. On a short
-board the cornerwise test can be made with a straight-edge; on a long
-board winding-sticks are needed. These are straight sticks with parallel
-edges. Near the ends of the board, stand them on edge across the board.
-With the eye some distance away, sight from one stick to the other, if
-one end of the farther stick seems elevated, that corner of the board
-must be planed more.</p>
-
-<p>2. Plane one edge. Test it <i>crosswise</i> with the trysquare on the
-working-face, and <i>lengthwise</i> with a straight-edge. This is called the
-<i>working-edge</i>. Mark it with two pencil lines, drawn near the line on
-the working-face.</p>
-
-<p>These two surfaces are of great importance. From them all measurements
-are made and all tests applied. The trysquare and the gage should always
-be kept on one of these two surfaces.</p>
-
-<p>3. Square the ends. With the trysquare, test them from both the
-working-face and the working-edge.</p>
-
-<p>4. Gage the width from the working-edge. Plane to the line. With the
-trysquare on the working-face, test this edge.</p>
-
-<p>5. Gage the thickness from the working-face. Plane to the line.</p>
-
-<p>Sometimes, of course, the above order needs to be changed. It is well to
-think out the best order of work.</p>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_14" id="Page_14">[Pg 14]</a></span></p>
-<p>&nbsp;<br /></p>
-
-
-
-
-<p><span class="pagenum"><a name="Page_15" id="Page_15">[Pg 15]</a></span></p>
-<h2><a name="PROBLEMS" id="PROBLEMS">PROBLEMS</a></h2>
-
-<h2>PLATES AND WORKING DIRECTIONS</h2>
-<p><span class="pagenum"><a name="Page_16" id="Page_16">[Pg 16]</a></span></p>
-
-
-
-
-<h2><a name="DART_Plate_1" id="DART_Plate_1">DART&mdash;</a><a href = "#plate1"><span class="smcap">Plate 1</span></a>.</h2>
-
-
-<p>A dart like the first one shown on <a href = "#plate1">Plate 1</a> will stick into a soft wooden
-target. Two or more boys, each with three darts, might have a contest in
-making the highest score. Number three rings of a target 5, 10, and 15,
-and the bull's eye 25.</p>
-
-<p>The dart consists of two parts, a round stick and a paper rudder. To
-make the round stick, 7" long 1/4" diameter, it will be well to start
-with a stick about 9" long so as to be able to hold it easily while
-planing it round. First plane the stick <i>square</i>, 1/4", and straight. To
-plane such a small stick straight, it should be laid on the top of the
-bench. While planing it, test it frequently by looking at it endwise.
-When it is the right size, grasp one end with the left hand, lay it on
-the bench with the forefinger touching the bench, and, with a small
-plane, plane away the corners so as to make a true octagonal (eight
-sided) stick. Next make it sixteen sided, taking very fine shavings,
-then sandpaper it well. Saw off the extra length, leaving the best part
-of the stick 7" long.</p>
-
-<p>Bind one end with fine (screen) wire. To bind it well, make a square
-corner 1" from one end of the wire and lay this 1" lengthwise the stick.
-Hold it firmly with the left thumb while winding the long part of the
-wire smoothly around the stick and wire. Twist the two ends together,
-and cut off what is not needed. Gently pound down smooth the end of the
-wire that is left.</p>
-
-<p>In this end of the stick, drill a hole for a 1" brad. File the head
-entirely off, and drive the brad in backwards, leaving 3/16" out; then
-file the point real sharp. Carefully split the other end of the stick
-1". To do this, stand it upright in the vise, place a knife on the end,
-and tap the knife with a hammer. Into this split, insert the paper
-rudder bent as shown in <a href = "#plate1">Plate 1</a>. The rudder should be cut the shape and
-size shown in the working drawing and then bent into shape.</p>
-<p><span class="pagenum"><a name="Page_17" id="Page_17">[Pg 17]</a></span><br /></p>
-
-
-<div class = "figcenter"><img id ="plate1" src="images/i_019m.png" width="850" height = "535" alt = "Plate 1"/></div>
-<p style="text-align:center">DART, SPOOL DART AND DART FOR WHIP-BOW&nbsp;&mdash;&nbsp;<span class="smcap">Plate 1</span><br/></p>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_18" id="Page_18">[Pg 18]</a></span></p>
-
-
-
-
-<h2><a name="SPOOL_DART_Plate_1" id="SPOOL_DART_Plate_1">SPOOL DART&mdash;</a><a href = "#plate1"><span class="smcap">Plate 1</span></a>.</h2>
-
-
-<p>An easier dart to throw can be made of a spool as shown on <a href = "#plate1">Plate 1</a>.
-Three feathers which curve the same way will give the dart a whirling
-motion when it is thrown.</p>
-
-<p>Make a stick about 7" long to fit tightly into the hole of a spool about
-1" in diameter at its end. (See <a href ="#dowels">Dowels</a>, <a href = "#Page_11">page 11</a>, also <a href = "#glue">Glue</a>, <a href = "#Page_10">page 10</a>.) A
-stick like this can be forced into a hole quite far by screwing it
-around, but if it is driven much with a hammer the spool will split
-easily. After the stick is glued into the spool, hold the spool upright
-on the jaws of the vise, and squeeze the stick extending below; then
-with the back-saw make four slanting cuts to sharpen the spool. File a
-2-1/4" nail square off, 1" long; drive it backwards into a suitable hole
-drilled for it in the center of the spool; and sharpen it well with a
-file. One-half inch from the other end of the spool saw the stick off,
-and drill three holes in the spool end, into which glue three feathers
-about 4" long.</p>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_19" id="Page_19">[Pg 19]</a></span></p>
-
-
-
-
-<h2><a name="DART_FOR_WHIP-BOW_Plate_1" id="DART_FOR_WHIP-BOW_Plate_1">DART FOR WHIP-BOW&mdash;</a><a href = "#plate1"><span class="smcap">Plate 1</span></a>.</h2>
-
-
-<p>This dart is best made of a shingle. Lacking that, plane a 1/2" board
-thin<a name="FNanchor_1_1" id="FNanchor_1_1"></a><a href="#Footnote_1_1" class="fnanchor">[1]</a> at one end to 1/8". Draw the center line lengthwise and lay out
-the shape of the dart with the broad part at the thin end. Saw crosswise
-from each edge of the shingle to the place where the curve begins, then
-lengthwise to that point. Holding the thin end in the vise, pare the
-curves with a knife, spokeshave, or draw-knife. Make the point at each
-end with a plane. To plane to slanting lines such as these, it is very
-important to place the work in the vise at such a slant that the line is
-parallel with the top of the bench and quite close to the jaws of the
-vise. Find the point where the dart balances by testing it on the
-finger, and make the little notch for the string, using a back-saw
-first, then a knife.</p>
-
-<p>A whip-bow consists of a string 20" long tied to the end of a stick 20"
-long. A knot is tied at the free end of the string. To throw the dart,
-catch the string in the notch, hold the wide end of the dart in the left
-hand and the stick in the right, throw the right hand forward, and let
-the dart fly from the string.</p>
-
-<div class="footnote">
-
-<p><a name="Footnote_1_1" id="Footnote_1_1"></a><a href="#FNanchor_1_1"><span class="label">[1]</span></a> To hold a board while planing it very thin, fasten it to
-another flat board with four wooden pegs.
-</p>
-<p>
-For several of the models in this book, a flat board about 9" × 4" ×
-7/8" with a cleat nailed to one end and extending 1/8" above its upper
-surface will be found most convenient for holding thin boards while
-planing. If the cleat is a little wider than the height of the block on
-the bench-hook, the bench-hook serves well to hold it.</p></div>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-
-<p><span class="pagenum"><a name="Page_20" id="Page_20">[Pg 20]</a></span></p>
-
-
-
-
-<h2><a name="BUZZER_Plate_2" id="BUZZER_Plate_2">BUZZER&mdash;</a><a href = "#plate2"><span class="smcap">Plate 2</span></a>.</h2>
-
-
-<p>The buzzer consists of a wheel and two handles, connected with string.
-To make the wheel draw a 3" circle on a piece of wood 3/16" thick. Draw
-a line thru the center the way the grain goes and another at right
-angles to it, thus dividing the circle into quarters, <a href = "#fig1">Fig. 1</a>. Notice,
-now, that to avoid splitting the circle, the four quarters must each be
-cut in a different direction. Lay the model flat on the bench-hook and
-saw off the corners of the square. Now, holding it in the vise with one
-quarter up, with the spokeshave, pare the corners in the direction of
-the arrow in this quarter until the circle is reached. Be careful not to
-pare away any part of the line. It will be observed that paring can be
-done safely on the end grain beyond the arrow-head in this quarter, but
-this is not at all possible on the side grain where the arrow begins.
-The spokeshave should be held rather lightly so as to allow it to follow
-the curve. Observing carefully the direction of the arrows, proceed with
-the other quarters in this same manner. The last few chips should be
-very fine ones. Drill two small holes for the string 1/4" each side of
-the center. Sandpaper the model nicely. (See <a href = "#sandpaper">Sandpaper</a>, <a href = "#Page_11">page 11</a>.)</p>
-<div class = "figcenter"><img id = "fig1" src="images/i_022m.png" width ="205" height = "191" alt = "Figure 1"/></div>
-<p style="text-align:center">Fig. 1</p>
-<p>The two handles can be planed best if held in the bench-hook and the
-plane turned with its side on the top of the bench. After the corners
-are planed in this way, the ends can be planed without danger of
-splitting. Drill the holes for the string. The edges and ends of the
-handles will look better not sandpapered.</p>
-
-<p>String the model by passing one end of a 3 ft. string thru a hole in one
-handle, then in the wheel, then in the other handle, then back thru the
-other holes, tying it to the other end of the string. To make it go,
-take one handle in each hand, swing the wheel over and over, and gently
-pull the handles apart for an instant. A little practice may be
-necessary to make it go well. To make it buzz louder, bore two 5/16"
-holes on opposite parts of the wheel 1/2" from the rim. (See <a href = "#bits">Bits</a>, <a href = "#Page_9">page
-9</a>.) To avoid splitting, bore <i>backwards</i> till the bit marks a deep
-circle in the wood.</p>
-<p><span class="pagenum"><a name="Page_21" id="Page_21">[Pg 21]</a></span><br /></p>
-
-<div class = "figcenter"><img id = "plate2" src="images/i_023m.png" width ="532" height = "850" alt = "Plate 2"/></div>
-<p style = "text-align:center">BUZZER&nbsp;&mdash;&nbsp;<span class="smcap">Plate 2</span><br /></p>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_22" id="Page_22">[Pg 22]</a></span></p>
-<!--File: 024.png&mdash;-\ezsha\Gahyadahi\windymilla\jaysmc\charliehoward\&mdash;&mdash;-->
-
-
-
-
-<h2><a name="FLYING_TOP_Plate_3" id="FLYING_TOP_Plate_3">FLYING TOP&mdash;</a><a href = "#plate3"><span class="smcap">Plate 3</span></a>.</h2>
-
-
-<p>Like anything that flies, this top should be made as light as possible.
-Bass, cotton-wood, or soft pine are good woods to use. After the wood
-for the top is planed to size, a 3/16" hole should be bored straight
-thru the center. (See <a href = "#bits">Bits</a>, <a href = "#Page_9">page 9</a>.) Make the drawing on the top and
-whittle to line. Considerable care must be taken in whittling not to
-whittle away the two corners which should be saved; this is especially
-true if the grain is not straight. See page 16 for suggestions about
-making the handle. Glue the handle in the top. To make it fly, hold it
-between the two hands, and push the right one quickly. (See <a href = "#plate3">Plate 3</a>.)
-<span class="pagenum"><a name="Page_23" id="Page_23">[Pg 23]</a></span></p>
-<!--File: 025.png&mdash;-\ezsha\Gahyadahi\windymilla\de Brito\charliehoward\&mdash;-->
-<div class = "figcenter"><img id = "plate3" src="images/i_025m.png" width ="850" height = "550" alt = "Plate 3"/></div>
-<p style = "text-align:center">FLYING TOP&nbsp;&mdash;&nbsp;<span class="smcap">Plate 3</span><br /></p>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_24" id="Page_24">[Pg 24]</a></span></p>
-<!--File: 026.png&mdash;-\ezsha\Gahyadahi\windymilla\de Brito\charliehoward\&mdash;-->
-
-
-
-
-<h2><a name="FLYING_TOP_Plate_4" id="FLYING_TOP_Plate_4">FLYING TOP&mdash;</a><a href = "#plate4"><span class="smcap">Plate 4</span></a>.</h2>
-
-
-<p>This form of flying top requires accurate work to make a good joint.
-(See <a href = "#Planing">Directions for Planing</a>, <a href = "#Page_13">page 13</a>.) After planing the two vanes to
-size, the joint must be laid out with knife and gage lines and cut out
-with back-saw and chisel. Two important facts should be learned: The
-<i>length</i> of one notch equals the <i>width</i> of the other piece; the lines
-marking the depth of the notches must be gaged from the working-face of
-each piece. After the joint is laid out, hold the work in the bench-hook
-while sawing the depth of the notch, and be sure to saw <i>in the notch</i>,
-not outside the line. With a chisel held flat side down, pare between
-the saw cuts from each side of the wood towards the middle. When the
-joint is fitted, lay out the curves on each arm of the wheel,
-remembering that it is always the front corner of the right-hand arm, as
-the wheel turns around, that is to be whittled away. When all these
-curves are drawn, take the joint apart, and whittle to the lines. Glue
-the joint next, and bore a 3/16" hole straight thru its center. Make the
-axle of hard wood. (See <a href = "#Page_16">page 16</a> and <a href = "#dowels">Dowels</a>, <a href = "#Page_11">page 11</a>.) Perhaps a skewer
-can be used.</p>
-
-<p>After the handle is planed to size, draw pencil lines 1/4" from each
-edge for the chamfers. The curve of the chamfer may be drawn freehand.
-It should end 1-1/16" from one end of the handle. A good chamfer is flat
-crosswise. If the grain of the wood is straight, the chamfers can be
-whittled easily; if it is crooked watch that it does not split over the
-line. After the chamfers are made, pare another one 1/8" wide around the
-end of the handle. After the two blocks are planed, bore a 1/4" hole
-3/8" from one end. Glue and nail them 1" on the handle.</p>
-<p><span class="pagenum"><a name="Page_25" id="Page_25">[Pg 25]</a></span><br /></p>
-<!--File: 027.png&mdash;-\ezsha\Gahyadahi\windymilla\zoeannl\charliehoward\&mdash;&mdash;-->
-<div class = "figcenter"><img id = "plate4" src="images/i_027m.png" width ="850" height = "533" alt = "Plate 4"/></div>
-
-
-<p style = "text-align:center">FLYING TOP&nbsp;&mdash;&nbsp;<span class="smcap">Plate 4</span><br /></p>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_26" id="Page_26">[Pg 26]</a></span></p>
-<!--File: 028.png&mdash;-\ezsha\Gahyadahi\windymilla\zoeannl\charliehoward\&mdash;&mdash;-->
-
-
-
-
-<h2><a name="TOP_Plate_5" id="TOP_Plate_5">TOP&mdash;</a><a href = "#plate5"><span class="smcap">Plate 5</span></a>.</h2>
-
-
-<p>A variety of sizes, shapes and colors of tops, spinning on a plate, is a
-lively sight. The one suggested is perhaps as large as it should be made
-for such sport. Smaller ones are easily made of spools without making a
-disk, or wheel, for them. The more slender the spindle is, the faster
-one can spin the top. First make a stick about 6" long to fit the hole
-in the spool. Plane 1" of it tapering as small as 1/8", then glue the
-spool on 1-1/4" below this small end. Now hold the spool in the vise
-endwise, and make, with the back-saw, a saw cut half thru the spool on
-the same slant as the slanting part of the spool; then saw straight down
-to the end of this slanting cut. Turn the spool nearly over and repeat
-this operation; then saw it completely off, and whittle the spool to a
-good point.</p>
-
-<p>Draw a 2" circle on a piece of wood 1/4" thick. Draw other circles just
-as desired for coloring. Observe the directions on <a href = "#Page_20">page 20</a> for making a
-wheel. When the wheel is round, bore a 5/16" hole in its center,
-sandpaper it, and glue it in place on the spool and spindle. It can be
-colored with crayons or water colors.</p>
-<p><span class="pagenum"><a name="Page_27" id="Page_27">[Pg 27]</a></span><br /></p>
-<!--File: 029.png&mdash;-\ezsha\Gahyadahi\windymilla\zoeannl\charliehoward\&mdash;&mdash;-->
-<div class = "figcenter"><img id ="plate5" src="images/i_029m.png" width ="535" height = "850" alt = "Plate 5"/></div>
-<p style = "text-align:center">TOP&nbsp;&mdash;&nbsp;<span class="smcap">Plate 5</span><br /></p>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_28" id="Page_28">[Pg 28]</a></span></p>
-<!--File: 030.png&mdash;-\ezsha\Gahyadahi\windymilla\zoeannl\charliehoward\-->
-
-
-
-
-<h2><a name="TOM-TOM_DRUM_Plate_6" id="TOM-TOM_DRUM_Plate_6">TOM-TOM DRUM&mdash;</a><a href = "#plate6"><span class="smcap">Plate 6</span></a>.</h2>
-
-
-<p>As in a violin, the sounding qualities of this drum depend upon the
-quality of the wood used and the thickness of the sounding-board. Spruce
-is a good wood to use, though the drumstick may well be harder.</p>
-
-<p>A good way to make two pieces the same length and thickness is to plane
-<i>one</i> piece, which is wider than the two pieces combined, to the right
-length and thickness, and then saw it in two lengthwise; so, to make the
-top and between pieces it will be best to start with one piece about 6"
-× 7/8" × 5/16". If no wood 1/8" thick for the sounding-boards is at
-hand, plane a thicker piece nicely on all surfaces 3" × 2" × 5/16". Then
-gage a line 1/8" from each broad surface all around the piece and saw
-between these lines. To plane these two pieces, lay them on the board
-described in the <a href = "#Footnote_1_1">foot-note</a> on <a href = "#Page_19">page 19</a>.</p>
-
-<p>Glue and nail the parts together with very small brads, or pins cut off
-1/2". Allow the glue to dry six to ten hours before twisting the
-drumstick in the strings. Cut a small notch near the ends of the top
-pieces in which to wind two or three strands of string. Twist the
-drumstick in the opposite way from which it should strike the
-sounding-board. To play it, hold it in the left hand, and let the
-fingers of the right hand slide over the end of the drumstick, thus
-making the drumstick strike the sounding-board.</p>
-<p><span class="pagenum"><a name="Page_29" id="Page_29">[Pg 29]</a></span><br /></p>
-<!--File: 031.png&mdash;-\ezsha\Gahyadahi\windymilla\zoeannl\charliehoward\-->
-<div class = "figcenter"><img id = "plate6" src="images/i_031m.png" width ="850" height = "535" alt = "Plate 6"/></div>
-<p style = "text-align:center">TOM-TOM DRUM&nbsp;&mdash;&nbsp;<span class="smcap">Plate 6</span><br /></p>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_30" id="Page_30">[Pg 30]</a></span></p>
-<!--File: 032.png&mdash;-\ezsha\Gahyadahi\awg47\zoeannl\charliehoward\-->
-
-
-
-
-<h2><a name="POP-GUN_Plate_7" id="POP-GUN_Plate_7">POP-GUN&mdash;</a><a href = "#plate7"><span class="smcap">Plate 7</span></a>.</h2>
-
-
-<p>The part of this model difficult to make is a nice, smooth hole. The
-surest way is to start with a thick piece of wood for the barrel, 6" ×
-1-1/4" × 1-1/4". Draw a 7/8" circle on one end; then bore the 7/16" hole
-as straight as possible, starting at the center of the circle. Stop
-boring as soon as the spur of the bit pricks thru the other end, and
-draw another 7/8" circle, setting the needle-point of the compass in the
-tiny hole made by the spur; then finish boring. Next plane the piece
-round the size of the circles. The ramrod should be made as directed on
-<a href = "#Page_16">page 16</a>. The hole should now be sandpapered by wrapping a long, narrow
-piece of sandpaper snugly about the ramrod, and tying it securely at
-each end with string. Make the handle, being careful to bore the hole
-straight 1" deep, and glue the ramrod into it.</p>
-
-<p>Cut off 3/8" of that part of a cork which fits tightly in the barrel.
-Drive a slender nail or brad thru a piece of hard leather (or zinc or
-copper) and trim it round 1/4" diameter. Drill a small hole exactly in
-the center of the end of the ramrod, then drive the nail thru the center
-of the cork and into the ramrod.</p>
-
-<p>To make the hole in the barrel still better, let a few drippings from a
-candle fall into it and quickly insert the ramrod and push it back and
-forth rapidly. A sudden push of the ramrod will blow the other cork out
-with a loud pop. To keep this cork, tie one end of a string around it
-and the other end around the barrel.</p>
-<p><span class="pagenum"><a name="Page_31" id="Page_31">[Pg 31]</a></span><br /></p>
-<!--File: 033.png&mdash;-\ezsha\Gahyadahi\awg47\zoeannl\charliehoward\-->
-<div class = "figcenter"><img id ="plate7" src="images/i_033m.png" width ="850" height = "536" alt = "Plate 7"/></div>
-<p style = "text-align:center">POP GUN AND WHISTLE&nbsp;&mdash;&nbsp;<span class="smcap">Plate 7</span><br /></p>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_32" id="Page_32">[Pg 32]</a></span></p>
-<!--File: 034.png&mdash;-\ezsha\Gahyadahi\awg47\zoeannl\charliehoward\-->
-
-
-
-
-<h2><a name="WHISTLE_Plate_7" id="WHISTLE_Plate_7">WHISTLE&mdash;</a><a href = "#plate7"><span class="smcap">Plate 7</span></a>.</h2>
-
-
-<p>The size of the chamber, of the notch, of the inlet for air, the force
-with which air is blown in,&mdash;these are some of the conditions which
-affect the tone of a whistle.</p>
-
-<p>Plane a piece of close-grained wood 6" × 3/4" × 3/4". This length is
-suggested so that two trials at boring can be made. Bore a 1/2" hole
-2-1/4" deep. To help in boring this straight, clamp a straight-edge (the
-ruler may do) in the vise together with the square stick. Have one edge
-of the straight-edge on the center of one side of the stick. After
-boring a straight hole, draw pencil lines 3/16" from the long edges on
-all four sides. A good way to draw such lines is to rest the middle
-finger-nail on a side of the stick as a guide and hold the pencil
-closely over this nail while sliding it along. The hand must be held
-rather rigid. Practice will enable one to draw lines quite accurately
-this way. Place the stick in the vise so that one edge is straight up,
-and plane the corner off to the line. Plane all four corners so as to
-make a good octagonal stick. Make a dowel (see <a href = "#Page_11">page 11</a>) about 1-1/2"
-long to fit nicely in the hole. Do not crowd it so hard as to split the
-whistle. It might well be fitted first in a 1/2" hole bored in a waste
-piece of wood. Plane off a side of this dowel till a flat place is made
-3/8" wide. Push the dowel into the whistle and saw the straight end of
-the notch about 3/16" deep. Pare the rest of the notch with knife or
-chisel, testing the whistle by blowing it occasionally as the paring
-proceeds. When it sounds best, glue the dowel in place and allow it to
-dry before sawing it off and cutting the slanting part. When this is
-done saw the whistle to a length of 2-1/2". If a rolling sound is
-desired, put in a pea before gluing the dowel in place.</p>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_33" id="Page_33">[Pg 33]</a></span></p>
-<!--File: 035.png&mdash;-\ezsha\Gahyadahi\awg47\zoeannl\charliehoward\-->
-
-
-
-
-<h2><a name="ARROW_Plate_8" id="ARROW_Plate_8">ARROW&mdash;</a><a href = "#bow"><span class="smcap">Plate 8</span></a>.</h2>
-
-
-<p>The old saying, "Straight as an arrow," suggests an arrow's most
-important quality: it must be straight. Saw a strip 20" × 1/2" from the
-edge of a straight-grained spruce board and plane it according to
-directions on <a href = "#Page_16">page 16</a>. To make the notch for the bowstring, first file
-a notch in the smaller end, then saw it 1/4" deep, and smooth it with
-the folded edge of a piece of sandpaper. Bind the larger end tightly
-with rather small, soft wire. (See <a href = "#Page_16">page 16</a>.) Pigeon feathers are easiest
-to use because the quills are soft and straight. Turkey and goose
-feathers are good, and hen feathers will do if they are nearly straight.
-The quill should be split with the point of a small, sharp knife, the
-feather being held on a cutting board. About 3" of quill are needed.
-With scissors, trim the feather about 5/16" wide; then glue and pin it
-in place 1-1/4" from the smaller end of the arrow. Indians use three
-feathers, but two will do for a boy. When the feathers are in place, the
-ends of the quills must be bound very smoothly and tightly with thread.
-Notice the position of the feathers in <a href = "#bow">Plate 8</a>: the <i>bottom</i> feather on
-the arrow having three feathers is called the cock-feather and should be
-of a different color from the other two. It is always placed on the
-bowstring <i>away</i> from the bow.</p>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_34" id="Page_34">[Pg 34]</a></span></p>
-<!--File: 036.png&mdash;-\ezsha\Gahyadahi\awg47\zoeannl\charliehoward\-->
-
-
-
-
-<h2><a name="BOW_Plate_8" id="BOW_Plate_8">BOW&mdash;</a><a href = "#bow"><span class="smcap">Plate 8</span></a>.</h2>
-
-
-<p>Almost any tough stick that will bend to a good curve will answer for a
-bow, but white ash such as is used in hoe- and rake-handles is probably
-best and easiest to get. A brittle wood like hemlock can be used, if
-used with great care; indeed, some Eskimos, who can get only dry,
-brittle driftwood, still make a splendid bow by wrapping it completely
-with sinew. The bow should be shorter than the archer. Plane each end
-tapering, first on the bottom, then on the two edges. Leave 6" in the
-middle straight for a handle. Notice the shape, <a href = "#bow">Plate 8</a>, of the three
-steps in the planing of the bow. Be especially careful to get the second
-step right, then the third will come easily. File notches near each end
-somewhat the shape of the loop on the bowstring. Before the bow can be
-finished, it must be strung and pulled a little to test it,&mdash;to see if
-both ends bend the same good curve,&mdash;not the curve of a circle, but that
-of the broad side of an ellipse. The ends should curve more than the
-middle. When it bends true, smooth it well with a coarse file, or glass,
-and sandpaper. Do not be tempted to pull the bow too far and so break
-it; one that bends easily is less apt to break than one that is too
-strong. When the bow is strung, the center of it and of the bowstring
-should be marked with thread or color.</p>
-
-<p>A piece of strong fish-line makes a good bowstring. A good one can be
-made of linen thread on the string machine shown on <a href = "#plate34">Plate 34</a>. Tie knots
-as shown in <a href = "#fig2">Fig. 2</a>.</p>
-
-<div class = "figcenter"><img id = "fig2" src="images/i_036m.png" width ="850" height = "229" alt = "Figure 2"/></div>
-<p style = "text-align:center">Fig. 2.&nbsp;&mdash;&nbsp;Timber-hitch knot and Bowline-knot<br /></p>
-
-<p>The timber-hitch should be kept in place on the bow,
-and the bowline-knot slipped back on the bow when it is unstrung. The
-best way to string a bow is to place the end having the timber-hitch on
-the ground against one's left foot, then to pull the middle of the bow
-with the left hand, and to push the upper part with the right hand,
-allowing this hand to slide upward so as to shove the bowline-knot into
-the upper notch. When finished the bow can be improved by rubbing it
-well with grease.</p>
-
-
-<p><span class="pagenum"><a name="Page_35" id="Page_35">[Pg 35]</a></span><br /></p>
-
-<!--File: 037.png&mdash;-\ezsha\Gahyadahi\awg47\zoeannl\charliehoward\-->
-<div class = "figcenter"><img id = "bow" src="images/i_037m.png" width ="850" height = "538" alt = "Plate 8"/></div>
-<p style = "text-align:center">ARROW AND BOW&nbsp;&mdash;&nbsp;<span class="smcap">Plate 8</span><br /></p>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_36" id="Page_36">[Pg 36]</a></span></p>
-<!--File: 038.png&mdash;-\ezsha\Gahyadahi\awg47\zoeannl\charliehoward\-->
-<h2><a name="SWORD_Plate_9" id="SWORD_Plate_9">SWORD&mdash;</a><a href = "#plate9"><span class="smcap">Plate 9</span></a>.</h2>
-
-
-<p>Plane the blade to size, then draw a center line on each side, and lay
-out the curves for the point and handle. Shape these ends with the
-draw-knife, spokeshave, or block-plane. Now measure 5" for the handle,
-and draw a line along the center of each edge to mark the cutting edges
-of the sword. A workman would do this with his pencil resting over his
-finger-nail as mentioned on <a href = "#Page_32">page 32</a>. Use the spokeshave to pare off the
-four corners (to sharpen the sword), and finish them with a plane. Try
-to take broad, flat chips so as to make the blade a good diamond shape.
-Where the blade and handle meet a good square shoulder must be made. A
-boy can do this best, perhaps, with a wide, flat file, though a workman
-would use a back-saw and chisel.</p>
-
-<p>Saw out the guard 5" × 3" × 1/2"; then draw the diamond 1-1/2" long and
-1/2" wide. It is not easy for a boy to cut this out, so be careful and
-guard against splitting the board. First drill small holes at each end
-of the diamond, then bore other holes as large as will go within the
-diamond, <a href = "#plate9">Plate 9</a>. With a thin chisel pare straight thru the board onto a
-cutting board. When the diamond will fit the blade, draw the shape of
-the guard freehand and pare the edges as explained for the buzzer on
-<a href = "#Page_20">page 20</a>. Sandpaper both parts of the sword, and fasten the guard with
-glue and two 2" brads, driven from each edge of the guard in holes
-drilled for the purpose.</p>
-
-<p><span class="pagenum"><a name="Page_37" id="Page_37">[Pg 37]</a></span><br /></p>
-<!--File: 039.png&mdash;-\ezsha\Gahyadahi\awg47\zoeannl\charliehoward\-->
-<div class = "figcenter"><img id = "plate9" src="images/i_039m.png" width ="850" height = "534" alt = "Plate 9"/></div>
-<p style = "text-align:center">SWORD&nbsp;&mdash;&nbsp;<span class="smcap">Plate 9</span><br /></p>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_38" id="Page_38">[Pg 38]</a></span></p>
-<!--File: 040.png&mdash;-\ezsha\Gahyadahi\awg47\zoeannl\charliehoward\-->
-
-
-<h2><a name="MAGIC_BOX_Plate_10" id="MAGIC_BOX_Plate_10">MAGIC BOX&mdash;</a><a href = "#plate10"><span class="smcap">Plate 10</span></a>.</h2>
-
-
-<p>This is truly a magic box to those who do not understand how it works.
-Who would ever think that these little bits of people would hop up and
-down inside their house just because their window was rubbed with a
-piece of leather? Try it and see how excited they get.</p>
-
-<p>If the worker can cut glass, make the box first, otherwise he must get a
-piece of glass 5-1/2" × 3" and build the box to fit it. It requires
-careful work to make a good box, so be sure that all ends and edges are
-square and that corresponding parts are the same size before nailing it
-together. Plane all such small boards in the bench-hook. Make the ends
-first 1" wide and as <i>long</i> as the glass is <i>wide</i>. Make the sides the
-same width and as long as the glass, <i>plus</i> the thickness of the two
-ends. Glue and nail these to the ends, keeping the bottom edges flush.
-Set all nails with a nail-set.</p>
-
-<p>One edge and one end only of the bottom should now be planed square, the
-other edge and end being left to plane after the bottom is nailed in
-place. Cut a piece of tin 1/16" smaller than the glass, or glue some
-tinfoil on the inside of the bottom. If tinfoil is to be used, smooth it
-on a piece of paper carefully with the fingers; then spread some glue
-thinly over the bottom, and lay the tinfoil on it. The squared edge and
-end of the bottom are to be nailed first, having them fit nicely; then
-the other edge and end. Never drive a nail too near the corner of the
-bottom lest it strike the nails driven thru the sides of the box. Now
-plane the end and then the side of the bottom to fit. If tin is used
-instead of tinfoil put it inside the box after the bottom has been
-nailed in place. Make the two supports fit inside the box lengthwise and
-just wide enough to hold the top of the glass flush with the top edges
-of the box. To hold the supports, drive nails thru the ends of the box
-into them.</p>
-<p><span class="pagenum"><a name="Page_39" id="Page_39">[Pg 39]</a></span><br /></p>
-<!--File: 041.png&mdash;-\ezsha\Gahyadahi\awg47\zoeannl\charliehoward\-->
-
-<div class = "figcenter"><img id = "plate10" src="images/i_041m.png" width ="850" height = "535" alt = "Plate 10"/></div>
-<p style = "text-align:center">MAGIC BOX AND PENCIL BOX&nbsp;&mdash;&nbsp;<span class="smcap">Plate 10</span><br /></p>
-<p><span class="pagenum"><a name="Page_40" id="Page_40">[Pg 40]</a></span></p>
-<!--File: 042.png&mdash;-\ezsha\Gahyadahi\awg47\zoeannl\charliehoward\-->
-
-<p>Everything about electrical apparatus should be clean and dry, so, as
-this is really an electric box, have the glass and tin clean before
-using it. Put some bits of charcoal, paper, straw, or sawdust into the
-box, have it warm and dry, rub the glass with a piece of leather (glove,
-shoe), and then see how the little people jump! The explanation is as
-follows: Rubbing glass with leather, fur, woolen, or silk <i>generates</i>
-electricity; this electricity <i>attracts</i> non-electrified bodies, thus
-lifting the little people to the glass; as soon as they become <i>charged</i>
-with the electricity on the glass, they are <i>repelled</i> and thrown down
-to the tin; the tin <i>conducts</i> their charge of electricity away, and
-they are ready to begin their circus over again.</p>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_41" id="Page_41">[Pg 41]</a></span></p>
-<!--File: 043.png&mdash;-\ezsha\Gahyadahi\awg47\zoeannl\charliehoward\-->
-
-
-
-
-<h2><a name="PENCIL-BOX_Plate_10" id="PENCIL-BOX_Plate_10">PENCIL-BOX&mdash;</a><a href = "#plate10"><span class="smcap">Plate 10</span></a>.</h2>
-
-
-<p>To make this box, saw out one long piece for the sides and ends, 22" ×
-1-7/8" × 1/4", or two shorter pieces, 12" × 1-7/8" × 1/4". The reason
-for having them so long is because it is difficult to make the groove
-nicely to the end of the board; and they are wide enough to try twice to
-make the groove.</p>
-
-<p>File a nail (about 3/32" in diameter) sharp like a chisel, and drive it
-tightly into a small hole, drilled in a block of wood which has one
-corner rabbeted, that is, sawed away as shown in <a href = "#fig3">Fig. 3</a>. The outside of
-the nail, measured from the shoulder of the rabbet, must be exactly 1/4"
-away, so that the lower edge of the groove will be 1/4" from the top of
-the box. Practice with this tool till a good groove can be made in waste
-lumber, then make the groove along one edge of the board. When well
-done, plane the board 1-3/8" wide, and saw it to the proper lengths for
-sides and ends. In the front end there is no groove, so plane it away
-from one piece just sawed. Sandpaper the flat sides before gluing and
-nailing them together. Prepare the bottom as directed for the magic box,
-<a href = "#Page_38">page 38</a>, then sandpaper, glue and nail it in place. Set all nails. Plane
-the bottom to fit. Prepare the cover somewhat too long but exactly the
-width between the grooves. As in making the whistle, <a href = "#Page_32">page 32</a>, so here
-draw pencil lines for the bevel 3/8" wide on the cover. Practice planing
-a bevel on waste wood first. The bevel at the further end of the cover
-can be planed by holding the cover upright in the vise. When it slides
-smoothly in the grooves, saw it the right length. For the notch, make a
-deep cut with a gouge, and cut the chip straight across with knife point
-or small chisel. Hold it in the bench-hook while doing this.</p>
-<div class = "figcenter"><img id = "fig3" src="images/i_043m.png" width ="300" height = "197" alt = "Figure 3"/></div>
-<p style="text-align:center">Fig. 3</p>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_42" id="Page_42">[Pg 42]</a></span></p>
-<!--File: 044.png&mdash;-\ezsha\Gahyadahi\awg47\zoeannl\charliehoward\-->
-
-
-
-
-<h2><a name="TELEPHONE_Plate_11" id="TELEPHONE_Plate_11">TELEPHONE&mdash;</a><a href = "#plate11"><span class="smcap">Plate 11</span></a>.</h2>
-
-
-<p>In these days when even boys are using wireless telegraphy, this may
-seem a humble telephone, but it is a surprisingly good one, and it is
-very easily made and operated. The drum should be hard and tight, the
-string should be a small, hard cord (tho the common pink cord thoroly
-waxed with paraffin will do), and the cord should be supported by
-nothing but the drums when the telephone is being used.</p>
-
-<p>After preparing the eight sides, observe in <a href = "#plate11">Plate 11</a>, the method of
-nailing four boards of equal width together to form a square,&mdash;each one
-is nailed to another one. The ends of the boxes should be well rounded
-with sandpaper before the drum is stretched over them.</p>
-
-<p>The best material for the drum is rawhide,&mdash;the dried skin of an animal.
-The skin of a small animal like the cat, rabbit, or woodchuck is best.
-Country boys will not have much difficulty in securing such rawhide, but
-city boys may. To remove the hair, or fur, from a skin, slack a lump of
-lime as large as a hen's egg in a basin of water and soak the skin in it
-until the hair can be pulled off readily (usually a few minutes); then
-thoroly wash the skin, stretch it over one end of a box, and tack it
-every 3/8" with 2 oz. tacks. When thoroly dry it will be "tight as a
-drum" and ready to use. A good drum can also be made of an old (dressed)
-kid glove or shoe. Soak a piece 4" sq. in water a few minutes then
-stretch it while still wet, tightly over the box. When dry, coat it on
-both sides with melted paraffin. Fasten the cord to the drum simply by a
-knot on the inside. If common pink cord is used, drive the paraffin in
-with a hot flat-iron.</p>
-
-<p>To use the telephone, a boy at each end of the line holds his box so
-that the string will not touch anything, then one talks into his box
-while the other listens in his. The telephone may be stretched from one
-house to another if the houses are within several hundred feet of each
-other and have a free space between. If two telephones were provided, a
-person could talk and listen at the same time.</p>
-<p><span class="pagenum"><a name="Page_43" id="Page_43">[Pg 43]</a></span><br /></p>
-<!--File: 045.png&mdash;-\ezsha\Gahyadahi\awg47\zoeannl\charliehoward\-->
-<div class = "figcenter"><img id = "plate11" src="images/i_045m.png" width ="536" height = "850" alt = "Plate 11"/></div>
-<p style = "text-align:center">TELEPHONE&nbsp;&mdash;&nbsp;<span class="smcap">Plate 11</span><br /></p>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_44" id="Page_44">[Pg 44]</a></span></p>
-<!--File: 046.png&mdash;-\ezsha\Gahyadahi\awg47\zoeannl\charliehoward\-->
-
-
-
-
-<h2><a name="HAPPY_JACK_WINDMILL_Plate_12" id="HAPPY_JACK_WINDMILL_Plate_12">HAPPY JACK WINDMILL&mdash;</a><a href = "#plate12"><span class="smcap">Plate 12</span></a>.</h2>
-
-
-<p>On a windy day "Happy Jack" will be a whole circus out on the
-clothes-line post. If he can be painted in bright colors so much the
-better, otherwise he should be decorated with colored pencils.</p>
-
-<p>The body is drawn on a board, 9" × 2" × 1/2", by measuring all the
-figures from the hat down, and at these points drawing lines square
-across the board; also, draw a center-line from head to heel. The toes
-and hat rim split easily, so be careful of these parts. If no scroll-saw
-is at hand, saw every 3/8" with the back-saw straight across from the
-edge of the board to the outline of the body; then pare these little
-pieces away with a knife or chisel. The curves at the neck are best made
-with a No. 6 bit before sawing. The curves may be finished with
-half-round file or sandpaper. Take great care in boring the hole up the
-legs and across the shoulders; if a hole is started crooked, glue in a
-dowel of the same wood (see <a href = "#dowels">Dowels</a>, <a href = "#Page_11">page 11</a>), let it dry, and then try
-again. Use a straight-edge as a guide, as for the whistle, page 32. A
-No. 3 bit is used thru the shoulders, and a No. 4 bit up the legs. To
-make the arms, use a 1/2" hard wood dowel 6" long. Bore 1/4" holes for
-the vanes 1/2" each side the center of the dowel and file the wrists,
-before sawing it in two. Round the ends some with sandpaper. Flatten the
-4" wire which goes thru the shoulders enough to keep it from turning in
-the arms. Drill holes in the arms to hold the wire firmly. To plane the
-vanes thin at the broad end, use the board mentioned at the bottom of
-<a href = "#Page_19">page 19</a>. When gluing and nailing the vanes in the arms, remember that
-one lies flat and the other nearly edgewise; also remember to make them
-balance. Bore a 3/16" hole in the center of the base and glue the dowel
-into it. Before trying to fasten "Happy Jack" to a post, drill holes in
-the base for nails or screws.</p>
-<p><span class="pagenum"><a name="Page_45" id="Page_45">[Pg 45]</a></span><br /></p>
-<!--File: 047.png&mdash;-\ezsha\Gahyadahi\awg47\zoeannl\charliehoward\-->
-<div class = "figcenter"><img id = "plate12" src="images/i_047m.png" width ="535" height = "850" alt = "Plate 12"/></div>
-<p style = "text-align:center">HAPPY JACK WINDMILL&nbsp;&mdash;&nbsp;<span class="smcap">Plate 12</span><br /></p>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_46" id="Page_46">[Pg 46]</a></span></p>
-<!--File: 048.png&mdash;-\ezsha\Gahyadahi\awg47\zoeannl\charliehoward\-->
-
-
-
-
-<h2><a name="GLOUCESTER_HAPPY_JACK_WINDMILL_Plate_13" id="GLOUCESTER_HAPPY_JACK_WINDMILL_Plate_13">GLOUCESTER "HAPPY JACK" WINDMILL&mdash;</a><a href = "#plate13"><span class="smcap">Plate 13</span></a>.</h2>
-
-
-<p>This "Happy Jack" is the kind which is common along the coast of New
-England. He is often painted with blue and white uniform and black
-shoes, while the paddles are left unpainted.</p>
-
-<p>The drawing is made on squares so that it may be enlarged easily to any
-size. Keep the same <i>number</i> of squares but make them any size desired;
-3/4" is a good size. The hat, being made separate from the body, should
-not be drawn on the same board.</p>
-
-<p>To make the hat without a lathe, make two wheels of soft wood, round one
-edge of the larger, and glue and nail the smaller one on it. Saw the
-head slanting to make a flat place for the hat, as shown in side view of
-hat, <a href = "#plate13">Plate 13</a>. The space between the legs should be cut out with a
-turning or key-hole saw, tho it can be worked out as the diamond in the
-sword guard, <a href = "#plate9">Plate 9</a>. The "Happy Jack" should be mounted on a large wire
-rod.</p>
-<p><span class="pagenum"><a name="Page_47" id="Page_47">[Pg 47]</a></span><br /></p>
-<!--File: 049.png&mdash;-\ezsha\Gahyadahi\awg47\zoeannl\charliehoward\-->
-<div class = "figcenter"><img id = "plate13" src="images/i_049m.png" width ="531" height = "850" alt = "Plate 13"/></div>
-<p style = "text-align:center">GLOUCESTER HAPPY JACK WINDMILL&nbsp;&mdash;&nbsp;<span class="smcap">Plate 13</span><br /></p>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_48" id="Page_48">[Pg 48]</a></span></p>
-<!--File: 050.png&mdash;-\ezsha\Gahyadahi\awg47\zoeannl\charliehoward\-->
-
-
-
-
-<h2><a name="PADDLING_INDIAN_WINDMILL_Plate_14" id="PADDLING_INDIAN_WINDMILL_Plate_14">PADDLING INDIAN WINDMILL&mdash;</a><a href = "#plate14"><span class="smcap">Plate 14</span></a>.</h2>
-
-
-<p>Make this windmill any dimension desired, using the same number of
-squares in drawing to keep the proportions. The stern of the canoe
-should be planed thin enough so that the completed windmill will nearly
-or quite balance on the upright wire rod. The arms should be made like
-those on the "Happy Jack," and as long as from the center of the
-shoulder to the topmost feather. If the canoe is not too wide, the
-Indian can be nailed in place by two nails as shown in <a href = "#plate14">Plate 14</a>,
-otherwise drive smaller ones slanting thru the back into the canoe;
-drill holes in either case. After the hole is bored thru the shoulders,
-use a trysquare to tell where to start the hole up thru the canoe so
-that it shall come in front of the former.</p>
-<p><span class="pagenum"><a name="Page_49" id="Page_49">[Pg 49]</a></span><br /></p>
-<!--File: 051.png&mdash;-\ezsha\Gahyadahi\awg47\zoeannl\charliehoward\-->
-<div class = "figcenter"><img id = "plate14" src="images/i_051m.png" width ="850" height = "532" alt = "Plate 14"/></div>
-<p style = "text-align:center">PADDLING INDIAN WINDMILL&nbsp;&mdash;&nbsp;<span class="smcap">Plate 14</span><br /></p>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_50" id="Page_50">[Pg 50]</a></span></p>
-<!--File: 052.png&mdash;-\ezsha\Gahyadahi\awg47\zoeannl\charliehoward\-->
-
-
-
-
-<h2><a name="KITE_Plate_15" id="KITE_Plate_15">KITE&mdash;</a><a href = "#plate15"><span class="smcap">Plate 15</span></a>.</h2>
-
-
-<p>Kite flying is such fascinating sport that the three typical kites here
-given will make one want to build others, larger and of different
-shapes.<a name="FNanchor_2_2" id="FNanchor_2_2"></a><a href="#Footnote_2_2" class="fnanchor">[2]</a> Kites have been made large enough to carry a man high in the
-air. The adjustments of a kite are so subtle that much patience is
-sometimes needed to make it fly. That is why the rather elaborate bridle
-is suggested for the paper covered kite with tail. It will require a
-little longer stay in the workshop, but it will save time outdoors.</p>
-
-<div class="footnote">
-
-<p><a name="Footnote_2_2" id="Footnote_2_2"></a><a href="#FNanchor_2_2"><span class="label">[2]</span></a> Many suggestions are found in "The Construction and Flying
-of Kites" by Charles M. Miller, price 20 cents, Manual Arts Press,
-Peoria, Ill.</p></div>
-
-<p>To make the spine and crosspiece, saw a 1/4" strip from the edge of a
-7/8" straight-grained spruce board 3 ft. long; then saw this strip again
-lengthwise, and plane the two pieces 3 ft. × 3/8" × 1/4". Mark the
-center of the crosspiece and a point 8" from the top of the spine, and
-plane each end tapering thinner to 3/16". In each end saw a slot 3/16"
-deep, <a href = "#plate15">Plate 15</a>. Glue and bind securely the middle of the crosspiece to
-the 8" point on the spine. Notice that the last few strands go <i>around</i>
-the others. Test the sticks to see that they are square with each other.
-This can be done by measuring from one end of the spine to each end of
-the crosspiece. Put a cord that will not stretch around the ends of the
-sticks, in the slots, and tie it tightly. Bind this cord into each slot
-in such a manner that it will not slip, and at the same time wind the
-sticks so that they will not split beyond the slot. While doing this,
-one must measure again from each end of the spine to the ends of the
-crosspiece so that the two halves of the kite will be equal.</p>
-
-<p>Cover the kite with strong, light paper. Glue the paper to the sticks,
-and fold it over the string 1/2". Try to have the string lay in the
-crease of the fold. Strengthen the corners with another piece of paper,
-2" wide.</p>
-
-<p><span class="pagenum"><a name="Page_51" id="Page_51">[Pg 51]</a></span><br /></p>
-
-<!--File: 053.png&mdash;-\ezsha\Gahyadahi\awg47\zoeannl\charliehoward\-->
-<div class = "figcenter"><img id = "plate15" src="images/i_053m.png" width ="850" height = "535" alt = "Plate 15"/></div>
-<p style = "text-align:center">KITE, TAILLESS KITE AND BOX KITE&nbsp;&mdash;&nbsp;<span class="smcap">Plate 15</span><br /></p>
-<p><span class="pagenum"><a name="Page_52" id="Page_52">[Pg 52]</a></span></p>
-<!--File: 054.png&mdash;-\ezsha\Gahyadahi\awg47\zoeannl\charliehoward\-->
-
-<p>To make an adjustable bridle, wind a cord twice around the spine near
-its top and tie it tightly on the front side, keeping the knot in the
-middle. Little holes will, of course, have to be made in the paper. Cut
-the cord about 2" long and tie bowline-knot, <a href = "#fig2">Fig. 2</a>, <a href = "#Page_34">p. 34</a>. Measure on
-the crosspiece 10" from the center, and down the spine 12" from the
-crosspiece, and tie three more such knots. Double two cords, about 40"
-long, and tie them in one big knot, called the flying-knot, to make a
-loop about 1" long to which to fasten the anchor line. Mark a point on
-the spine 10" below the crosspiece. Hold the flying-knot here, and
-fasten two cords to the loops on the crosspiece with two or three
-half-hitches, <a href = "#plate15">Plate 15</a>. Now bring the flying-knot 2" above the
-crosspiece and out from the kite far enough to make these two cords
-taut. Fasten another cord to the loop at the upper part of the spine.
-Adjust the remaining cord as taut as the others.</p>
-
-<p>A flat kite like this always needs a tail, and the most bothersome tail
-ever made is that familiar kind made of paper and string. To make a
-convenient, serviceable, and easily-made tail use strips, 3" wide, of
-bunting, cheese-cloth, or any soft, light cloth.</p>
-
-<p>In a high wind a longer tail is needed than in a light wind. If the kite
-seems too unsteady, pull it down, and try to adjust the bridle or the
-tail, before an accident occurs. If the kite dives, let go the string
-just before the kite reaches the ground so that it will not strike the
-ground with force enough to smash the kite. When letting out string
-rapidly, always protect the hand with a cloth or glove lest the string
-cut thru the skin. If in doubt about the strength of the anchor-line,
-two boys can very quickly test it 100 ft. or so at a time as it is being
-let out; one does not want the string to break when the kite is high in
-the air.</p>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_53" id="Page_53">[Pg 53]</a></span></p>
-<!--File: 055.png&mdash;-\ezsha\Gahyadahi\awg47\zoeannl\charliehoward\-->
-
-
-
-
-<h2><a name="TAILLESS_KITE_Plate_15" id="TAILLESS_KITE_Plate_15">TAILLESS KITE&mdash;</a><a href = "#plate15"><span class="smcap">Plate 15</span></a>.</h2>
-
-
-<p>If one has to fly a kite amid many obstructions of trees, wires, and
-houses, one will appreciate the advantage of a tailless kite. Such a
-kite has to be more accurately made, however, and should be covered with
-cloth.</p>
-
-<p>When making the bow, file notches near the slot at each end in the same
-manner as for the bow, <a href = "#bow">Plate 8</a>, in which the twisting string will be
-fastened later. Lash the middle of the bow to a point 7" from the top of
-the spine. In the slots, put the cord which goes around the kite,
-measuring carefully to keep the two sides the same size. Sew a piece of
-colored cambric over the kite. Tie the middle of a strong cord 6-1/2
-feet long to the filed notch at one end of the bow with three
-half-hitches, as shown in <a href = "#plate15">Plate 15</a>. Pass one part of this cord around
-the other notch, and fasten it in the same manner; then tie the two ends
-together with a square knot. Make the dowel for twisting the two cords
-on the back of the bow so as to bend the bow as desired. Into one end of
-the dowel drive a small brad and file it sharp. How much to bend the bow
-can be determined only by trying the kite. As the bow bends, the cloth
-becomes looser, and it is this looseness of the cloth which so holds the
-wind that the kite will fly without a tail. After twisting the cords
-enough, slip them towards the end of the dowel away from the spur, and
-rest the spur in the back of the spine.</p>
-
-<p>Tie a string around both the top and the bottom ends of the spine for
-the bridle. The flying-knot should come as far as the end of the bow;
-or, some tie the lower end of the bridle about 14" from the lower end of
-the spine, and make the flying-knot about 9" in front and 2" above the
-bow.</p>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_54" id="Page_54">[Pg 54]</a></span></p>
-<!--File: 056.png&mdash;-\ezsha\Gahyadahi\awg47\-->
-
-
-
-
-<h2><a name="BOX_KITE_Plate_15" id="BOX_KITE_Plate_15">BOX KITE&mdash;</a><a href = "#plate15"><span class="smcap">Plate 15</span></a>.</h2>
-
-
-<p>In a gale too strong for other kites, a box kite will fly safely. The
-bridle is very easy to adjust, and the kite, tho somewhat more elaborate
-than the others, is not difficult to make. Thin sticks like these can be
-sawed from the edge of a straight-grained board. An easy way to make the
-notches in the ends of the braces is to clamp them all in the vise at
-once, flat surfaces together, and then saw them out with a back-saw.
-This method presupposes that the uprights are all planed the same
-thickness. If they are unequal in thickness, saw the notches as wide as
-the thinnest upright and pare the others each to fit its proper upright.
-In any construction like this, which has a number of parts fitting
-together, it is well to number the adjacent parts so that they may be
-put together again, each in its place. Little nicks are cut with a knife
-on the four edges of the braces where the lashing is to be wound. When
-all the sticks are fitted together, glue the braces to the uprights
-4-3/8" from the ends; two frames are thus made just alike. The lashing
-is done with large thread. Start it with two turns around the brace,
-then once around the upright, then once around the brace, then again
-around the upright, and so continue. The last few turns should be around
-the brace. See that the thread goes from the brace to the upright in the
-way most favorable for holding. When all the lashing is done, measure
-the center of each brace. Put one frame thru the other, and drive a pin
-thru the two centers. Now the frames must be brought to a 14-1/2" square
-by means of strong thread. Near the top of one upright tie a 6 ft.
-thread, leaving a short end. Simply wind the long end twice around each
-upright, and tie the end with a bow-knot until all sides of the square
-can be measured and adjusted. When all sides are equal, make the
-bow-knot into a square knot. Wind some thread around each upright,
-except the first, in such a manner as to hold the long thread securely.
-Now adjust the other end of the kite in the same way. Measure 8-3/4"
-from the ends of each upright and put other threads around the square.
-These can be fastened at each upright after the first by three
-half-hitches.</p>
-<p><span class="pagenum"><a name="Page_55" id="Page_55">[Pg 55]</a></span></p>
-<!--File: 057.png&mdash;-\ezsha\Gahyadahi\awg47\zoeannl\charliehoward\-->
-
-<p>The kite may be covered either with cloth or paper. If cloth is used,
-the edges should be hemmed. If paper, lay it on the floor, put glue on
-each upright, then press the paper to one upright. Wrap the paper around
-the kite and wind string around it several times to hold it while
-adjusting and pressing each corner. Glue the ends of the paper next,
-pulling them as tight as possible. Two flat-irons will hold the ends
-while drying. After the paper is on, its edges should be strengthened
-with a narrow ribbon of cloth glued to it.</p>
-
-<p>Tie the bridle strings just above and below the upper cell and have the
-flying-knot 5" in front of the end of the brace.</p>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_56" id="Page_56">[Pg 56]</a></span></p>
-<!--File: 058.png&mdash;-\ezsha\Gahyadahi\awg47\zoeannl\charliehoward\-->
-
-
-
-
-<h2><a name="KITE-STRING_SAILBOAT_Plate_16" id="KITE-STRING_SAILBOAT_Plate_16">KITE-STRING SAILBOAT&mdash;</a><a href = "#plate16"><span class="smcap">Plate 16</span></a>.</h2>
-
-
-<p>To send messages up to his kite, many a boy has made a hole in a piece
-of paper and watched that go sailing up his anchor line. This sailboat
-will do that, and other things too, and come spinning down again to take
-another message. A parachute, made of a paper napkin, having a 12"
-thread running to each corner and a nail for ballast tied where the four
-threads are knotted together, can be sent up by this messenger,
-released, and allowed to float down from a great height. Paper gliders
-sent up this way will do many "stunts" before they reach ground. Fold a
-flimsy paper napkin in such a way as to hold a bunch of confetti with a
-pin thru only three or four thicknesses of the napkin. This can be tied
-to the keel and the pin withdrawn by the release and fall of a nail,
-and, behold, a shower of confetti! Be sure the falling nail will do no
-injury where it strikes.</p>
-
-<p>A light, frail model like this will require considerable time and
-patience to make and adjust so that it will work. Make the hull and
-posts from a stick about 13" long. Bore the 3/16" holes for the mast and
-keel, the former a little to the left (port, a sailor would say) of the
-center and 2-1/2" from the bow, the latter in the center 2" from the
-stern. Make the wheels of the ends of spools by sawing them off just
-where the straight portion begins, and glueing them together on a hard
-dowel. Very accurately find their centers and drill holes for 1" brads
-which form their axles. Drive these into the post so that the wheels run
-very freely. Do not nail the posts to the hull till the wire parts have
-been put in place. Make three staples of pins and drive them in the
-bottom of the hull so that a fine wire will just slide thru them easily.
-Three are used so that the wire will always be held straight. Next make
-the two eyes which hold the kite-string under the wheels. Coiled around
-once and a half, the coils must be separated enough to allow the string
-to slip between. The safety of the model, swinging violently high in the
-air, depends upon these eyes. They can be driven thru small, tight holes
-and bent on the under side to make them secure. They must be just high
-enough to allow the string to run free. The forward one is elongated
-because the kite-string slants upward so much. Bend the 4" wire trigger
-three times around a brad driven in a piece of wood for convenience. To
-handle wire readily for such work as this, two pliers will be found
-useful. Saw a notch in the bow just wide enough for this coil. Now glue
-and nail the posts in position.</p>
-<p><span class="pagenum"><a name="Page_57" id="Page_57">[Pg 57]</a></span><br /></p>
-<!--File: 059.png&mdash;-\ezsha\Gahyadahi\shadow_reader\zoeannl\charliehoward\-->
-<div class = "figcenter"><img id = "plate16" src="images/i_059m.png" width ="532" height = "850" alt = "Plate 16"/></div>
-<p style = "text-align:center">KITE-STRING SAILBOAT&nbsp;&mdash;&nbsp;<span class="smcap">Plate 16</span><br /></p>
-<p><span class="pagenum"><a name="Page_58" id="Page_58">[Pg 58]</a></span></p>
-<!--File: 060.png&mdash;-\ezsha\Gahyadahi\shadow_reader\Neanderthal\charliehoward\-->
-
-<p>Make the mast, all the spars, in fact, smaller at the outer end. Rig it
-completely before gluing the mast in place. Be sure that the booms will
-swing <i>over</i> the forward wheel, so as not to interfere with its easy
-running. The sails should be of light cloth. The booms and the gaffs
-(see <a href = "#plate30">Plate 30</a> for names of parts) must swing freely on the mast, so as
-to fold together when the trigger is released. For the main-sheets, use
-thread tied with a long loop to slip over the fine wire part of the
-trigger. A cork 1-1/4" in diameter, slit to the center, can be put on
-the kite-string far enough from the kite to be safe from any entangling.
-On the keel, fasten ballast enough (about 1 oz.) to make the sailboat
-ride upright.</p>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_59" id="Page_59">[Pg 59]</a></span></p>
-<!--File: 061.png&mdash;-\ezsha\Gahyadahi\shadow_reader\Cosmas\charliehoward\-->
-
-
-
-
-<h2><a name="THE_HYGROSCOPE_OR_WEATHER_COTTAGE_Plate_17" id="THE_HYGROSCOPE_OR_WEATHER_COTTAGE_Plate_17">THE HYGROSCOPE OR WEATHER COTTAGE&mdash;</a><a href = "#plate17"><span class="smcap">Plate 17</span></a>.</h2>
-
-
-<p>This model serves to indicate the humidity (dampness) of the air. It
-consists of the house, turntable, and figures, the turntable being
-suspended on a violin string. The violin string absorbs moisture from
-the air and untwists, thus causing the man to come out; when the air
-become dry the string twists tighter, thus causing the woman to come
-out. The model should be placed out doors but not exposed to rain or
-sun.</p>
-
-<p>The arches of the doorways may be made with a big bit (1-3/8") or a
-scroll saw. If a bit is used, bore a hole for the spur first, lest it
-split the board. While boring hold the board vertically in the vise. The
-portion cut off between the doorways can be sawed with the tip of the
-back-saw if the board is laid flat on the bench-hook. The slanting lines
-at the top, also, can be sawed while held down on the bench-hook. After
-the front, back and sides are made, nail the back to the sides, but
-screw the front. When this is done, put the house in the vise in an
-upright position and plane the tops of the sides slanting. Notice that
-one roof is wider than the other. Nail the narrower one first, with the
-grain running from front to back. Do not drive nails into the front but
-nail it securely at the back and side. Letting the plane rest on the
-other side of the house, plane the upper edge of this roof slanting, so
-that the other roof will fit. Nail this in place; set all nails; and
-plane the upper edge of this roof slanting, letting the plane rest on
-the first roof. Two brads may now be driven near the center of the
-ridge-pole to hold the roofs together. After making the floor, place the
-house in position on it (1/4" from back, 1/2" from ends) and draw a line
-around the house. Remove the house; drive three brads straight down thru
-the floor; pull them out and start them from the under side in the same
-holes; then put the house in place again and drive the brads home. Put
-in more brads to hold the house securely.</p>
-
-<p>To make the chimney, saw a notch 3/16" deep in the end of a 3/4" square
-stick. If it fits on the roof, bore a 5/16" hole thru its center, and
-saw the chimney off 3/4" long. Glue it 3/8" from the front end of the
-roof. When dry, bore the hole thru the roof.
-<span class="pagenum"><a name="Page_60" id="Page_60">[Pg 60]</a></span>
-<!--File: 062.png&mdash;-\ezsha\Gahyadahi\shadow_reader\Cosmas\charliehoward\-->
-The chimney top with the dowel attached to it below is made to revolve
-so that the Hygroscope may be adjusted. To make the chimney top, bore a
-1/4" hole into the end of a 1/2" dowel; then saw it off 1/2" and glue in
-the upper dowel. Make the turntable somewhat round at each end. In the
-center of it, glue and nail the lower dowel. Next, paint the house if
-desired. The violin string is glued and wedged into holes in the upper
-and lower dowels so that the turntable will swing 3/16" above the floor.</p>
-
-<p>The man and woman may be made of cardboard, wood, clay, chalk or plaster
-of Paris; or they can be bought at a toy store. Painted in bright colors
-and shellacked, or varnished, they look well. They can be made to
-balance on the turntable by adding a piece of lead. Of course, neither
-they nor the turntable should touch any part of the house as they swing
-around.</p>
-<p><span class="pagenum"><a name="Page_61" id="Page_61">[Pg 61]</a></span><br /></p>
-<!--File: 063.png&mdash;-\ezsha\Gahyadahi\shadow_reader\Cosmas\charliehoward\-->
-<div class = "figcenter"><img id = "plate17" src="images/i_063m.png" width ="850" height = "533" alt = "Plate 17"/></div>
-<p style = "text-align:center">HYGROSCOPE OR WEATHER COTTAGE&nbsp;&mdash;&nbsp;<span class="smcap">Plate 17</span><br /></p>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_62" id="Page_62">[Pg 62]</a></span></p>
-<!--File: 064.png&mdash;-\ezsha\Gahyadahi\shadow_reader\Cosmas\charliehoward\-->
-
-
-
-
-<h2><a name="ELECTROPHORUS_Plate_18" id="ELECTROPHORUS_Plate_18">ELECTROPHORUS&mdash;</a><a href = "#plate18"><span class="smcap">Plate 18</span></a>.</h2>
-
-
-<p>The electrophorus consists of two parts, a pan filled with a resinous
-mixture, and a cover which has been completely covered with tinfoil.
-Under favorable conditions, a spark of electricity 1/2" long can be
-obtained from this electrophorus. The favorable conditions are these:
-The air should be dry; both parts of the electrophorus should be warm,
-dry, and clean; and the tinfoil and rosin should be perfectly flat, so
-as to come in close contact with each other.</p>
-
-<p>Make the pan and its sides as shown in <a href = "#plate18">Plate 18</a>. Glue and nail the sides
-in place and round their upper edges well with sandpaper. To make the
-resinous mixture, melt a half teacup of rosin with two teaspoons of
-turpentine and about the same of paraffin in a rather deep dish, and
-pour the mixture into the pan. As all these materials are inflammable,
-perhaps the safest place to melt them is in the oven. After the pan is
-cold, test the surface of the rosin to see that it is flat every way. If
-it is not flat, sandpaper the high parts slowly with coarse sandpaper.</p>
-
-<p>When making the cover, observe the directions on <a href = "#Page_20">page 20</a>, then round the
-edge to a good half-circle. Test the cover also to see that it is flat,
-especially on its under side, for to get good sparks, the tinfoil and
-rosin must come just as close together as possible. Cut two circles of
-tinfoil 4-1/2" in diameter. Smooth them carefully on a piece of paper,
-spread glue thinly on the cover, lay the tinfoil on the glue, and smooth
-it with the fingers. Press the edges as smooth as possible because
-electricity escapes easily from sharp corners. Cover the larger open
-spaces with bits of tinfoil. Hard rubber (ebonite), being a
-non-conductor of electricity, makes the best handle. A piece of an old
-rubber comb or a fountain pen can be used for this purpose.</p>
-
-<p>To get a spark of electricity, rub the rosin with soft leather, fur, or
-woolen; place the cover on it; touch the top of the cover with the
-finger (to remove the negative electricity); lift the cover by the top
-of the handle; bring the edge of the cover near a finger, or other
-conductor, and a spark will fly off with a snap. It is a miniature flash
-of lightning. Some books on electricity describe many other experiments
-which can be tried.</p>
-<p><span class="pagenum"><a name="Page_63" id="Page_63">[Pg 63]</a></span><br /></p>
-<!--File: 065.png&mdash;-\ezsha\Gahyadahi\shadow_reader\Cosmas\charliehoward\-->
-<div class = "figcenter"><img id = "plate18" src="images/i_065m.png" width ="850" height = "532" alt = "Plate 18" /></div>
-<p style = "text-align:center">ELECTROPHORUS&nbsp;&mdash;&nbsp;<span class="smcap">Plate 18</span><br /></p>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_64" id="Page_64">[Pg 64]</a></span></p>
-<!--File: 066.png&mdash;-\Mapas\Gahyadahi\awg47\Cosmas\charliehoward\-->
-
-
-
-
-<h2><a name="WATERWHEEL_Plate_19" id="WATERWHEEL_Plate_19">WATERWHEEL&mdash;</a><a href = "#plate19"><span class="smcap">Plate 19</span></a>.</h2>
-
-
-<p>This waterwheel is designed to be placed in a flowing stream. A longer
-trough might well lead the water into this one so as to get greater
-speed.</p>
-
-<p>Make the trough first, being careful to make a good fit where the sides
-nail to the bottom. Nail the top 5" from the end where the wheel is
-placed. The upper corners of the axle blocks are to be cut off 1". The
-center of the 5/16" hole for the axle is 7/8" from the lower edge. When
-nailing the axle blocks in place, put a dowel or lead pencil thru the
-holes to help in nailing the blocks exactly opposite each other.</p>
-
-<p>After sawing a board for the wheel 4-1/4" square, draw the diagonals and
-diameters (cornerwise and crosswise, that means) to divide it into eight
-parts. Draw a 4" circle for the wheel and a 3-1/4" circle to mark the
-depth of the notches for the paddles. Shape the wheel. (See <a href = "#Page_20">page 20</a> for
-directions.) Test it with the trysquare to keep the edge square with the
-flat surface. Bore a 1/4" hole in the center with the greatest care, or
-the wheel will wobble sidewise. The notches are cut with the back-saw
-alone. One-eighth of an inch to one side of the eight lines across the
-circle, saw straight down to the inner circle. Be careful to hold the
-saw square with the wheel. After this saw cut is made, measure the width
-of the notch by holding the edge of a paddle so as just to cover the saw
-cut, and, with a knife point make a dot at the other side of the paddle.
-Holding the trysquare against one side of the wheel and the inner edge
-of its blade over the dot, score a knife line across the edge of the
-wheel. Then saw straight down again <i>inside</i> this knife line. Saw
-cornerwise a few times and the wood will be removed sufficiently. The
-notches may better be too small than too large, for the paddles can be
-planed thinner to fit. Clean the wheel with the plane before nailing the
-paddles. All these paddles except one can be nailed with the wheel held
-in a corner of the vise. To nail that one, put a thin board upright in
-the vise and rest the wheel on its top. All nails should be started in
-the paddles, not in the wheel.</p>
-<p><span class="pagenum"><a name="Page_65" id="Page_65">[Pg 65]</a></span><br /></p>
-<!--File: 067.png&mdash;-\Mapas\Gahyadahi\awg47\Cosmas\charliehoward\-->
-<div class = "figcenter"><img id = "plate19" src="images/i_067m.png" width ="850" height = "535" alt = "Plate 19" /></div>
-<p style = "text-align:center">WATERWHEEL&nbsp;&mdash;&nbsp;<span class="smcap">Plate 19</span><br /></p>
-<p><span class="pagenum"><a name="Page_66" id="Page_66">[Pg 66]</a></span></p>
-<!--File: 068.png&mdash;-\Mapas\Gahyadahi\awg47\Cosmas\charliehoward\-->
-
-<p>Make the axle of hard wood. Push it thru the axle blocks and wheel, and
-lock it to the wheel with a brad, <a href = "#plate19">Plate 19</a>. The axle is made long so
-that a pulley (spool) can be put on and a belt (string) run from this to
-other pulleys. A leather washer outside each axle block keeps the wheel
-in the center. If the work has been carefully done, the paddles will not
-strike; if they do strike, they must be pared off.</p>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_67" id="Page_67">[Pg 67]</a></span></p>
-<!--File: 069.png&mdash;-\Mapas\Gahyadahi\awg47\Cosmas\charliehoward\-->
-
-
-
-
-<h2><a name="WATER_MOTOR_Plate_20" id="WATER_MOTOR_Plate_20">WATER MOTOR&mdash;</a><a href = "#plate20"><span class="smcap">Plate 20</span></a>.</h2>
-
-
-<p>This motor is a waterwheel designed for an ordinary hose faucet. Under a
-stream of water no bigger than a large needle, it will fairly buzz. If
-the wheel does not run exactly true on the axle, the motor will need
-legs screwed on the outside of the box.</p>
-
-<p>Make the wheel of soft wood just as true as possible. (See <a href = "#Page_20">page 20</a>.) For
-the axle a small brass rod or a large knitting needle may be used. In
-the center of the wheel, drill a hole smaller than the axle so as to
-make a tight fit. Be very careful to bore this hole straight. Force the
-axle thru the wheel, and if the wheel wobbles only slightly drive wooden
-wedges beside the axle to force it square with the wheel. If it wobbles
-too much, plug the hole and try boring again. Resting the axle on the
-jaws of the vise, revolve the wheel rapidly to see where it is out of
-true, and patiently pare it down. The flat side of the wheel which
-wobbles only a little can be planed off. The strip of screen wire
-netting should now be tacked on the wheel. It is long enough to go twice
-around the wheel, and should be tacked on with a dozen small tacks.</p>
-
-<p>For suggestions about the pulley see <a href = "#Page_56">page 56</a>.</p>
-
-<p>Prepare a block of soft wood for the coupling. From its bottom, gage a
-line marking the height of the dovetails in which the blocks C and D fit
-3/8" on each side. Saw these dovetails 3/16" deep, and pare them
-slanting with a chisel. In the center of the top, bore a 1" hole, 3/4"
-deep; continue the hole thru the block with a 1/2" bit. Bore holes 3/8"
-from the top, 1/2" from the ends for the two 1-1/2" screws which are
-shown in the small drawing, <a href = "#plate20">Plate 20</a>. Gage and saw out the left-hand
-half of the block (as shown in the plate) as deep as the 1" hole. The
-purpose of this is to permit a squeezing fit on the threads of the
-faucet. When first trying it on the faucet, squeeze it hard with a
-hand-screw to jamb the threads into the wood; after that, the screws can
-be put in and the coupling attached at pleasure. A 1/4" hole is bored in
-the 1/2" dowel, which serves as a nozzle, until the spur just shows.
-Without allowing the bit to bore any farther, turn it around enough so
-that the spur will wear the wood and thus make a tapering hole as shown
-in the sectional drawings.</p>
-<p><span class="pagenum"><a name="Page_68" id="Page_68">[Pg 68]</a></span></p>
-<!--File: 070.png&mdash;-\Mapas\Gahyadahi\awg47\Cosmas\charliehoward\-->
-
-<p>Prepare the sides, ends, and top of the box, the three blocks, the key
-wedge, and the two stops. The wedge should be 1/16" wider at one end
-than the other and should fit the dovetail. Block C should fit the
-other. In the top piece, bore a 3/4" hole in the middle 1-1/4" from the
-end. This hole is larger than the nozzle to allow for adjustments. All
-these parts must now be thoroly soaked with paraffin. Melt the paraffin,
-apply it with a brush to all surfaces, and drive it in with heat. During
-the process, the nozzle can be made fast in the coupling, using plenty
-of paraffin to make it water tight. See that the tiny outlet occupies
-the best position for directing the water onto the wheel. After the
-nozzle is cold again, the outlet should be carefully worked out again
-with the warm point of a big hat-pin or wire, filed to a good point.</p>
-
-<p>Put the parts together as follows: Nail one side (the right in the
-plate) to the ends; screw the other side to ends; nail top to ends and
-first side only; nail block B to A; then A to the top. Unscrew the side
-and bore holes in the center of the sides for the axle. Make them fit
-nicely, then soak them with paraffin. Put the wheel, the side, the
-pulley, and the stops in place. Put the coupling in such position that
-the nozzle comes over the rim of the wheel and nail block C. After
-putting two or three soft leather washers in the coupling screw it to
-the faucet, lock it to the motor, and the motor is ready.</p>
-
-<p>Better bearings for the axle can be made of two pieces of solder screwed
-to the inside of the sides. If these are made, the holes in the sides
-should be large enough not to touch the axle. The wheel and pulley can
-be locked to a brass axle by boring a hole thru the axle with a drill
-made of a needle. (See <a href = "#drills">Drills</a>, <a href = "#Page_11">page 11</a>.)</p>
-<p><span class="pagenum"><a name="Page_69" id="Page_69">[Pg 69]</a></span><br /></p>
-<!--File: 071.png&mdash;-\Mapas\jdgano\awg47\Cosmas\charliehoward\-->
-<div class = "figcenter"><img id = "plate20" src="images/i_071m.png" width ="850" height = "532" alt = "Plate 20" /></div>
-<p style = "text-align:center">WATER MOTOR&nbsp;&mdash;&nbsp;<span class="smcap">Plate 20</span><br /></p>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_70" id="Page_70">[Pg 70]</a></span></p>
-<!--File: 072.png&mdash;-\Mapas\jdgano\awg47\Cosmas\charliehoward\-->
-
-
-
-
-<h2><a name="SAND_WHEEL_Plate_21" id="SAND_WHEEL_Plate_21">SAND WHEEL&mdash;</a><a href = "#plate21"><span class="smcap">Plate 21</span></a>.</h2>
-
-
-<p>Fine sand will make a wheel like this spin around lively. Most of the
-parts are easily made, the wheel offering the most difficulties.</p>
-
-<p>As shown in the drawing it consists of two boxes, uprights connecting
-the two, and a wheel with paddles swung on an axle between the uprights.</p>
-
-<p>To make the curves on the uprights, lay them edge to edge in the vise
-and start the spur of a large bit in the crack, 1-1/2" from each end. If
-a big spool cannot be obtained for the wheel, plane out an octagonal
-block 1-3/8" long, 1" in diameter. The slanting part of the spool must
-be whittled away. Divide one end into eight equal parts and <span class = "correction" title = "Transcriber's Note:draw was drawn in original.">draw</span> lines
-lengthwise <span class = "correction" title= "Transcriber's Note: Word on not in original.">on</span> the spool at each division. On these lines, measure very
-carefully 11/16" from one end. Then, holding the spool level in the vise
-bore 3/16" holes half thru the spool at each of these dots. The easiest
-way to lay out the paddles is in one long piece as shown in <a href = "#fig4">Fig. 4</a>.<img class = "figleft" id = "fig4" src="images/i_072m.png" width ="850" height = "295" alt = "Figure 4" /> If
-lines A and B are sawed carefully (see <a href = "#Page_12">page 12</a>) they will fit the spool
-well enough to glue. The stems of the paddles go into the holes bored in
-the spool. They are easily made round by paring the corners a little,
-and then screwing them around in a 3/16" hole in a piece of hard wood.
-The ends of the paddles where the sand strikes are bevelled on the under
-side. The holes in the uprights, thru which 1-1/4" brads are pushed into
-the center of the spool, must be exactly opposite each other, 3-1/4"
-from the bottom. Little leather washers should be put between the spool
-and the uprights.</p>
-<p><span class="pagenum"><a name="Page_71" id="Page_71">[Pg 71]</a></span><br /></p>
-<!--File: 073.png&mdash;-\Mapas\Blue Berry\awg47\Cosmas\charliehoward\-->
-<div class = "figcenter"><img id = "plate21" src="images/i_073m.png" width ="850" height = "536" alt = "Plate 21" /></div>
-<p style = "text-align:center">SAND WHEEL&nbsp;&mdash;&nbsp;<span class="smcap">Plate 21</span><br /></p>
-<p><span class="pagenum"><a name="Page_72" id="Page_72">[Pg 72]</a></span></p>
-<!--File: 074.png&mdash;-\Mapas\Blue Berry\awg47\Cosmas\charliehoward\-->
-
-<p>Now make the boxes. To nail the boxes to the upright follow the
-suggestions on <a href = "#Page_59">page 59</a> for nailing the floor of the weather cottage.
-Keep the brads near the center of the uprights lest they split the
-curves. A 5/16" hole for the sand is bored in the upper box in such a
-position that the sand will strike near the middle of the ends of the
-paddles. The peg is tapered to fit this hole.</p>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_73" id="Page_73">[Pg 73]</a></span></p>
-<!--File: 075.png&mdash;-\Mapas\Blue Berry\awg47\Cosmas\charliehoward\-->
-
-
-
-
-<h2><a name="RUNNING_WHEEL_Plate_22" id="RUNNING_WHEEL_Plate_22">RUNNING WHEEL&mdash;</a><a href = "#plate22"><span class="smcap">Plate 22</span></a>.</h2>
-
-
-<p>It is fine fun for several boys to race down the street with running
-wheels. Each boy can have a different kind of wheel by following the
-suggestions on <a href = "#plate22">Plate 22</a>.</p>
-
-<p>The wheel may be made any convenient size. Saw a board off square and
-plane it flat. To be sure that it is flat, it must be tested with a
-straight-edge from corner to corner, crosswise, and lengthwise. Draw the
-circle with a string pinned to the center, if a large compass is not at
-hand. Saw it with a turning saw and finish it as suggested on <a href = "#Page_20">page 20</a>.
-Bore and countersink a hole in the center for a 1-1/2" flat-head screw.
-Make the handle and drill a small hole in it where the wheel is to be
-screwed on. Round off the upper end and edges of the handle so that it
-feels good to the hand grasping it. The screws used in the connecting
-rod should slip easily thru the holes at each end. Altho one arm will
-do, two look better. To draw the boy, draw as many 3/4" squares on the
-board as there are in <a href = "#fig5">Fig. 5</a>, then sketch the outline one square at a
-time. To cut it out,
-<span class="pagenum"><a name="Page_74" id="Page_74">[Pg 74]</a></span>
-<!--File: 076.png&mdash;-\Mapas\Blue Berry\awg47\Cosmas\charliehoward\-->
-a scroll-saw or turning-saw is almost surely needed, tho a patient boy
-can do it with auger-bits, back-saw, knife, and file&mdash;the bits to be
-used first at all the inside angles. On the handle, must be put a block
-on which to screw the boy. To fasten the two arms loosely at the
-shoulders, the screw should be loose in the shoulder and first arm, and
-tight in the second arm. The same is true of the hands and flagpole. In
-the top of the flagpole, bore a hole to fit a small flag. Paint of
-bright colors makes the model look much more pleasing.</p>
-<div class = "figcenter"><img id = "fig5" src="images/i_075m.png" width ="850" height = "534" alt = "Figure 5" /></div>
-<p style="text-align:center">Fig. 5</p>
-
-<p>An easy way to make the sliding part of the lower right-hand running
-wheel, <a href = "#plate22">Plate 22</a>, is to cut out with bit and chisel a narrow slot thru
-the handle, wide enough for two screws, with washers on them, which
-screw into the block holding the flag.</p>
-<p><span class="pagenum"><a name="Page_75" id="Page_75">[Pg 75]</a></span><br /></p>
-<!--File: 077.png&mdash;-\Mapas\Blue Berry\awg47\Cosmas\charliehoward\-->
-<div class = "figcenter"><img id = "plate22" src="images/i_077m.png" width ="850" height = "538" alt = "Plate 22" /></div>
-<p style = "text-align:center">RUNNING WHEEL&nbsp;&mdash;&nbsp;<span class="smcap">Plate 22</span><br /></p>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_76" id="Page_76">[Pg 76]</a></span></p>
-<!--File: 078.png&mdash;-\Mapas\Blue Berry\awg47\Cosmas\charliehoward\-->
-
-
-
-
-<h2><a name="RATTLE_Plate_23" id="RATTLE_Plate_23">RATTLE&mdash;</a><a href = "#plate23"><span class="smcap">Plate 23</span></a>.</h2>
-
-
-<p>This is a noisy toy and will make a safe substitute for fire-crackers on
-the Fourth of July. Some of the dimensions may be changed to suit such a
-spool as can be obtained. It should be a rather deep spool, that is, one
-that held a lot of thread.</p>
-
-<p>The noise is made by the spring snapping off the slats in the spool as
-the head of the rattle is swung round and round. Draw lines across one
-end of the spool to divide it into eight equal parts. Place the spool
-endwise in the vise and, with the back-saw, cut eight notches a little
-more than 1/16" wide straight towards the opposite side of the spool. By
-sawing twice at each notch, the wood which remains can easily be removed
-with the saw held slanting. There are several ways of making the eight
-little slats which fit into these notches; the easiest, perhaps, is to
-split them from a block (1-5/8" × 1-1/2" × 5/16") of a straight-grained
-wood, and plane them on the jig described at the foot of <a href = "#Page_19">page 19</a>. Glue
-them in the notches. Plane the back and the spring this same way. Square
-both ends of the back but do not plane it quite to width until it is
-glued and nailed in place. In the two sides, bore a 5/16" hole for the
-dowel, 3/4" from the end and a little over 3/4" from the back edge.
-(Holes are always located by their centers.) This dowel must fit tightly
-in the handle and spool, and loosely in the two sides. Plane the spring
-thinner at the narrow end. It should be narrow enough and its corners
-cut off enough so as not to touch the spool when it snaps. The handle
-might well be octagonal rather than round.</p>
-
-<p>The parts may now be put together as follows: Glue and nail the sides
-first to the thick end, second to the thin end. The distance between the
-ends inside is 3-5/16". Keep these four parts flush on the back edges so
-that the back will fit. Glue and nail the back. Glue the dowel in the
-handle. Put glue inside the spool and on the middle portion of the
-dowel, then, with the spool between the two sides, push the dowel thru
-all three holes. Glue and nail the spring in place. It should be as far
-towards the spool as it will go without snapping the next slat when it
-snaps off one slat.</p>
-<p><span class="pagenum"><a name="Page_77" id="Page_77">[Pg 77]</a></span><br /></p>
-<!--File: 079.png&mdash;-\Mapas\Blue Berry\awg47\Cosmas\charliehoward\-->
-<div class = "figcenter"><img id = "plate23" src="images/i_079m.png" width ="534" height = "850" alt = "Plate 23" /></div>
-<p style = "text-align:center">RATTLE&nbsp;&mdash;&nbsp;<span class="smcap">Plate 23</span><br /></p>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_78" id="Page_78">[Pg 78]</a></span></p>
-<!--File: 080.png&mdash;-\ezsha\Blue Berry\awg47\Cosmas\charliehoward\-->
-
-
-
-
-<h2><a name="CART_Plate_24" id="CART_Plate_24">CART&mdash;</a><a href = "#plate24"><span class="smcap">Plate 24</span></a>.</h2>
-
-
-<p>The important features of a cart are the wheels and axle and the tongue;
-if these are strong and the tongue securely fastened, almost any box
-will do for the body. Two tongues, nailed or screwed to the sides of the
-body, probably make the strongest handle, but they are not so good
-looking as the one shown in <a href = "#plate24">Plate 24</a>. If this one is screwed to the box
-with six 1" screws, two in the tongue and two in each block, it will be
-strong enough. Some of the nicer boxes to be secured of a grocer will do
-for a body, tho it is better to make one one's self.</p>
-
-<p>Four wheels of 1/2" hard wood should be made (see <a href = "#Page_20">page 20</a>) and then each
-two of the four glued and nailed together very securely with the grain
-crosswise. For this purpose, 1-1/4" clout, or clinch nails are best. Do
-not drive them too near the center nor the rim. To clinch nails, they
-should be driven onto a piece of iron. After this is done, a 7/8" hole
-(or larger if you can get a larger stick for the axle) is bored straight
-thru the center. To cut the cylindrical ends of the axle, first draw a
-7/8" circle at the center of each end, then lay out and saw out two
-rectangular pieces, one on each side of the circles so as to leave a
-7/8" square pin, 2-1/4" long. Proceed to make these pins; first, eight
-sided; then, sixteen sided; then, round; using knife or chisel and a
-coarse flat file. Make the hole in the washers before cutting off each
-corner 9/16". These washers are to be fastened to the axle when held
-rather snugly against the wheel with two 1" screws put crosswise the
-grain. Before putting the wheels on the last time, rub the axles and
-holes well with hard soap to make them run easier. Draw a line across
-the bottom of the body 5" from the back end, and bore four screw holes
-thru the bottom; countersink them well on the inside of the body, and
-put 1" screws thru into the flat side of the axle. The axle is planned
-so that the wheels run within 1/8" of the body.</p>
-<p><span class="pagenum"><a name="Page_79" id="Page_79">[Pg 79]</a></span><br /></p>
-<!--File: 081.png&mdash;-\ezsha\Blue Berry\awg47\Cosmas\charliehoward\-->
-<div class = "figcenter"><img id ="plate24" src="images/i_081m.png" width ="850" height = "535" alt = "Plate 24" /></div>
-<p style = "text-align:center">CART&nbsp;&mdash;&nbsp;<span class="smcap">Plate 24</span><br /></p>
-<p><span class="pagenum"><a name="Page_80" id="Page_80">[Pg 80]</a></span></p>
-<!--File: 082.png&mdash;-\ezsha\Blue Berry\awg47\Cosmas\charliehoward\-->
-
-<p>With a curved lower edge, the tongue is 2-1/2" wide at one end and
-1-1/2" at the other. To get the correct slant at the wide end, block up
-the cart level, have some one (or the vise) hold the tongue in the
-position wanted when finished, then with a strip of wood about 2" wide
-placed upright against the front of the body, draw a line on the tongue.
-From the lowest corner of the tongue, draw another line parallel to the
-first, and saw off. After making the two blocks and fastening them
-securely to the tongue, saw the lower ends flush with the curve of the
-tongue. Place the tongue in position, draw a line around it on the body,
-then bore holes where screws will go best into the tongue and blocks.
-Six 1" screws well countersunk will hold the tongue securely. Since the
-tongue is fastened to the <i>front</i>, the sides and bottom must be well
-nailed to <i>it</i>; or, the corners may be strengthened with a piece of tin
-inside and outside each corner, tacked or riveted together. Each piece
-of tin should be about 3" square.</p>
-
-<p>A piece of old bicycle frame forced tightly into the hole of a wheel,
-makes it very durable. Such a hole would doubtless have to be bored with
-an expansive bit. A bicycle frame is easily filed in two at some
-distance from the reinforced joints. Such a piece should be longer than
-the thickness of the wheel to allow filing it flush after it is driven
-in. To force it in, use a strong vise, or, after protecting it with hard
-wood, drive it slowly with a heavy hammer.</p>
-
-<p>Small carts can be made with wheels made of spools like those of the
-cannon. (See <a href = "#plate25">Plate 25</a>.)</p>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_81" id="Page_81">[Pg 81]</a></span></p>
-<!--File: 083.png&mdash;-\ezsha\Blue Berry\awg47\Cosmas\charliehoward\-->
-
-
-
-
-<h2><a name="CANNON_Plate_25" id="CANNON_Plate_25">CANNON&mdash;</a><a href = "#plate25"><span class="smcap">Plate 25</span></a>.</h2>
-
-
-<p>This cannon will shoot small marbles very well. The force of it depends,
-of course, on the strength of the rubber bands. Because the ramrod and
-handle are rather heavy, a strong dowel is put thru the handle and
-ramrod. The rubber washer absorbs some of the shock.</p>
-
-<p>For the barrel draw a 1-1/4" circle on one end of a stick 6-1/2" ×
-1-1/2" × 1-1/2". From the center of this circle, bore a 9/16" hole
-straight thru the stick endwise, stopping as soon as the spur comes
-thru. Set the needle of the compass in this spur hole and draw a 1"
-circle and, if possible, a 1-1/4" circle; then finish boring.</p>
-
-<p>Plane the stick round to the 1-1/4" circle. To hold the stick while
-doing this, put a rod thru the hole, open the vise 6-1/2" and let the
-barrel rest endwise in the vise. Two and one-half inches from the breech
-end of the barrel, draw a line around it to limit the taper of the
-muzzle end. Plane the muzzle to the 1" circle. Two inches from the
-breech, bore a 3/8" hole straight thru the barrel; and into this hole
-glue the axle. After the glue is dry, bore out the barrel again, and
-sandpaper the hole well.</p>
-
-<p>Make the ramrod fit loosely in the barrel. (See directions for <a href = "#DART_Plate_1">Dart</a>,
-<a href = "#Page_16">page 16</a>.) Make the handle in the same manner as the barrel was made,
-except that, after drawing the 1-1/4" circle at the end where the spur
-just appears, the hole is <i>not</i> bored further. Glue the ramrod in place,
-and fasten it with the 3/8" dowel. The curved notch into which the
-rubber bands are tied, can be worked out patiently with a round file,
-first cutting a V-shaped notch with a knife. Pare the corners and
-sandpaper all parts well.</p>
-
-<p>The rubber washer can be made of an old rubber heel. To bore a hole in
-it, squeeze it between two boards and bore thru both together.</p>
-
-<p>At least one of the uprights must be screwed to the base. The first one
-may be nailed. Glue and nail this one 1/4" from the edge of the base.
-Hold the other in place and draw a line around it. Bore holes for the
-screws, put the screws in the holes, and press the upright on them to
-mark where to bore in the upright. After boring in the uprights, put the
-cannon and upright in place, and tighten the screws. The wheels can be
-made of the ends of large spools, well countersunk for a short, large
-screw.</p>
-<p><span class="pagenum"><a name="Page_82" id="Page_82">[Pg 82]</a></span><br /></p>
-<!--File: 084.png&mdash;-\ezsha\Blue Berry\awg47\Cosmas\charliehoward\-->
-<div class = "figcenter"><img id = "plate25" src="images/i_084m.png" width ="850" height = "536" alt = "Plate 25" /></div>
-<p style = "text-align:center">CANNON&nbsp;&mdash;&nbsp;<span class="smcap">Plate 25</span><br /></p>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_83" id="Page_83">[Pg 83]</a></span><br /></p>
-<!--File: 085.png&mdash;-\ezsha\Blue Berry\awg47\Cosmas\charliehoward\-->
-<div class = "figcenter"><img id = "plate26" src="images/i_085m.png" width ="538" height = "850" alt = "Plate 26" /></div>
-<p style = "text-align:center">AUTOMOBILE&nbsp;&mdash;&nbsp;<span class="smcap">Plate 26</span><br /></p>
-<p><span class="pagenum"><a name="Page_84" id="Page_84">[Pg 84]</a></span></p>
-<!--File: 086.png&mdash;-\ezsha\Blue Berry\awg47\Cosmas\charliehoward\-->
-
-
-
-
-<h2><a name="AUTOMOBILE_Plate_26" id="AUTOMOBILE_Plate_26">AUTOMOBILE&mdash;</a><a href = "#plate26"><span class="smcap">Plate 26</span>.</a></h2>
-
-
-<p>Tho the motor (an elastic band) which makes this automobile go is a
-short-winded affair, still, if the wheels are easy running, it will go
-alone for a short distance on a wooden floor. A stronger elastic can be
-used if the automobile carries a load. If the parts are painted with
-bright colors before they are entirely put together, the automobile will
-look very well.</p>
-
-<p>First, make the body, then 4-1/4" from the front end and 3/4" from the
-right side, bore a 1/4" hole in the body for the steering post. This
-should fit tightly so as to hold the wheels in any position desired.
-Leather washers are nailed to the post close to the body. The steering
-post must be put in place before any other parts are fastened to the
-body.</p>
-
-<p>The ends of the rails which are later fastened to the bottom of the
-body, slant 1/2". The center of the holes for the axles is 3/4" beyond
-this slanting line and 1/4" above the lower edge of the rails. When
-boring these 1/4" holes, the rails should be clamped together so that
-the holes will be exactly opposite each other. The forward holes are
-made long to allow the axles to swing back and forth. To make this hole,
-two 1/4" holes are bored side by side and the top and bottom smoothed
-with a 1/4" chisel. When nailing the body to the rails, put the rear
-axle thru the holes to aid in keeping them opposite each other.</p>
-
-<p>The forward axle is made in one piece and kept so until after the
-steering "rope" is in place. The axle must be held carefully in place
-while the brad holes are bored 1/8" from the outer edge of the rails and
-straight thru the center of the axle. A tight fitting brad is driven
-into this hole. The steering rope must not stretch; large, hard thread
-is suitable. Wind a piece about 18" long tightly around the axle about
-1/4" from one rail and tie it. Pass one end thru the small screw-eyes
-shown in the lower drawing, and wind it around the axle near the other
-rail leaving no slack in the screw-eyes; then wind six to eight turns
-smoothly around the steering post, and fasten the end to the beginning
-with several half-hitches. (See <a href = "#plate15">Plate 15</a>.) A separate thread should be
-tied around the axle and
-<span class="pagenum"><a name="Page_85" id="Page_85">[Pg 85]</a></span>
-<!--File: 087.png&mdash;-\ezsha\Blue Berry\awg47\Cosmas\charliehoward\-->
-steering rope at the second place. Should there be any slack, it can be
-taken up by laying a V-shaped thread over the steering rope near the
-axle and passing the two ends over the upper side of the axle, and tying
-them across the steering rope on the other side of the axle. This tends
-to pull the steering rope together on top of the axle.</p>
-
-<p>The wheels can be sawed from short lengths of curtain poles, obtained at
-a furniture store. The 1/4" holes for the axle, must be bored exactly at
-the center. The wheels must turn freely on the front axle, but be glued
-to the rear axle, which must itself turn freely in the rails. After the
-wheels are in place, the front axle can be sawed in two with a back-saw,
-using very short strokes, and sawing two cuts nearly thru before either
-is sawed completely.</p>
-
-<p>Nail the wind-shield to the engine, then glue both to the body. Nail the
-seat-back to the seat so that the top of the seat will be 3/4" above the
-body, then nail the two sides to the end and to the seat-back and seat.
-Glue the whole to the body. Nails can be driven up thru the body into
-the engine, the seat back, and the end, if care is used in locating
-them.</p>
-
-<p>One end of the elastic band (motor) is tied with a bit of string to a
-brad driven in the forward end of the body of the automobile. On the
-other end of the elastic band is tied a piece of string about 8" long.
-This is put just under the body and above the steering rope and wound
-two or three times tightly around the rear axle and tied. The string and
-elastic band should be simply straight, the elastic neither stretched
-nor loose. To wind up the motor, move the automobile backwards on the
-floor and hold the rear wheels until ready to let the automobile go.</p>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_86" id="Page_86">[Pg 86]</a></span></p>
-<!--File: 088.png&mdash;-\ezsha\Blue Berry\awg47\Cosmas\charliehoward\-->
-
-
-
-
-<h2><a name="BOW_PISTOL_Plate_27" id="BOW_PISTOL_Plate_27">BOW PISTOL&mdash;</a><a href = "#plate27"><span class="smcap">Plate 27</span></a>.</h2>
-
-
-<p>For target shooting in the house, this is a fine toy. With nicely made
-arrows and a good bow, it will shoot very well.</p>
-
-<p>Make a good bow of rattan, or other tough wood. An old spoke of a
-carriage wheel could doubtless be obtained of a blacksmith or
-wheelwright, and such a hickory spoke would make a good bow. Make the
-bow much like that shown on <a href = "#bow">Plate 8</a>, except that it should be round at
-the center to fit the 3/8" hole in the pistol. The bowstring should be
-a hard cord so that it will slip easily from the notches in the barrel
-when the trigger is pulled.</p>
-
-<p>Before shaping the pistol, make the groove in the center of one edge of
-the board. This should be made with a 3/8" round plane. It can be made,
-however, with the tool shown in <a href = "#fig6">Fig. 6</a>, a gouge, and a round file. This
-tool is much like the one described on <a href = "#Page_41">page 41</a> tho a larger nail is
-used. Make the groove 7/32" deep; gage a line 3/16" from each side of
-the board; then use the gouge inside these lines and as deep as the
-groove. When the gouging is well done, smooth the groove with a round
-file or coarse sandpaper wrapped around a pencil.</p>
-<div class = "figcenter"><img id = "fig6" src="images/i_088m.png" width ="200" height = "174" alt = "Figure 6" /></div>
-<p style="text-align:center">Fig. 6</p>
-
-<p>Draw and shape the pistol. Make the lower edge of the barrel half round.
-Sandpaper it well. Make the trigger of hard wood and screw it on the
-pistol. The shape of the notch next to the trigger is very important but
-the shape of the other one is not so. Both notches, however, must be so
-smooth and well rounded as not to injure the bowstring. They should be
-not deeper than one-half the depth of the groove.</p>
-
-<p>Arrows are quickly made by sawing long strips of straight-grained wood,
-3/16" square, planing the corners, and sandpapering; then cutting them
-5" long, splitting the ends (see <a href = "#Page_16">page 16</a>), inserting a paper 1" × 1/2"
-and tying the end with thread.</p>
-<p><span class="pagenum"><a name="Page_87" id="Page_87">[Pg 87]</a></span><br /></p>
-<!--File: 089.png&mdash;-\ezsha\Blue Berry\awg47\Cosmas\charliehoward\-->
-<div class = "figcenter"><img id = "plate27" src="images/i_089m.png" width ="850" height = "534" alt = "Plate 27" /></div>
-<p style = "text-align:center">BOW PISTOL&nbsp;&mdash;&nbsp;<span class="smcap">Plate 27</span><br /></p>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_88" id="Page_88">[Pg 88]</a></span></p>
-<!--File: 090.png&mdash;-\ezsha\Blue Berry\awg47\Cosmas\charliehoward\-->
-
-
-
-
-<h2><a name="ELASTIC_GUN_Plate_28" id="ELASTIC_GUN_Plate_28">ELASTIC GUN&mdash;</a><a href = "#plate28"><span class="smcap">Plate 28</span></a>.</h2>
-
-
-<p>If cash carrier elastic cord about 5/16" in diameter and 18" long is
-used on this gun, it will shoot buckshot, peas, small arrows, etc., with
-considerable force; in fact, if the cord is fastened far enough forward,
-it will require all a boy's strength to pull the rider back to the hook.
-The gun may be made of pine, whitewood or clear spruce.</p>
-<div class = "figcenter"><img id = "fig7" src="images/i_090m.png" width ="850" height = "311" alt = "Figure 7" /></div>
-
-
-<p>To lay out the gun (see <a href = "#fig7">Fig. 7</a>) first draw A B, then A C, then measure B
-D and draw C D; next measure the width of the barrel and draw E F; add
-3/8" below this for the gun-stock, and finally draw the curves freehand.
-To saw it out, first rip it along E F, then cross cut it at H F, then
-rip it as far the curve along C D, and then along the lower side of the
-gun-stock to meet C D, finally along A B. Of course, none of this sawing
-should quite touch the lines. Plane to these lines wherever possible,
-then use the spokeshave. The curve and corner at F should be pared with
-a chisel. The lower edge of the gun-stock and barrel is made half-round,
-but the upper edge, especially where the spring is screwed, is only
-slightly round. The curve at the butt of the gun-stock should be cut out
-with the turning-saw, and rounded with a half-round file. The groove can
-be made as in the bow pistol. (See <a href = "#Page_86">page 86</a>.)</p>
-
-<p>All parts of the gun should be well sandpapered, especially where the
-elastic will rub on the barrel.</p>
-
-<p>Make the trigger of tough wood.</p>
-<p><span class="pagenum"><a name="Page_89" id="Page_89">[Pg 89]</a></span><br /></p>
-<!--File: 091.png&mdash;-\ezsha\Blue Berry\awg47\Cosmas\charliehoward\-->
-<div class = "figcenter"><img id = "plate28" src="images/i_091m.png" width ="850" height = "534" alt = "Plate 28" /></div>
-<p style="text-align:center">ELASTIC GUN&nbsp;&mdash;&nbsp;<span class="smcap">Plate 28</span><br /></p>
-<p><span class="pagenum"><a name="Page_90" id="Page_90">[Pg 90]</a></span></p>
-<!--File: 092.png&mdash;-\ezsha\Blue Berry\awg47\Cosmas\charliehoward\-->
-
-<p>Bore a 1/4" hole for the trigger post about 3/4" from the back end of
-the groove, making it slant forward about 3/4". Make this hole smooth as
-possible. Where the hole comes thru the gun-stock, start the mortise in
-which the trigger belongs. This should be 3/8" deep and an easy fit for
-the trigger. Put the trigger in place, and drill a small hole straight
-thru the gun-stock and trigger. Consider carefully where to bore this
-hole so that it will not come too near the edge of the trigger. Insert a
-good-fitting brad and see if the trigger post will move up and down
-about 1/4". Do not make the mortise so long that the trigger post will
-slip by the trigger.</p>
-
-<p>Now make the spring of hard wood. Pare the curve from each end with a
-chisel, holding the spring endwise in the bench-hook. The holes for the
-screw and the hook must be large enough so that the spring will not be
-split, and yet the hook must be screwed in strongly to hold the elastic.
-The hook must be filed off enough, and slanting, so that the screw-eye
-in the rider will slide under it and be caught.</p>
-
-<p>The rider is the hardest part to make because it is small and must be of
-hard wood; also, the block must be nicely fitted into the long piece.
-Make the lower edge of the long piece round so as to slide well in the
-groove. Bore a 5/16" hole thru the block <i>endwise</i> the grain,
-countersink the ends, and smooth them so that they cannot injure the
-elastic. Next lay out, saw, and chisel a notch 5/16" deep in the long
-piece in which the block will fit snugly. Glue it and nail it from the
-under side, or put in a 1/2" screw. Holes will have to be bored
-carefully for either brads or screw. Bore a hole, and put the screw-eye
-in such a position that it will slide under the hook with a snap. Be
-careful not to twist the eye off in this hard wood. The back end of the
-eye might well be filed somewhat slanting so as to slip under the hook
-better.</p>
-
-<p>Put the elastic thru the rider, snap the rider on the hook, and pull the
-ends of the elastic as far as seems best,&mdash;don't have it too strong!
-Where the ends of the elastic are pulled, bore two 1/4" holes thru the
-barrel one above the other. Bind the elastic securely between these
-holes; to make it doubly secure, wind a string between the elastic and
-the barrel to pull the first strings closer together.</p>
-<p><span class="pagenum"><a name="Page_91" id="Page_91">[Pg 91]</a></span></p>
-<!--File: 093.png&mdash;-\ezsha\Blue Berry\awg47\Cosmas\charliehoward\-->
-
-<p>Now saw off the ends of a spool about 1/2" and screw them to the barrel
-in such a place that they will hold the elastic, without stretching,
-against the sides of the barrel. These spools should turn easily. They
-cannot be placed exactly opposite because the screws will interfere.</p>
-
-<p>Snap the rider to the hook, pull the trigger, and notice that the rider
-goes up with the trigger post. To hold it down, put a slender 3/4" screw
-on each side of the groove in such a place that the screw heads will
-come over the outside of the screw-eye; or, 1" brads may be bent over
-the screw-eye. When everything is in working order, drive a 1" brad on
-each side of the spring to keep the hook always in place.</p>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_92" id="Page_92">[Pg 92]</a></span></p>
-<!--File: 094.png&mdash;-\ezsha\Blue Berry\awg47\Cosmas\charliehoward\-->
-
-
-
-
-<h2><a name="RATTLE-BANG_GUN_Plate_29" id="RATTLE-BANG_GUN_Plate_29">RATTLE-BANG GUN&mdash;</a><a href = "#plate29"><span class="smcap">Plate 29</span></a>.</h2>
-
-
-<p>For boys who want to play soldier, here is a gun which will make a big
-noise but will not hurt anybody.</p>
-
-<p>First, make the rattle of maple. The slot in it can be made with the
-rip-saw. The solid end must be nicely squared to fit the forward end of
-the pocket cut out of the gun-stock. Here it must be held firmly in
-place by glue and two screws. One screw is put slanting from the top of
-the gun-stock; the other is put straight from the bottom. That the
-rattle may sound the loudest, it must not touch anywhere else than this
-solid end. When putting the knocker and trigger in place, see that they
-also do not touch the rattle. The gun-stock is made like that of the
-elastic gun (<a href = "#plate28">Plate 28</a>) except that it has to be 2-3/8" wide in that
-portion which holds the rattle. The pocket is 3-1/2" from the forward
-end and 1-1/2" deep where the solid part of the rattle fits. To put the
-slanting screw in nicely, a place must be cut out with a small chisel
-for its head, 3/8" deep and 1/2" away from the pocket. Clamp the rattle
-in position, bore a hole for the screw, then glue and screw the rattle
-in place. Before the glue is dry, see that the rattle is straight, then
-put the lower screw into it.</p>
-
-<p>Make the knocker of maple. The reason for the triangular notch in its
-bottom edge will be evident when the trigger is turned around. The
-stiffer the spring is, the harder, of course, it will strike the rattle,
-and also, the harder the trigger will turn; 1/8" will be thick enough
-for the thinnest place.</p>
-
-<p>The trigger should also be of maple. Join it with a cross-lap joint.
-(See <a href = "#Page_24">page 24</a>.) Then, holding each end successively upright in the vise,
-draw the slanting lines and saw for 3/8" lengthwise in such a way as to
-leave 1/16" flat on each of the two adjacent surfaces. After sawing
-endwise, saw the little corner pieces off crosswise. The trigger has to
-withstand considerable pulling, so it should fit nicely, yet easily, a
-1" screw in its center. Before screwing either the knocker or the
-trigger in place, lay both on the gun-stock so that they will engage
-properly; then mark the place for the screws, drill holes, and screw
-them on. If the knocker touches the rattle, take it off and plane a
-slanting chip or two where it is screwed to the gun-stock. A thin
-leather washer 5/8" in diameter will prevent the trigger touching. A
-little soap will make the trigger turn easier.</p>
-<p><span class="pagenum"><a name="Page_93" id="Page_93">[Pg 93]</a></span><br /></p>
-<!--File: 095.png&mdash;-\ezsha\Blue Berry\awg47\Cosmas\charliehoward\-->
-<div class = "figcenter"><img id = "plate29" src="images/i_095m.png" width ="850" height = "535" alt = "Plate 29" /></div>
-<p style="text-align:center">RATTLE-BANG GUN&nbsp;&mdash;&nbsp;<span class="smcap">Plate 29</span><br /></p>
-<p><span class="pagenum"><a name="Page_94" id="Page_94">[Pg 94]</a></span></p>
-<!--File: 096.png&mdash;-\ezsha\Blue Berry\awg47\Cosmas\charliehoward\-->
-
-<p>The barrel may well be made of a broomstick. To make it fit on the top
-of the gun-stock, saw it down the middle and cut off the lower half.
-Before fastening it in place, be sure that it will not touch the
-sounding part of the rattle.</p>
-<div class = "figcenter"><img id = "fig8" src="images/i_096m.png" width ="500" height = "219" alt = "Figure 8" /></div>
-<p style="text-align:center">Fig. 8</p>
-
-<p>A still louder and more difficult rattle to make is shown in <a href = "#fig8">Fig. 8</a>.
-Most boys would find it impossible to bore a 1" hole endwise in maple.
-The knocker and trigger would both have to be set out from the
-gun-stock.</p>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_95" id="Page_95">[Pg 95]</a></span></p>
-<!--File: 097.png&mdash;-\ezsha\Blue Berry\awg47\Cosmas\charliehoward\-->
-
-
-
-
-<h2><a name="BOAT_Plate_30" id="BOAT_Plate_30">BOAT&mdash;</a><a href = "#plate30"><span class="smcap">Plate 30</span></a>.</h2>
-
-
-<p>This boat is designed rather heavy to insure good service. It has
-ballast and beam enough to right itself even tho the sails do get wet.
-If a better looking boat is desired, draw the deck more slender; hollow
-the hull with bit and gouge; pare the gunwales with the spokeshave to
-give it some sheer; and nail on a thin deck. Soft pine is the best wood
-for the hull and spruce for the spars.</p>
-
-<p>To lay out the hull, draw a center-line lengthwise on top, bottom, and
-ends of the block of wood. Make all the measurements given on the deck;
-(top of the hull, <a href = "#plate30">Plate 30</a>) first lengthwise, then crosswise. Square
-with the deck, the curve should be worked out with rip-saw and
-spokeshave. The stem should next be undercut with the saws (rip and
-crosscut) so as to make place for the rudder. On the bottom leave a flat
-place 7-1/4" × 1/2" for the keel to fit; then round the hull as
-suggested by the sectional drawings at AB and CD.</p>
-
-<p>Make the keel and nail it securely in place. From the under side of the
-boat and slanting the same as the keel and undercut, bore a 5/8" hole
-for the stem of the rudder.</p>
-
-<p>Make the rudder and tiller of 1/4" wood. The little mortise in the
-tiller can be cut with a small chisel after a 3/16" hole is bored at its
-center. For the wheel, make a dowel about 2" long and into one end of it
-bore a hole about 1" deep for a 1-1/4" screw. Saw a piece from this end
-5/8" long and screw it to the deck about 1-1/2" in front of the hole
-bored for the rudder. The wheel should turn rather hard so as to stay in
-any position desired.</p>
-
-<p>To make the spars, (mast, boom, etc.,) follow the directions on <a href = "#Page_16">page 16</a>.
-Use large screw-eyes in the gaff and boom (or see <a href = "#plate16">Plate 16</a>, "method of
-swinging booms to mast") and a very small one at the top of the mast. To
-nail the bowsprit securely, place it 1" back of the prow, drive a 1"
-brad thru it near the prow, and one on each side of it 3/4" back. Bend
-these latter over the bowsprit before they are driven in their full
-length. An upward slant is given to the bowsprit by planing its larger
-end slanting to fit the deck.</p>
-<p><span class="pagenum"><a name="Page_96" id="Page_96">[Pg 96]</a></span></p>
-<!--File: 098.png&mdash;-\ezsha\Blue Berry\awg47\Cosmas\charliehoward\-->
-
-<p>The rudder is hung on two staples made of pins. Two headless pins are
-driven into the rudder and bent down at right angles to slip into these
-staples. In order that the stem of the rudder may turn enough, the
-rudder must be hung close to the hull. Each "rope" of the rigging should
-have its own screw-eye (or staple) and cleat on the deck. The cleat (a
-device for fastening a "rope" in any position, by winding it back and
-forth) is simply two slender brads driven slanting.</p>
-
-<p>The mainsail should be 9" on the mast and 11" at its outer edge. It
-should be hemmed and properly fastened to the spars. On the mast, fine
-wire rings or loops of thread may be used. The jib should extend 9" up
-the stay (the "rope" from the end of the bowsprit to the top of the
-mast) and be either sewed to it or made to slide on it with small rings
-of wire.</p>
-
-<p>Ballast can be cut (with tin-shears or saw) from lead pipe and nailed to
-the keel. To drive brads thru lead, pinch them between the thumb and
-finger, and drive them gently.</p>
-
-<p>For convenience in holding the boat when it is out of the water, make a
-dry dock as shown in the drawing.</p>
-<p><span class="pagenum"><a name="Page_97" id="Page_97">[Pg 97]</a></span><br /></p>
-<!--File: 099.png&mdash;-\ezsha\Blue Berry\awg47\Cosmas\charliehoward\-->
-<div class = "figcenter"><img id = "plate30" src="images/i_099m.png" width ="533" height = "850" alt = "Plate 30" /></div>
-<p style="text-align:center">BOAT&nbsp;&mdash;&nbsp;<span class="smcap">Plate 30</span><br /></p>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_98" id="Page_98">[Pg 98]</a></span></p>
-<!--File: 100.png&mdash;-\ezsha\Blue Berry\awg47\Cosmas\charliehoward\-->
-
-
-
-
-<h2><a name="PILE-DRIVER_Plate_31" id="PILE-DRIVER_Plate_31">PILE-DRIVER&mdash;</a><a href = "#plate31"><span class="smcap">Plate 31</span></a>.</h2>
-
-
-<p>In wet, soft soil, wherever any building operations are to be
-undertaken, long, straight logs called piles have first to be driven to
-support the foundation. In wet soil they never rot; those driven for the
-building of Venice centuries ago are still solid. If holes are bored in
-the weight of this toy pile-driver, it is made more effective.</p>
-
-<p>This is not a difficult model if each part is well made. It is
-important, however, to nail it in the following order: Runs to uprights,
-uprights to sides, sides to base, top to uprights, braces to uprights,
-then to base. The ends of the braces are mitered, that is, sawed, like
-the corner of a picture-frame, on the diagonal of a square. The axle of
-the little spool is made by two 1" brads, and it rests in notches as
-near the end of the top blocks as is convenient to file them. It is held
-in place by little brads, or pins crossed over it, or by a staple made
-of a pin. A crank for the big spool (called the drum) is made of a 3"
-piece of stiff wire. It should be flattened enough not to turn in the
-drum. Fasten the string to the drum thru a little hole drilled thru its
-rim. If the string comes off the upper spool, put a large screw-eye into
-the top piece and pass the string thru it.</p>
-<p><span class="pagenum"><a name="Page_99" id="Page_99">[Pg 99]</a></span><br /></p>
-<!--File: 101.png&mdash;-\ezsha\Blue Berry\Quister\Cosmas\tunelera\-->
-<div class = "figcenter"><img id = "plate31" src="images/i_101m.png" width ="850" height = "535" alt = "Plate 31" /></div>
-<p style="text-align:center">PILE DRIVER&nbsp;&mdash;&nbsp;<span class="smcap">Plate 31</span><br /></p>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_100" id="Page_100">[Pg 100]</a></span></p>
-<!--File: 102.png&mdash;-\ezsha\Blue Berry\Quister\Cosmas\tunelera\-->
-
-
-
-
-<h2><a name="WINDMILL_Plate_32" id="WINDMILL_Plate_32">WINDMILL&mdash;</a><a href = "#plate32"><span class="smcap">Plate 32</span></a>.</h2>
-
-
-<p>On a hilltop, exposed to every wind that blows, one of these windmills
-made by a boy has been spinning around for four years. The windmill in
-this form serves also as a weathervane. Pine is the best wood for this
-model. To withstand the weather, the model should be painted.</p>
-
-<p>After planing the post to size, lay out the chamfers (see <a href = "#Page_32">page 32</a>) with
-a pencil on all four sides. The curve should be cut with a knife; the
-upper part may be planed if the square part is not squeezed in the vise.
-Plane the two pieces for the vanes as accurately as possible so as to be
-able to make a good joint. Lay out and cut this joint as directed on
-<a href = "#Page_24">page 24</a>. After it is well fitted, draw the curves where the edges are to
-be whittled away. There are sixteen of them. Open the compass 3/4" and
-place the needle point always on the <i>front right-hand</i> edge as the
-wheel turns around. The curve begins 1/8" from the joint and ends 1/8"
-from the back edge (one also goes towards the lower edge). From this
-point draw a straight line to the end of the vane. Draw such lines as
-explained on <a href = "#Page_32">page 32</a>. Take the joint apart and whittle the edges away to
-these curves.</p>
-
-<p>On the beam, make chamfers 1-3/4" long. At the rear end, on the top and
-bottom, draw a center-line and two lines on each side of the center-line
-1/8" apart. Between the first two, nearest the center-line, make the
-V-shaped groove in which the rudder fits. The sides of the beam are to
-be pared away to the other two lines, leaving this end 1/2" wide.</p>
-
-<p>The curves at the rear end of the rudder can be sawed best with a scroll
-saw. Lacking that, proceed as follows: First, bore a 1/4" hole near the
-short straight line in the middle. Resting the rudder on a cutting
-board, pare to this line with a chisel. Next, saw straight from the end
-of the rudder to this straight line; then saw the corners, and pare to
-the curves. The width of the notch at the front end of the rudder is
-equal to the space left between the roots of the V-shaped notches in the
-beam. Measure this space, lay out the notch, saw, and chisel it; then
-pare the corners so as to fit the V-shaped notches in the beam. Beware
-of crowding the rudder, for it will split easily. When fitted, glue and
-nail it in place, slanting a 1" brad thru the curve into the beam.</p>
-<p><span class="pagenum"><a name="Page_101" id="Page_101">[Pg 101]</a></span><br /></p>
-<!--File: 103.png&mdash;-\ezsha\Blue Berry\awg47\Cosmas\tunelera\-->
-<div class = "figcenter"><img id = "plate32" src="images/i_103m.png" width ="533" height = "850" alt = "Plate 32" /></div>
-<p style="text-align:center">WINDMILL&nbsp;&mdash;&nbsp;<span class="smcap">Plate 32</span><br /></p>
-<p><span class="pagenum"><a name="Page_102" id="Page_102">[Pg 102]</a></span></p>
-<!--File: 104.png&mdash;-\ezsha\Blue Berry\awg47\Cosmas\tunelera\-->
-
-<p>Put the wheel on the beam with two washers and a large screw (2" No. 12
-round head is a good one). For this screw bore a 1/4" hole thru the
-center of the wheel, and a smaller hole in the beam. Now balance the
-windmill on the top of the post, and put the beam and post together with
-washers and screw in the same manner.</p>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_103" id="Page_103">[Pg 103]</a></span></p>
-<!--File: 105.png&mdash;-\ezsha\Blue Berry\Quister\Cosmas\tunelera\-->
-
-
-
-
-<h2><a name="KITE-STRING_REEL_Plate_33" id="KITE-STRING_REEL_Plate_33">KITE-STRING REEL&mdash;</a><a href = "#plate33"><span class="smcap">Plate 33</span></a>.</h2>
-
-
-<p>A boy who flies kites will appreciate this reel for hauling in his kite
-quickly and keeping the string in order. The axle is made long for the
-purpose of putting on a brake when letting out a kite. The brake is
-simply a strong cord, fastened to a screw in the lower part of the
-further upright, (as viewed in <a href = "#plate33">Plate 33</a>) wound several times around the
-axle, and the other end held in the hand. A 1" hole is bored in the base
-so that the reel can be anchored to the ground with a stake. With a loop
-of string fastened to the upright below the crank, the crank can be kept
-from turning, if one does not wish to let out all of the kite-string.</p>
-
-<p>Make the base first, then the uprights. In the uprights, it is more
-convenient to bore the 9/16" holes before the sides are planed slanting.
-After the wheel pieces are joined in the manner explained on page 24,
-lay out the slanting lines on each arm while the joint is still
-together; then take it apart and plane to the slanting lines. Hold each
-piece securely slantwise in the vise, because one pair especially is apt
-to split from the notch outward. When this planing is finished, glue the
-joint and bore a 1/2" hole straight thru the center. If convenient, make
-the cross pieces in one long piece, 20", planing off one corner flat
-(see sectional drawing, <a href = "#plate33">Plate 33</a>) within 1/8" of the two adjacent
-corners. Being careful to drive no brad into the 1/2" hole, glue and
-nail these four cross pieces to one wheel. Then glue them to the other
-wheel and wind some string around tightly enough to hold this wheel
-while adjusting and nailing it. It will require care to get the cross
-pieces square with the first wheel, and the second wheel parallel with
-the first. After the string is wound around to hold the second wheel,
-measure the distance from wheel to wheel at the ends of all the arms.
-The nailing can be done while one arm of the wheels is held in the vise.
-The axle and handle should be glued and nailed to the crank. Now put the
-reel together, not forgetting the washers inside the uprights, and lock
-the wheels to the axle by drilling a hole for a 2" nail thru cross
-piece, wheel, and axle.</p>
-<p><span class="pagenum"><a name="Page_104" id="Page_104">[Pg 104]</a></span><br /></p>
-<!--File: 106.png&mdash;-\ezsha\Blue Berry\awg47\gilmoria\tunelera\-->
-<div class = "figcenter"><img id = "plate33" src="images/i_106m.png" width ="850" height = "536" alt = "Plate 33" /></div>
-<p style="text-align:center">KITE STRING REEL&nbsp;&mdash;&nbsp;<span class="smcap">Plate 33</span><br /></p>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_105" id="Page_105">[Pg 105]</a></span><br /></p>
-<!--File: 107.png&mdash;-\ezsha\Blue Berry\awg47\gilmoria\tunelera\-->
-<div class = "figcenter"><img id = "plate34" src="images/i_107m.png" width ="850" height = "534" alt = "Plate 34" /></div>
-<p style="text-align:center">STRING MACHINE&nbsp;&mdash;&nbsp;<span class="smcap">Plate 34</span><br /></p>
-<p><span class="pagenum"><a name="Page_106" id="Page_106">[Pg 106]</a></span></p>
-<!--File: 108.png&mdash;-\ezsha\Blue Berry\awg47\gilmoria\tunelera\-->
-
-
-
-
-<h2><a name="STRING_MACHINE_Plate_34" id="STRING_MACHINE_Plate_34">STRING MACHINE&mdash;</a><a href = "#plate34"><span class="smcap">Plate 34</span></a>.</h2>
-
-
-<p>On a machine like this, one can twist bowstrings, topstrings,
-fish-lines, silk cord for fancy work, and any similar cord. Tho designed
-to be held on the floor or table with flat-irons, clamps, of course,
-will hold it better.</p>
-
-<p>Make the tail piece first. In the cross pieces of the tail piece are two
-screws 7/8" from the ends; be careful to bore the holes large enough so
-the screws will not split them. The edges of the lower cross piece must
-be sandpapered enough not to cut the elastic bands.</p>
-
-<p>In order that the belt shall run on the center of the wheels in the head
-piece, it is important to have the three axles parallel. To make them
-so, the two uprights must be clamped together while boring the 3/8"
-holes for the axles. Lest the spur of the bit split the uprights, drill
-small holes at each center first. Do not nail the longer upright to the
-base until the belt runs well in both directions. On a lathe, the wheels
-and axles could easily be made of one piece; lacking a lathe, a big
-spool or curtain pole must be used. Plug the hole of the spool with a
-dowel, then very accurately find its center and bore a 3/8" hole thru
-it. Saw it into three 5/8" pieces for the wheels. Glue these to the
-axles so that 1" extends thru the taller upright. A belt runs better on
-a wheel that is "crowned," that is, slightly larger in the middle; so
-the edges of these wheels must be pared 1/32", making a gentle curve.
-Put the washers each side of the wheels, then put the wheels in place in
-the taller upright, and nail this to the triangular block. Pull a 5/8"
-leather belt tightly around the three wheels and sew the ends so that
-they butt together. Clamp the shorter upright in position and turn the
-upper axle to see if the belt runs well in both directions. It will run
-true when all three axles are parallel, so keep knocking the shorter
-upright from side to side or up and down until the belt does run true;
-then bore holes for three screws to hold it to the triangular block.
-Make the crank and lock it to the upper axle with a 1/2" screw.</p>
-
-<p>To twist a string, set the two parts of the machine somewhat farther
-apart than the finished length desired, put on as many
-<span class="pagenum"><a name="Page_107" id="Page_107">[Pg 107]</a></span>
-<!--File: 109.png&mdash;-\ezsha\Blue Berry\Quister\gilmoria\tunelera\-->
-threads, from hooks on the tail piece to corresponding hooks on the head
-piece, as will make the finished string the desired size. Observe how
-these separate threads were twisted, and start the machine in the
-<i>opposite</i> way. Twist until the three strands kink readily when the head
-piece is brought nearer the tail piece. The tighter these are twisted,
-the harder the string will be. (Soap rubbed on the inside of the belt
-may make the belt carry more power). When these three strands are
-twisted enough, remove the two lower ones from their <i>hooks on the head
-piece</i> to the upper hook. Twist in the <i>opposite</i> direction until the
-string kinks again, and it is made. If the three strands are waxed, a
-stronger string will be made.</p>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_108" id="Page_108">[Pg 108]</a></span></p>
-<!--File: 110.png&mdash;-\ezsha\Blue Berry\Quister\gilmoria\tunelera\-->
-
-
-
-
-<h2><a name="WINDMILL_FORCE-PUMP_Plate_35" id="WINDMILL_FORCE-PUMP_Plate_35">WINDMILL FORCE-PUMP&mdash;</a><a href = "#plate35"><span class="smcap">Plate 35</span></a>.</h2>
-
-
-<p>If this pump is properly connected with an air chamber, as explained
-later, it will send a small stream of water some ten feet. In a gale,
-the windmill is strong enough, in fact, to force the valves from the
-glass tubes. Like any model of considerable mechanism, this will require
-patience to get it in working order. The post is made short for
-stability. If it can be held in place firmly, a trestlework tower like a
-real windmill might be built of stock 1/2" × 1/2" for the corner posts
-and 1/2" × 1/8" for the braces.</p>
-
-<p>The post is slanting on two sides to fit the journals at the top. It is
-fastened to the base with two 2" screws. Make the wheel center 2-1/8"
-square, and thru its center bore a 1/4" hole. If it does not revolve
-true, make another block and try again. Make the block octagonal by
-cutting off each corner 5/8". On each of the eight faces saw notches
-1/8" wide and 5/16" deep into which the vanes will fit. (See <a href = "#Page_64">page 64</a> on
-cutting notches.) Make and glue the vanes in place and lay the wheel
-flat to dry.</p>
-
-<p>Procure three pieces of water-gage glass 2" long, 7/16" to 1/2" inside
-diameter. Glass tubes can be broken apart by filing a slight notch,
-grasping the tube firmly each side of the notch, and pulling and bending
-the tube away from the notch. If the file starts a little break, this
-will be comparatively easy, if it does not, file some more. Into two
-tubes little valves must be cemented. These can be made of a firm piece
-of leather. Sole leather that is not too hard is best. With knife or
-chisel, pare two pieces on the cutting board to fit in the tubes. The
-cement will make them water tight later. Push the sharp point of a
-penknife into the smooth side of the leather disk and make a circular
-cut, as one would remove a speck from an apple, but do not cut the flap
-completely out, because it must be left hinged to the disk. Turn this
-flap up straight out of the way so as to be able to work a 1/4" hole
-thru the disk. This can be punched, drilled, or cut out with a 1/8"
-chisel, and finished with a penknife. Of course, the edges of the flap
-should cover this hole completely. The valve in the lowest tube should
-be cemented about 1/2" from the lower end with the flap up, that in the
-horizontal tube about 3/4" from the outer end with the flap out.</p>
-<p><span class="pagenum"><a name="Page_109" id="Page_109">[Pg 109]</a></span><br /></p>
-<!--File: 111.png&mdash;-\ezsha\Blue Berry\Quister\gilmoria\tunelera\-->
-<div class = "figcenter"><img id = "plate35" src="images/i_111m.png" width ="850" height = "537" alt = "Plate 35" /></div>
-<p style="text-align:center">WINDMILL FORCE-PUMP&nbsp;&mdash;&nbsp;<span class="smcap">Plate 35</span><br /></p>
-<p><span class="pagenum"><a name="Page_110" id="Page_110">[Pg 110]</a></span></p>
-<!--File: 112.png&mdash;-\ezsha\Blue Berry\Quister\gilmoria\tunelera\-->
-
-<p>To make sealing-wax sticky enough to cement these valves in the tubes,
-melt one teaspoon of wax with one-half teaspoon of turpentine in a large
-spoon, and allow it to cool. Break it in pieces small enough to go in
-the tubes. Put the valve in the tube a little to one side of its final
-position; put in some of the wax mixture; heat the tube in an alcohol
-flame, rolling the tube till the wax begins to melt; remove from the
-flame; and when the wax is all melted, push the valve to its final
-position with a pencil. While it is cooling, see that the wax does not
-flow into the valve. All three tubes must have a piece of rubber tubing
-on the outside to serve as packing in the wooden block. With an
-expansive bit, holes can be bored in the block so that the rubber tubing
-will fit tightly. Lacking that, bore a smaller hole and enlarge it with
-a round file. The center of the vertical hole is somewhat to the left
-(as viewed in <a href = "#plate35">Plate 35</a>) of the center of the block to allow the
-horizontal tube more support. This will require the notch in the upright
-also to be to the left of the center. After the holes are bored, the
-pores of the wood must be filled with paraffin. In a little dish, melt
-some paraffin and put it into the holes with a rag tied to a stick. When
-the holes are well covered, drive the wax into the wood with an alcohol
-or candle flame held in the hole till the wood is fairly hot. The
-outside of the block might well be treated in like manner. It will be
-best to cement these tubes in their places. Melt a tablespoon of sealing
-wax with about as much turpentine. With this, not too hot, build up a
-good fillet over the rubber tubing 1/4", perhaps, on the glass tubes.</p>
-
-<p>Make a good fitting piston for the upper tube; it must not slide hard
-(oil it) and yet it must be air tight. To make the piston file two
-grooves 1/2" apart around and near the end of the piston rod. Wind a
-hummock of yarn between these grooves till it almost fills the tube,
-then wrap a piece of soft cloth (knitted underwear) smoothly over the
-hummock, tying it in each groove with thread.</p>
-
-
-
-<p><span class="pagenum"><a name="Page_111" id="Page_111">[Pg 111]</a></span></p>
-
-<!--File: 113.png&mdash;-\ezsha\Blue Berry\Quister\gilmoria\tunelera\-->
-
-<p>Lock the crank to the axle with a 1/2" screw. Adjust the axle and keep
-it in position with two leather washers locked to the axle just outside
-the journals. Clamp the block to the base, adjust it in line with the
-crank, and fasten it with two 1-1/2" screws up thru the base. The last
-connection to make is between the crank and connecting-rod. To make
-this, raise the piston to its highest position, and turn the crank to
-its lowest; choose what seems the best point for the screw, marking the
-point on crank and connecting-rod; now lower the piston and raise the
-crank; if the two points do not come together, the screw should be
-placed half way between them. This screw should be tight in the crank.
-The wheel can now be glued to the axle or locked with a brad slanting
-from the front of the wheel center.</p>
-
-<p>Before they will work, the valves must be made limber with water, and to
-start the pump, water may have to be put on each side of the valves.
-Water may be pumped to any height by fastening a pipe to the horizontal
-tube. To obtain a steady stream, like a fire-engine, connect the
-horizontal tube with an air-tight bottle. The pipe which goes into this
-bottle should reach just below the stopper. The outlet pipe should
-nearly reach the bottom of the bottle, and it should have a nozzle
-smaller than any other opening in the whole apparatus. The bottle should
-be partly full of water. Quarter-inch glass tubing can be melted and
-shaped in an alcohol flame, and, if some rubber tubing is used as a
-connection, the nozzle can be played anywhere.</p>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_112" id="Page_112">[Pg 112]</a></span></p>
-<!--File: 114.png&mdash;-\ezsha\Blue Berry\awg47\gilmoria\tunelera\-->
-<p>&nbsp;<br/></p>
-<p><span class="pagenum"><a name="Page_113" id="Page_113">[Pg 113]</a></span></p>
-<!--File: 115.png&mdash;-\ezsha\Blue Berry\awg47\Cosmas\tunelera\-->
-
-
-
-
-<h2><a name="BOOKS_for_BOYS" id="BOOKS_for_BOYS">BOOKS <i>for</i> BOYS</a></h2>
-
-
-<h3>Especially Helpful for the Use of Boys in their Home Shops</h3>
-
-
-<p>BEGINNING WOODWORK, At Home and in School.</p>
-
-<p><i>By Clinton S. VanDeusen.</i></p>
-
-<p>A full and clear description in detail of the fundamental processes of
-elementary benchwork in wood. This description is given thru directions
-for making a few simple, useful articles, suitable either for school or
-home problems. The book contains more than one hundred original sketches
-and ten working drawings. Price, $1.00.</p>
-
-
-<p>MANUAL TRAINING TOYS, for the Boys' Workshop.</p>
-
-<p><i>By Harris W. Moore.</i></p>
-
-<p>This book contains a collection of working drawings illustrating
-forty-two projects, overflowing with "boy" interest. It is a popular
-boys' book that is truly educational. The projects are all new in the
-manual training shop. The text gives instructions for making each
-project and treats of tools and tool processes. Price, $1.00.</p>
-
-
-<p><i>The</i> CONSTRUCTION <i>and</i> FLYING <i>of</i> KITES.</p>
-
-<p><i>By Charles M. Miller.</i></p>
-
-<p>A book of unusual interest to the boy. It contains seven full-page
-plates of drawings of kites and fifteen figures&mdash;over forty kites shown.
-Details of construction are given and a kite tournament is described.
-Full of interesting suggestions. Price, 20 cents.</p>
-
-
-<p>ESSENTIALS <i>of</i> WOODWORKING.</p>
-
-<p><i>By Ira S. Griffith.</i></p>
-
-<p>A textbook written especially for the use of grammar and high school
-students. A clear and comprehensive treatment of woodworking tools,
-materials, and processes, to supplement, but not to take the place of
-the instruction given by the teacher. The book does not contain a course
-of models; it may be used with any course. It is illustrated with
-photographs and numerous pen drawings. Price, $1.00.</p>
-
-
-<h3>THE MANUAL ARTS PRESS</h3>
-
-<h4>PEORIA, ILLINOIS</h4>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_114" id="Page_114">[Pg 114]</a></span></p>
-<!--File: 116.png&mdash;-\ezsha\Blue Berry\Quister\Cosmas\tunelera\-->
-
-
-
-
-<h2><a name="BOOKS_for_BOYS_2" id="BOOKS_for_BOYS_2">BOOKS <i>for</i> BOYS</a></h2>
-
-
-<h3>The "Problems Series" of Working Drawings, Good for Either Home or
-School Use</h3>
-
-
-<p>PROJECTS <i>for</i> BEGINNING WOODWORK <i>and</i> MECHANICAL DRAWING.</p>
-
-<p><i>By Ira S. Griffith.</i></p>
-
-<p>A work book for the use of students in grammar grade classes. It
-consists of working drawings and working directions. The projects are
-such as have proven of exceptional service where woodworking and
-mechanical drawing are taught in a thoro, systematic manner in the
-seventh and eighth grades. The aim has been to provide successful rather
-than unique problems. The fifty projects in the book have been selected
-and organized with the constant aim of securing the highest educational
-results. The book is especially suited for use in connection with
-"Essentials of Woodworking" by the same author. Price, 75 cents.</p>
-
-
-<p>PROBLEMS <i>in</i> WOODWORKING.</p>
-
-<p><i>By M. W. Murray.</i></p>
-
-<p>A convenient collection of good problems consisting of forty plates
-bound in heavy paper covers with brass fasteners. Each plate is a
-working drawing, or problem in benchwork that has been successfully
-worked out by boys in one of the grades from seven to nine inclusive.
-Price, 75 cents. Board covers, 95 cents.</p>
-
-
-<p>ADVANCED PROJECTS <i>in</i> WOODWORK.</p>
-
-<p><i>By Ira S. Griffith.</i></p>
-
-<p>This book is similar to "Projects for Beginning Woodwork and Mechanical
-Drawing," but is suited to high school needs. It consists of fifty
-plates of problems and accompanying notes. It is essentially a
-collection of problems in furniture making selected or designed with
-reference to school use. On the plate with each working drawing is a
-good perspective sketch of the completed object. In draftsmanship and
-refinement of design these problems are of superior quality. It is in
-every respect an excellent collection. Price, $1.00.</p>
-
-<h3>THE MANUAL ARTS PRESS</h3>
-
-<h4>PEORIA, ILLINOIS</h4>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_115" id="Page_115">[Pg 115]</a></span></p>
-<!--File: 117.png&mdash;-\ezsha\Blue Berry\Quister\Cosmas\tunelera\-->
-
-
-
-
-<h2><a name="BOOKS_for_BOYS_3" id="BOOKS_for_BOYS_3">BOOKS <i>for</i> BOYS</a></h2>
-
-
-<h3>The "Problems Series" of Working Drawings Good for Either Home or School
-Use</h3>
-
-
-<p>PROBLEMS <i>in</i> FURNITURE MAKING.</p>
-
-<p><i>By Fred D. Crawshaw.</i></p>
-
-<p>This book, revised and enlarged, consists of 43 full-page plates of
-working drawings suitable for use in grammar and high schools and 36
-pages of text, including chapters on design, construction and finishes,
-and notes on the problems. Each project is shown in its completed form
-by a perspective sketch. Loose leaf, bound in board covers with brass
-fasteners. Price, $1.00.</p>
-
-
-<p>PROBLEMS <i>in</i> WOOD-TURNING.</p>
-
-<p><i>By Fred D. Crawshaw.</i></p>
-
-<p>In the first place this is a book of problems&mdash;25 plates covering
-spindle, faceplate, and chuck turning. In the second place it is a
-textbook on the science and art of wood-turning illustrated by fifty pen
-sketches. It gives the mathematical basis for the cuts used in turning.
-In the third place it is a helpful discussion of the principles of
-design as applied to objects turned in wood. It is a clear, practical
-and suggestive book on wood-turning. Price, 80 cents. Board covers,
-$1.00.</p>
-
-
-<p>PROBLEMS <i>in</i> MECHANICAL DRAWING.</p>
-
-<p><i>By Charles A. Bennett.</i> With drawings made by Fred D. Crawshaw.</p>
-
-<p>This book consists of 80 plates and a few explanatory notes, and is
-bound in heavy paper covers with brass fasteners. Its purpose is to
-furnish teachers of classes beginning mechanical drawing with a large
-number of simple, practical problems. These have been selected with
-reference to the formation of good habits in technique, the interest of
-the pupils, and the subjects generally included in a grammar and
-first-year high school course. Each problem given is unsolved and
-therefore in proper form to hand to the pupil for solution. Price,
-$1.00. Board covers, $1.20.</p>
-
-
-<h3>THE MANUAL ARTS PRESS</h3>
-
-<h4>PEORIA, ILLINOIS</h4>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_116" id="Page_116">[Pg 116]</a></span></p>
-<!--File: 118.png&mdash;-\ezsha\Blue Berry\Quister\Cosmas\tunelera\-->
-
-
-
-
-<h2><a name="BOOKS_for_BOYS_4" id="BOOKS_for_BOYS_4">BOOKS <i>for</i> BOYS</a></h2>
-
-
-<h3>Some Choice Books for Home or School Libraries</h3>
-
-
-<p>HANDWORK <i>in</i> WOOD.</p>
-
-<p><i>By William Noyes.</i></p>
-
-<p>A handbook for teachers and a textbook for normal school and college
-students. A comprehensive and scholarly treatise, covering logging,
-sawmilling, seasoning and measuring, hand tools, wood fastenings,
-equipment and care of the shop, the common joints, types of wood
-structures, principles of joinery, and wood finishing. 304
-illustrations&mdash;excellent pen drawings and many photographs. Price,
-$2.00.</p>
-
-
-<p>WOOD <i>and</i> FOREST.</p>
-
-<p><i>By William Noyes.</i></p>
-
-<p>A companion volume to "Handwork in Wood," by the same author. Especially
-adapted as a reference book for teachers of woodworking. Not too
-difficult for use as a textbook for normal school and college students.
-Treats of wood, distribution of American forests, life of the forest,
-enemies of the forest, destruction, conservation and uses of the forest,
-with a key to the common woods by Filibert Roth. Describes 67 principal
-species of wood with maps of the habitat, leaf drawings, life size
-photographs and microphotographs of sections. Contains a general
-bibliography of books and articles on wood and forest. Profusely
-illustrated with photographs from the United States forest service and
-with pen and ink drawings by Anna Gausmann Noyes and photographs by the
-author. 309 pages. Price, $3.00.</p>
-
-
-<p>BOOKS <i>on the</i> MANUAL ARTS.</p>
-
-<p>A catalog listing and describing 260 books on the manual arts, including
-all the standard and the best of the recent publications. It is an
-up-to-date bibliography and a valuable reference book for teachers,
-librarians and all interested in manual, industrial, and vocational
-education. Mailed free on request.</p>
-
-
-<h3>THE MANUAL ARTS PRESS</h3>
-
-<h4>PEORIA, ILLINOIS</h4>
-<div class = "home"><a href = "#CONTENTS">Back to Contents</a></div>
-<p><span class="pagenum"><a name="Page_117" id="Page_117">[Pg 117]</a></span></p>
-<!--File: 119.png&mdash;-\ezsha\Blue Berry\awg47\Cosmas\tunelera\-->
-<p>&nbsp;</p>
-
-
-
-
-
-
-
-
-<pre>
-
-
-
-
-
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-</body>
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@@ -1,3055 +0,0 @@
-The Project Gutenberg EBook of Manual Training Toys for the Boy's Workshop, by
-Harris W. Moore
-
-This eBook is for the use of anyone anywhere at no cost and with
-almost no restrictions whatsoever.  You may copy it, give it away or
-re-use it under the terms of the Project Gutenberg License included
-with this eBook or online at www.gutenberg.org/license
-
-
-Title: Manual Training Toys for the Boy's Workshop
-
-Author: Harris W. Moore
-
-Release Date: November 2, 2012 [EBook #41268]
-
-Language: English
-
-Character set encoding: ASCII
-
-*** START OF THIS PROJECT GUTENBERG EBOOK MANUAL TRAINING TOYS ***
-
-
-
-
-Produced by Chris Curnow, Paul Mitchell and the Online
-Distributed Proofreading Team at http://www.pgdp.net (This
-file was produced from images generously made available
-by The Internet Archive)
-
-
-
-
-
-Transcriber's Note. In the section SAND WHEEL--PLATE 21, third
-paragraph, the word "on" was added as the most likely word to correct
-a typographical omission and "drawn" changed to "draw". Otherwise only a
-very few minor typographical errors have been corrected.
-
-
-
-
-[Illustration: TESTING THE KITE-STRING SAILBOAT]
-
-
-
-
-                          MANUAL TRAINING TOYS
-                        _for_ THE BOY'S WORKSHOP
-
-                          _By_ HARRIS W. MOORE
-
-                     SUPERVISOR OF MANUAL TRAINING
-
-                        WATERTOWN, MASSACHUSETTS
-
-                             [Illustration]
-
-                         THE MANUAL ARTS PRESS
-                            PEORIA, ILLINOIS
-
-
-
-
-                               DEDICATED
-                          TO THE BOY WHO LIKES
-                            TO TINKER 'ROUND
-
-
-
-
-                            Copyright, 1912
-                            HARRIS W. MOORE
-
-
-
-
-CONTENTS.
-
-
-  Frontispiece      Testing the Kite-string Sailboat
-
-  Introduction--                             PAGE.
-
-      Bench, Marking Tools                     7
-
-      Saws                                     8
-
-      Planes, Bits, Nails                      9
-
-      Screws, Glue                            10
-
-      Sandpaper, Dowels, Drills, Sharpening   11
-
-      Holding Work                            12
-
-      Directions for Planing                  13
-
-  Dart                                        16
-
-  Spool Dart                                  18
-
-  Dart for Whip-Bow                           19
-
-  Buzzer                                      20
-
-  Flying Top (Plate 3)                        22
-
-  Flying Top (Plate 4)                        24
-
-  Top                                         26
-
-  Tom-Tom Drum                                28
-
-  Pop-gun                                     30
-
-  Whistle                                     32
-
-  Arrow                                       33
-
-  Bow                                         34
-
-  Sword                                       36
-
-  Magic Box                                   38
-
-  Pencil-Box                                  41
-
-  Telephone                                   42
-
-  Happy Jack Windmill                         44
-
-  Gloucester "Happy Jack" Windmill            46
-
-  Paddling Indian Windmill                    48
-
-  Kite                                        50
-
-  Tailless Kite                               53
-
-  Box Kite                                    54
-
-  Kite-String Sailboat                        56
-
-  The Hygroscope or Weather Cottage           59
-
-  Electrophorus                               62
-
-  Waterwheel                                  64
-
-  Water Motor                                 67
-
-  Sand Wheel                                  70
-
-  Running Wheel                               73
-
-  Rattle                                      76
-
-  Cart                                        78
-
-  Cannon                                      81
-
-  Automobile                                  84
-
-  Bow Pistol                                  86
-
-  Elastic Gun                                 88
-
-  Rattle-Bang Gun                             92
-
-  Boat                                        95
-
-  Pile-Driver                                 98
-
-  Windmill                                   100
-
-  Kite-String Reel                           103
-
-  String Machine                             106
-
-  Windmill Force-Pump                        108
-
-
-
-
-                             INTRODUCTION.
-
-
-The wise man learns from the experience of others. That is the reason
-for this introduction--to tell the boy who wants to make the toys
-described in this book some of the "tricks of the trade." It is
-supposed, however, that he has had some instruction in the use of tools.
-
-This book is written after long experience in teaching boys, and because
-of that experience, the author desires to urge upon his younger readers
-two bits of advice: First, study the drawing carefully,--every line has
-a meaning; second, printed directions become clearer by actually taking
-the tool in hand and beginning to do the work described.
-
-
-                                 BENCH.
-
-If he buys the vise-screw, an ambitious boy can make a bench that will
-answer his needs, provided, also, that he can fasten it to floor or
-wall. It should be rigid. A beginner will find a hard wood board,
-10"x2"x1/4", fastened to the forward end of the bench, a more convenient
-stop than the ordinary bench-dog. If he has a nicely finished bench, he
-should learn to work without injuring the bench. A _cutting board_
-should always be at hand to chisel and pound upon and to save the
-bench-top from all ill use. The _bench-hook_ should have one side for
-sawing and one for planing, the former having a block shorter than the
-width of the board so that the teeth of the saw, when they come thru the
-work, will strike the bench-hook rather than the bench-top.
-
-
-                             MARKING TOOLS.
-
-To measure accurately, hold the _ruler_ on its edge so that the
-divisions on the scale come close to the thing measured. Let the pencil
-or knife point make a dash on the thing measured which would exactly
-continue the division line on the ruler. If it can be avoided, never use
-the end of the ruler; learn to measure from some figure on the ruler.
-
-The spur of the _gage_ should be filed like a knife point. It seldom
-stands at zero of the scale, hence, when setting the gage for accurate
-work, measure from the block to the spur with a ruler. The gage is a
-rather difficult tool for a boy to use but it will pay to master it. It
-may be used wherever square edges are to be made, but chamfers and
-bevels should be marked with a pencil.
-
-In laying out work, the beam (the thick part) of the _trysquare_ should
-always be kept on either the working-face or the working-edge. (See page
-13, Directions for Planing.) Let the blade rest flat on any surface.
-Hold the trysquare snugly to the work with the fingers and thumb acting
-much like a bird's claw.
-
-For accurate work (e. g. joints), lines should be drawn (scored) with
-the sharp point of a small _knife_ blade, held nearly straight up from
-the edge of the trysquare blade.
-
-Circles are located by two lines crossing at the center.
-
-
-                                 SAWS.
-
-The teeth of a _rip-saw_ are like so many little chisels set in a row;
-they pare the wood away. The teeth of a _crosscut-saw_ are like knife
-points, they score two lines, and the wood breaks off between them.
-Large sawing should be done on a saw-horse so that the worker is over
-his work. If it is necessary to hold work in the vise to rip it, hold it
-slanting, so that the handle of the saw leads the line, as it naturally
-does when the work is on a saw-horse.
-
-The _back-saw_, tho a crosscut-saw, may be used in any direction of the
-grain.
-
-Any saw should be in motion when it touches the wood it is to cut. To
-guide it to the right place, a workman lets his thumb touch the saw just
-above the teeth, the hand resting firmly on the wood. A little notch,
-cut in the edge right to the line where the saw is to cut, will help a
-beginner to start accurately. Saws are rapid tools, and it pays to go
-slowly enough with them to do accurate work. Plan the work so as to make
-as few cuts as possible.
-
-_Turning-saws_ are best used so that the cutting is done on the pull
-stroke, keeping the two hands near together. When one handle is turned,
-the other must be turned equally.
-
-
-                                PLANES.
-
-Generally being in a hurry to get work done, boys are apt to take big
-shavings with a plane. This results in rough work. Fine shavings are
-better. If the plane is allowed to rest level on the work, it will find
-the high places without continual adjusting. The first two inches of a
-stroke are the hardest to plane; to plane these, press harder on the
-forward end of the plane. Start the plane level. Usually it is best to
-keep the plane straight, or nearly so, in the direction of the push.
-
-The _block-plane_ is properly used to plane the end of wood. (See page
-12 on Holding Work.) On other small surfaces, however, it is often more
-convenient than a large plane.
-
-
-                                 BITS.
-
-_Auger-bits_ are numbered by the number of sixteenths in the diameter of
-the hole they bore, e. g. No. 4 bores a 4/16" hole. _Gimlet-bits_ are
-numbered by thirty-seconds.
-
-Whenever boring with an auger-bit, stop as soon as the spur pricks thru
-the other side, turn the work over, start the spur in the little hole it
-made, and finish boring. It will always split the wood, if the bit is
-allowed to go way thru. It is difficult to bore a hole straight thru a
-piece of wood, because to tell whether the bit is held straight when
-starting the hole, one must look at it from two directions. If someone
-else can stand a quarter circle away from the worker and watch the bit,
-that is the best help; otherwise, the worker himself must hold the brace
-steady while he walks around a quarter circle and judges whether the bit
-is straight. Care should be taken to hold the work level in the vise.
-
-
-                                 NAILS.
-
-The words, "nail," "brad," and "nailing" are used somewhat
-interchangeably in this book; "nailing" may mean driving a brad. Brads
-have smaller, thicker heads, nails have larger, flat heads.
-
-To drive a nail straight, start it straight. The hole cannot be
-straightened by bending the nail so that it looks straight after it is
-partly driven. Many gentle blows with the _hammer_ will often drive a
-nail where heavy blows would fail. The fingers pinching the nail often
-prevent its bending. If possible, keep nails away from the corners of
-boards. Several nails joining two boards hold them stronger if the nails
-are driven at different angles. Nails are usually "set," that is, the
-heads are driven with a _nail-set_ below the surface. They must always
-be set below surfaces which are to be planed. It is often wise not to
-drive the first nail or two way in until the work is examined. In
-withdrawing nails, a block under the hammer will often aid greatly, and
-also protect the surface of the work.
-
-
-                                SCREWS.
-
-Screws usually need holes properly bored to receive them; a large hole
-first, the size of the screw above the threads, a small hole next, the
-size at the roots of the threads (in hard wood somewhat larger), and a
-place for the head made with a _countersink_. Usually the screw should
-slip easily thru the first piece of wood and be tight in the second. The
-_screwdriver_ should always be held in the line that the screw is going,
-and it ought fairly to fit the slot in the head. In hard wood, one must
-be careful not to twist screws off, especially brass screws, which are
-easily broken.
-
-
-                                 GLUE.
-
-A beginner often wonders why things stick to his fingers instead of to
-their proper places; it is because he has a little glue on his fingers
-and usually a lot on the article; therefore, don't use too much glue. It
-is best, especially in holes and their pegs, to put glue on both
-surfaces of contact. Good glue will hold two surfaces, making good
-contact, stronger than the wood. Wipe off excess glue as soon as
-possible, using hot water for hot glue. Much labor is thus saved. Allow
-glue plenty of time to become dry. The moisture has to work its way thru
-the wood itself, and this takes hours; six to ten hours is not too long.
-
-
-                               SANDPAPER.
-
-Sandpaper varies in coarseness from No. 00 to No. 3, every sheet being
-stamped. It should not be used on a given piece until all work with edge
-tools is finished. The particles of sand left in the surface would
-quickly dull an edge tool. When using sandpaper on flat surfaces, wrap
-it closely about a rectangular block of wood. Try to keep all corners as
-sharp as they are left by the edge tools so that there will be a
-crispness of appearance which always marks good workmanship. Often the
-same care in holding work while sandpapering it must be taken as was
-taken when shaping it. Always sandpaper with, or lengthwise the grain.
-
-
-                                DOWELS.
-
-Sticks that are planed nearly to size can be made round and smooth by
-driving them thru a hole in a block of hard wood or iron; such sticks
-are called dowels. Two holes may be used if the second is only a little
-smaller than the first. Drive gently with a _mallet_ rather than with a
-hammer. In many of the models in this book such dowels are used. Dowels
-(made by a different process, however,) can often be bought at hardware
-stores.
-
-
-                                DRILLS.
-
-For ease in making small holes, a _hand-drill_ is essential. For some
-holes a headless nail will answer. To make better drills, break a
-needle, a knitting-needle, umbrella rib, or other piece of hard wire to
-suitable length; on a grindstone, flatten it near the point on two
-sides; then, putting it in the chuck of the hand-drill, try to hold it
-on the grindstone at the proper angle to form the two cutting edges; or
-it may be held against the edge of the bench and sharpened with an
-oilstone resting on top of the bench. Very convenient long drills can be
-thus made of knitting-needles.
-
-
-                              SHARPENING.
-
-To work with dull tools is altogether unsatisfactory. A boy should learn
-to sharpen his own edge tools. To grind a good bevel on a tool like a
-chisel, it must rest upon something steady. The reflection of light on
-the newly ground surface will indicate whether the surface is flat or
-not. This process of grinding makes what is called a feather-edge, or
-wire-edge, and the tool must be whetted on an oilstone to remove this
-wire-edge. The flat side _must be kept flat_ on the stone; the bevel may
-be lifted just a trifle. When whetting the bevel, try to avoid a rocking
-motion, for this would round the edge. After the wire-edge is completely
-removed, a still keener edge can be obtained by stropping the tool on a
-piece of leather, much as a razor is stropped. A piece of leather glued
-to a wooden mount and sprinkled occasionally with the finest emery
-powder will help much in keeping the edge tools keen.
-
-
-                             HOLDING WORK.
-
-The way work is held in the vise often makes the difference between
-success and failure. Small surfaces are easily planed true if held
-almost flush with the jaws of the vise so that the top of the bench
-serves to guide the plane; for example, the wheel-center, page 20, or
-the crank, Plate 33, are easily planed in this manner. Sometimes
-articles, like spools, can be held endwise with safety when they might
-be crushed if squeezed sidewise.
-
-A good way to hold the paddles of the sand wheel, Plate 21, Fig. 4, to
-saw the lines A B is to put the paddles about half-way down the end of
-the vise so that the back-saw can be held near the end of the vise jaws.
-
-The _bench-hook_ is the best device for holding a great deal of small
-work for sawing and for planing sides, corners, and ends. When planing
-ends, to avoid splitting the far corner, another piece of equal
-thickness may be put behind the first. The better way, however, is never
-to plane over the far corner, but turn the work and plane always towards
-the center; in other words, plane half way from each edge. Where a
-corner can be whittled off to form a buttress, there is practically no
-danger of splitting that corner. For planing thin boards, see page 19.
-
-
-                        DIRECTIONS FOR PLANING.
-
-1. Plane one broad surface. Test it _crosswise_, _lengthwise_, and
-_cornerwise_. This surface is called the _working-face_, and should be
-marked with a pencil line near the edge to be planed next. On a short
-board the cornerwise test can be made with a straight-edge; on a long
-board winding-sticks are needed. These are straight sticks with parallel
-edges. Near the ends of the board, stand them on edge across the board.
-With the eye some distance away, sight from one stick to the other, if
-one end of the farther stick seems elevated, that corner of the board
-must be planed more.
-
-2. Plane one edge. Test it _crosswise_ with the trysquare on the
-working-face, and _lengthwise_ with a straight-edge. This is called the
-_working-edge_. Mark it with two pencil lines, drawn near the line on
-the working-face.
-
-These two surfaces are of great importance. From them all measurements
-are made and all tests applied. The trysquare and the gage should always
-be kept on one of these two surfaces.
-
-3. Square the ends. With the trysquare, test them from both the
-working-face and the working-edge.
-
-4. Gage the width from the working-edge. Plane to the line. With the
-trysquare on the working-face, test this edge.
-
-5. Gage the thickness from the working-face. Plane to the line.
-
-Sometimes, of course, the above order needs to be changed. It is well to
-think out the best order of work.
-
-
-
-
-                                PROBLEMS
-
-                     PLATES AND WORKING DIRECTIONS
-
-
-                             DART--PLATE 1.
-
-
-A dart like the first one shown on Plate 1 will stick into a soft wooden
-target. Two or more boys, each with three darts, might have a contest in
-making the highest score. Number three rings of a target 5, 10, and 15,
-and the bull's eye 25.
-
-The dart consists of two parts, a round stick and a paper rudder. To
-make the round stick, 7" long 1/4" diameter, it will be well to start
-with a stick about 9" long so as to be able to hold it easily while
-planing it round. First plane the stick _square_, 1/4", and straight. To
-plane such a small stick straight, it should be laid on the top of the
-bench. While planing it, test it frequently by looking at it endwise.
-When it is the right size, grasp one end with the left hand, lay it on
-the bench with the forefinger touching the bench, and, with a small
-plane, plane away the corners so as to make a true octagonal (eight
-sided) stick. Next make it sixteen sided, taking very fine shavings,
-then sandpaper it well. Saw off the extra length, leaving the best part
-of the stick 7" long.
-
-Bind one end with fine (screen) wire. To bind it well, make a square
-corner 1" from one end of the wire and lay this 1" lengthwise the stick.
-Hold it firmly with the left thumb while winding the long part of the
-wire smoothly around the stick and wire. Twist the two ends together,
-and cut off what is not needed. Gently pound down smooth the end of the
-wire that is left.
-
-In this end of the stick, drill a hole for a 1" brad. File the head
-entirely off, and drive the brad in backwards, leaving 3/16" out; then
-file the point real sharp. Carefully split the other end of the stick
-1". To do this, stand it upright in the vise, place a knife on the end,
-and tap the knife with a hammer. Into this split, insert the paper
-rudder bent as shown in Plate 1. The rudder should be cut the shape and
-size shown in the working drawing and then bent into shape.
-
-[Illustration: DART
-
-SPOOL DART
-
-DART FOR WHIP-BOW
-
-PLATE 1]
-
-
-
-
-                          SPOOL DART--PLATE 1.
-
-
-An easier dart to throw can be made of a spool as shown on Plate 1.
-Three feathers which curve the same way will give the dart a whirling
-motion when it is thrown.
-
-Make a stick about 7" long to fit tightly into the hole of a spool about
-1" in diameter at its end. (See Dowels, page 11, also Glue, page 10.) A
-stick like this can be forced into a hole quite far by screwing it
-around, but if it is driven much with a hammer the spool will split
-easily. After the stick is glued into the spool, hold the spool upright
-on the jaws of the vise, and squeeze the stick extending below; then
-with the back-saw make four slanting cuts to sharpen the spool. File a
-2-1/4" nail square off, 1" long; drive it backwards into a suitable hole
-drilled for it in the center of the spool; and sharpen it well with a
-file. One-half inch from the other end of the spool saw the stick off,
-and drill three holes in the spool end, into which glue three feathers
-about 4" long.
-
-
-
-
-                      DART FOR WHIP-BOW--PLATE 1.
-
-
-This dart is best made of a shingle. Lacking that, plane a 1/2" board
-thin[1] at one end to 1/8". Draw the center line lengthwise and lay out
-the shape of the dart with the broad part at the thin end. Saw crosswise
-from each edge of the shingle to the place where the curve begins, then
-lengthwise to that point. Holding the thin end in the vise, pare the
-curves with a knife, spokeshave, or draw-knife. Make the point at each
-end with a plane. To plane to slanting lines such as these, it is very
-important to place the work in the vise at such a slant that the line is
-parallel with the top of the bench and quite close to the jaws of the
-vise. Find the point where the dart balances by testing it on the
-finger, and make the little notch for the string, using a back-saw
-first, then a knife.
-
-A whip-bow consists of a string 20" long tied to the end of a stick 20"
-long. A knot is tied at the free end of the string. To throw the dart,
-catch the string in the notch, hold the wide end of the dart in the left
-hand and the stick in the right, throw the right hand forward, and let
-the dart fly from the string.
-
-[Footnote 1: To hold a board while planing it very thin, fasten it to
-another flat board with four wooden pegs.
-
-For several of the models in this book, a flat board about 9" x 4" x
-7/8" with a cleat nailed to one end and extending 1/8" above its upper
-surface will be found most convenient for holding thin boards while
-planing. If the cleat is a little wider than the height of the block on
-the bench-hook, the bench-hook serves well to hold it.]
-
-
-
-
-                            BUZZER--PLATE 2.
-
-
-The buzzer consists of a wheel and two handles, connected with string.
-To make the wheel draw a 3" circle on a piece of wood 3/16" thick. Draw
-a line thru the center the way the grain goes and another at right
-angles to it, thus dividing the circle into quarters, Fig. 1. Notice,
-now, that to avoid splitting the circle, the four quarters must each be
-cut in a different direction. Lay the model flat on the bench-hook and
-saw off the corners of the square. Now, holding it in the vise with one
-quarter up, with the spokeshave, pare the corners in the direction of
-the arrow in this quarter until the circle is reached. Be careful not to
-pare away any part of the line. It will be observed that paring can be
-done safely on the end grain beyond the arrow-head in this quarter, but
-this is not at all possible on the side grain where the arrow begins.
-The spokeshave should be held rather lightly so as to allow it to follow
-the curve. Observing carefully the direction of the arrows, proceed with
-the other quarters in this same manner. The last few chips should be
-very fine ones. Drill two small holes for the string 1/4" each side of
-the center. Sandpaper the model nicely. (See Sandpaper, page 11.)
-
-[Illustration: Fig. 1]
-
-The two handles can be planed best if held in the bench-hook and the
-plane turned with its side on the top of the bench. After the corners
-are planed in this way, the ends can be planed without danger of
-splitting. Drill the holes for the string. The edges and ends of the
-handles will look better not sandpapered.
-
-String the model by passing one end of a 3 ft. string thru a hole in one
-handle, then in the wheel, then in the other handle, then back thru the
-other holes, tying it to the other end of the string. To make it go,
-take one handle in each hand, swing the wheel over and over, and gently
-pull the handles apart for an instant. A little practice may be
-necessary to make it go well. To make it buzz louder, bore two 5/16"
-holes on opposite parts of the wheel 1/2" from the rim. (See Bits, page
-9.) To avoid splitting, bore _backwards_ till the bit marks a deep
-circle in the wood.
-
-[Illustration: BUZZER
-
-PLATE 2]
-
-
-
-
-                          FLYING TOP--PLATE 3.
-
-
-Like anything that flies, this top should be made as light as possible.
-Bass, cotton-wood, or soft pine are good woods to use. After the wood
-for the top is planed to size, a 3/16" hole should be bored straight
-thru the center. (See Bits, page 9.) Make the drawing on the top and
-whittle to line. Considerable care must be taken in whittling not to
-whittle away the two corners which should be saved; this is especially
-true if the grain is not straight. See page 16 for suggestions about
-making the handle. Glue the handle in the top. To make it fly, hold it
-between the two hands, and push the right one quickly. (See Plate 3.)
-
-[Illustration: FLYING TOP
-
-PLATE 3]
-
-
-
-
-                          FLYING TOP--PLATE 4.
-
-
-This form of flying top requires accurate work to make a good joint.
-(See Directions for Planing, page 13.) After planing the two vanes to
-size, the joint must be laid out with knife and gage lines and cut out
-with back-saw and chisel. Two important facts should be learned: The
-_length_ of one notch equals the _width_ of the other piece; the lines
-marking the depth of the notches must be gaged from the working-face of
-each piece. After the joint is laid out, hold the work in the bench-hook
-while sawing the depth of the notch, and be sure to saw _in the notch_,
-not outside the line. With a chisel held flat side down, pare between
-the saw cuts from each side of the wood towards the middle. When the
-joint is fitted, lay out the curves on each arm of the wheel,
-remembering that it is always the front corner of the right-hand arm, as
-the wheel turns around, that is to be whittled away. When all these
-curves are drawn, take the joint apart, and whittle to the lines. Glue
-the joint next, and bore a 3/16" hole straight thru its center. Make the
-axle of hard wood. (See page 16 and Dowels, page 11.) Perhaps a skewer
-can be used.
-
-After the handle is planed to size, draw pencil lines 1/4" from each
-edge for the chamfers. The curve of the chamfer may be drawn freehand.
-It should end 1-1/16" from one end of the handle. A good chamfer is flat
-crosswise. If the grain of the wood is straight, the chamfers can be
-whittled easily; if it is crooked watch that it does not split over the
-line. After the chamfers are made, pare another one 1/8" wide around the
-end of the handle. After the two blocks are planed, bore a 1/4" hole
-3/8" from one end. Glue and nail them 1" on the handle.
-
-[Illustration: FLYING TOP
-
-PLATE 4]
-
-
-
-
-                             TOP--PLATE 5.
-
-
-A variety of sizes, shapes and colors of tops, spinning on a plate, is a
-lively sight. The one suggested is perhaps as large as it should be made
-for such sport. Smaller ones are easily made of spools without making a
-disk, or wheel, for them. The more slender the spindle is, the faster
-one can spin the top. First make a stick about 6" long to fit the hole
-in the spool. Plane 1" of it tapering as small as 1/8", then glue the
-spool on 1-1/4" below this small end. Now hold the spool in the vise
-endwise, and make, with the back-saw, a saw cut half thru the spool on
-the same slant as the slanting part of the spool; then saw straight down
-to the end of this slanting cut. Turn the spool nearly over and repeat
-this operation; then saw it completely off, and whittle the spool to a
-good point.
-
-Draw a 2" circle on a piece of wood 1/4" thick. Draw other circles just
-as desired for coloring. Observe the directions on page 20 for making a
-wheel. When the wheel is round, bore a 5/16" hole in its center,
-sandpaper it, and glue it in place on the spool and spindle. It can be
-colored with crayons or water colors.
-
-[Illustration: TOP
-
-PLATE 5]
-
-
-
-
-                         TOM-TOM DRUM--PLATE 6.
-
-
-As in a violin, the sounding qualities of this drum depend upon the
-quality of the wood used and the thickness of the sounding-board. Spruce
-is a good wood to use, though the drumstick may well be harder.
-
-A good way to make two pieces the same length and thickness is to plane
-_one_ piece, which is wider than the two pieces combined, to the right
-length and thickness, and then saw it in two lengthwise; so, to make the
-top and between pieces it will be best to start with one piece about 6"
-x 7/8" x 5/16". If no wood 1/8" thick for the sounding-boards is at
-hand, plane a thicker piece nicely on all surfaces 3" x 2" x 5/16". Then
-gage a line 1/8" from each broad surface all around the piece and saw
-between these lines. To plane these two pieces, lay them on the board
-described in the foot-note on page 19.
-
-Glue and nail the parts together with very small brads, or pins cut off
-1/2". Allow the glue to dry six to ten hours before twisting the
-drumstick in the strings. Cut a small notch near the ends of the top
-pieces in which to wind two or three strands of string. Twist the
-drumstick in the opposite way from which it should strike the
-sounding-board. To play it, hold it in the left hand, and let the
-fingers of the right hand slide over the end of the drumstick, thus
-making the drumstick strike the sounding-board.
-
-[Illustration: TOM-TOM DRUM
-
-PLATE 6]
-
-
-
-
-                           POP-GUN--PLATE 7.
-
-
-The part of this model difficult to make is a nice, smooth hole. The
-surest way is to start with a thick piece of wood for the barrel, 6" x
-1-1/4" x 1-1/4". Draw a 7/8" circle on one end; then bore the 7/16" hole
-as straight as possible, starting at the center of the circle. Stop
-boring as soon as the spur of the bit pricks thru the other end, and
-draw another 7/8" circle, setting the needle-point of the compass in the
-tiny hole made by the spur; then finish boring. Next plane the piece
-round the size of the circles. The ramrod should be made as directed on
-page 16. The hole should now be sandpapered by wrapping a long, narrow
-piece of sandpaper snugly about the ramrod, and tying it securely at
-each end with string. Make the handle, being careful to bore the hole
-straight 1" deep, and glue the ramrod into it.
-
-Cut off 3/8" of that part of a cork which fits tightly in the barrel.
-Drive a slender nail or brad thru a piece of hard leather (or zinc or
-copper) and trim it round 1/4" diameter. Drill a small hole exactly in
-the center of the end of the ramrod, then drive the nail thru the center
-of the cork and into the ramrod.
-
-To make the hole in the barrel still better, let a few drippings from a
-candle fall into it and quickly insert the ramrod and push it back and
-forth rapidly. A sudden push of the ramrod will blow the other cork out
-with a loud pop. To keep this cork, tie one end of a string around it
-and the other end around the barrel.
-
-[Illustration: POP GUN
-
-WHISTLE
-
-PLATE 7]
-
-
-
-
-                           WHISTLE--PLATE 7.
-
-
-The size of the chamber, of the notch, of the inlet for air, the force
-with which air is blown in,--these are some of the conditions which
-affect the tone of a whistle.
-
-Plane a piece of close-grained wood 6" x 3/4" x 3/4". This length is
-suggested so that two trials at boring can be made. Bore a 1/2" hole
-2-1/4" deep. To help in boring this straight, clamp a straight-edge (the
-ruler may do) in the vise together with the square stick. Have one edge
-of the straight-edge on the center of one side of the stick. After
-boring a straight hole, draw pencil lines 3/16" from the long edges on
-all four sides. A good way to draw such lines is to rest the middle
-finger-nail on a side of the stick as a guide and hold the pencil
-closely over this nail while sliding it along. The hand must be held
-rather rigid. Practice will enable one to draw lines quite accurately
-this way. Place the stick in the vise so that one edge is straight up,
-and plane the corner off to the line. Plane all four corners so as to
-make a good octagonal stick. Make a dowel (see page 11) about 1-1/2"
-long to fit nicely in the hole. Do not crowd it so hard as to split the
-whistle. It might well be fitted first in a 1/2" hole bored in a waste
-piece of wood. Plane off a side of this dowel till a flat place is made
-3/8" wide. Push the dowel into the whistle and saw the straight end of
-the notch about 3/16" deep. Pare the rest of the notch with knife or
-chisel, testing the whistle by blowing it occasionally as the paring
-proceeds. When it sounds best, glue the dowel in place and allow it to
-dry before sawing it off and cutting the slanting part. When this is
-done saw the whistle to a length of 2-1/2". If a rolling sound is
-desired, put in a pea before gluing the dowel in place.
-
-
-
-
-                            ARROW--PLATE 8.
-
-
-The old saying, "Straight as an arrow," suggests an arrow's most
-important quality: it must be straight. Saw a strip 20" x 1/2" from the
-edge of a straight-grained spruce board and plane it according to
-directions on page 16. To make the notch for the bowstring, first file
-a notch in the smaller end, then saw it 1/4" deep, and smooth it with
-the folded edge of a piece of sandpaper. Bind the larger end tightly
-with rather small, soft wire. (See page 16.) Pigeon feathers are easiest
-to use because the quills are soft and straight. Turkey and goose
-feathers are good, and hen feathers will do if they are nearly straight.
-The quill should be split with the point of a small, sharp knife, the
-feather being held on a cutting board. About 3" of quill are needed.
-With scissors, trim the feather about 5/16" wide; then glue and pin it
-in place 1-1/4" from the smaller end of the arrow. Indians use three
-feathers, but two will do for a boy. When the feathers are in place, the
-ends of the quills must be bound very smoothly and tightly with thread.
-Notice the position of the feathers in Plate 8: the _bottom_ feather on
-the arrow having three feathers is called the cock-feather and should be
-of a different color from the other two. It is always placed on the
-bowstring _away_ from the bow.
-
-
-
-
-                             BOW--PLATE 8.
-
-
-Almost any tough stick that will bend to a good curve will answer for a
-bow, but white ash such as is used in hoe- and rake-handles is probably
-best and easiest to get. A brittle wood like hemlock can be used, if
-used with great care; indeed, some Eskimos, who can get only dry,
-brittle driftwood, still make a splendid bow by wrapping it completely
-with sinew. The bow should be shorter than the archer. Plane each end
-tapering, first on the bottom, then on the two edges. Leave 6" in the
-middle straight for a handle. Notice the shape, Plate 8, of the three
-steps in the planing of the bow. Be especially careful to get the second
-step right, then the third will come easily. File notches near each end
-somewhat the shape of the loop on the bowstring. Before the bow can be
-finished, it must be strung and pulled a little to test it,--to see if
-both ends bend the same good curve,--not the curve of a circle, but that
-of the broad side of an ellipse. The ends should curve more than the
-middle. When it bends true, smooth it well with a coarse file, or glass,
-and sandpaper. Do not be tempted to pull the bow too far and so break
-it; one that bends easily is less apt to break than one that is too
-strong. When the bow is strung, the center of it and of the bowstring
-should be marked with thread or color.
-
-A piece of strong fish-line makes a good bowstring. A good one can be
-made of linen thread on the string machine shown on Plate 34. Tie knots
-as shown in Fig. 2. The timber-hitch should be kept in place on the bow,
-and the bowline-knot slipped back on the bow when it is unstrung. The
-best way to string a bow is to place the end having the timber-hitch on
-the ground against one's left foot, then to pull the middle of the bow
-with the left hand, and to push the upper part with the right hand,
-allowing this hand to slide upward so as to shove the bowline-knot into
-the upper notch. When finished the bow can be improved by rubbing it
-well with grease.
-
-[Illustration: Fig. 2 Timber-hitch knot and Bowline-knot]
-
-[Illustration: ARROW
-
-BOW
-
-PLATE 8]
-
-
-
-
-                            SWORD--PLATE 9.
-
-
-Plane the blade to size, then draw a center line on each side, and lay
-out the curves for the point and handle. Shape these ends with the
-draw-knife, spokeshave, or block-plane. Now measure 5" for the handle,
-and draw a line along the center of each edge to mark the cutting edges
-of the sword. A workman would do this with his pencil resting over his
-finger-nail as mentioned on page 32. Use the spokeshave to pare off the
-four corners (to sharpen the sword), and finish them with a plane. Try
-to take broad, flat chips so as to make the blade a good diamond shape.
-Where the blade and handle meet a good square shoulder must be made. A
-boy can do this best, perhaps, with a wide, flat file, though a workman
-would use a back-saw and chisel.
-
-Saw out the guard 5" x 3" x 1/2"; then draw the diamond 1-1/2" long and
-1/2" wide. It is not easy for a boy to cut this out, so be careful and
-guard against splitting the board. First drill small holes at each end
-of the diamond, then bore other holes as large as will go within the
-diamond, Plate 9. With a thin chisel pare straight thru the board onto a
-cutting board. When the diamond will fit the blade, draw the shape of
-the guard freehand and pare the edges as explained for the buzzer on
-page 20. Sandpaper both parts of the sword, and fasten the guard with
-glue and two 2" brads, driven from each edge of the guard in holes
-drilled for the purpose.
-
-[Illustration: SWORD
-
-PLATE 9]
-
-
-
-
-                          MAGIC BOX--PLATE 10.
-
-
-This is truly a magic box to those who do not understand how it works.
-Who would ever think that these little bits of people would hop up and
-down inside their house just because their window was rubbed with a
-piece of leather? Try it and see how excited they get.
-
-If the worker can cut glass, make the box first, otherwise he must get a
-piece of glass 5-1/2" x 3" and build the box to fit it. It requires
-careful work to make a good box, so be sure that all ends and edges are
-square and that corresponding parts are the same size before nailing it
-together. Plane all such small boards in the bench-hook. Make the ends
-first 1" wide and as _long_ as the glass is _wide_. Make the sides the
-same width and as long as the glass, _plus_ the thickness of the two
-ends. Glue and nail these to the ends, keeping the bottom edges flush.
-Set all nails with a nail-set.
-
-One edge and one end only of the bottom should now be planed square, the
-other edge and end being left to plane after the bottom is nailed in
-place. Cut a piece of tin 1/16" smaller than the glass, or glue some
-tinfoil on the inside of the bottom. If tinfoil is to be used, smooth it
-on a piece of paper carefully with the fingers; then spread some glue
-thinly over the bottom, and lay the tinfoil on it. The squared edge and
-end of the bottom are to be nailed first, having them fit nicely; then
-the other edge and end. Never drive a nail too near the corner of the
-bottom lest it strike the nails driven thru the sides of the box. Now
-plane the end and then the side of the bottom to fit. If tin is used
-instead of tinfoil put it inside the box after the bottom has been
-nailed in place. Make the two supports fit inside the box lengthwise and
-just wide enough to hold the top of the glass flush with the top edges
-of the box. To hold the supports, drive nails thru the ends of the box
-into them.
-
-[Illustration: MAGIC BOX
-
-PENCIL BOX
-
-PLATE 10]
-
-Everything about electrical apparatus should be clean and dry, so, as
-this is really an electric box, have the glass and tin clean before
-using it. Put some bits of charcoal, paper, straw, or sawdust into the
-box, have it warm and dry, rub the glass with a piece of leather (glove,
-shoe), and then see how the little people jump! The explanation is as
-follows: Rubbing glass with leather, fur, woolen, or silk _generates_
-electricity; this electricity _attracts_ non-electrified bodies, thus
-lifting the little people to the glass; as soon as they become _charged_
-with the electricity on the glass, they are _repelled_ and thrown down
-to the tin; the tin _conducts_ their charge of electricity away, and
-they are ready to begin their circus over again.
-
-
-
-
-                         PENCIL-BOX--PLATE 10.
-
-
-To make this box, saw out one long piece for the sides and ends, 22" x
-1-7/8" x 1/4", or two shorter pieces, 12" x 1-7/8" x 1/4". The reason
-for having them so long is because it is difficult to make the groove
-nicely to the end of the board; and they are wide enough to try twice to
-make the groove.
-
-[Illustration: Fig. 3]
-
-File a nail (about 3/32" in diameter) sharp like a chisel, and drive it
-tightly into a small hole, drilled in a block of wood which has one
-corner rabbeted, that is, sawed away as shown in Fig. 3. The outside of
-the nail, measured from the shoulder of the rabbet, must be exactly 1/4"
-away, so that the lower edge of the groove will be 1/4" from the top of
-the box. Practice with this tool till a good groove can be made in waste
-lumber, then make the groove along one edge of the board. When well
-done, plane the board 1-3/8" wide, and saw it to the proper lengths for
-sides and ends. In the front end there is no groove, so plane it away
-from one piece just sawed. Sandpaper the flat sides before gluing and
-nailing them together. Prepare the bottom as directed for the magic box,
-page 38, then sandpaper, glue and nail it in place. Set all nails. Plane
-the bottom to fit. Prepare the cover somewhat too long but exactly the
-width between the grooves. As in making the whistle, page 32, so here
-draw pencil lines for the bevel 3/8" wide on the cover. Practice planing
-a bevel on waste wood first. The bevel at the further end of the cover
-can be planed by holding the cover upright in the vise. When it slides
-smoothly in the grooves, saw it the right length. For the notch, make a
-deep cut with a gouge, and cut the chip straight across with knife point
-or small chisel. Hold it in the bench-hook while doing this.
-
-
-
-
-                          TELEPHONE--PLATE 11.
-
-
-In these days when even boys are using wireless telegraphy, this may
-seem a humble telephone, but it is a surprisingly good one, and it is
-very easily made and operated. The drum should be hard and tight, the
-string should be a small, hard cord (tho the common pink cord thoroly
-waxed with paraffin will do), and the cord should be supported by
-nothing but the drums when the telephone is being used.
-
-After preparing the eight sides, observe in Plate 11, the method of
-nailing four boards of equal width together to form a square,--each one
-is nailed to another one. The ends of the boxes should be well rounded
-with sandpaper before the drum is stretched over them.
-
-The best material for the drum is rawhide,--the dried skin of an animal.
-The skin of a small animal like the cat, rabbit, or woodchuck is best.
-Country boys will not have much difficulty in securing such rawhide, but
-city boys may. To remove the hair, or fur, from a skin, slack a lump of
-lime as large as a hen's egg in a basin of water and soak the skin in it
-until the hair can be pulled off readily (usually a few minutes); then
-thoroly wash the skin, stretch it over one end of a box, and tack it
-every 3/8" with 2 oz. tacks. When thoroly dry it will be "tight as a
-drum" and ready to use. A good drum can also be made of an old (dressed)
-kid glove or shoe. Soak a piece 4" sq. in water a few minutes then
-stretch it while still wet, tightly over the box. When dry, coat it on
-both sides with melted paraffin. Fasten the cord to the drum simply by a
-knot on the inside. If common pink cord is used, drive the paraffin in
-with a hot flat-iron.
-
-To use the telephone, a boy at each end of the line holds his box so
-that the string will not touch anything, then one talks into his box
-while the other listens in his. The telephone may be stretched from one
-house to another if the houses are within several hundred feet of each
-other and have a free space between. If two telephones were provided, a
-person could talk and listen at the same time.
-
-[Illustration: TELEPHONE
-
-PLATE 11]
-
-
-
-
-                     HAPPY JACK WINDMILL--PLATE 12.
-
-
-On a windy day "Happy Jack" will be a whole circus out on the
-clothes-line post. If he can be painted in bright colors so much the
-better, otherwise he should be decorated with colored pencils.
-
-The body is drawn on a board, 9" x 2" x 1/2", by measuring all the
-figures from the hat down, and at these points drawing lines square
-across the board; also, draw a center-line from head to heel. The toes
-and hat rim split easily, so be careful of these parts. If no scroll-saw
-is at hand, saw every 3/8" with the back-saw straight across from the
-edge of the board to the outline of the body; then pare these little
-pieces away with a knife or chisel. The curves at the neck are best made
-with a No. 6 bit before sawing. The curves may be finished with
-half-round file or sandpaper. Take great care in boring the hole up the
-legs and across the shoulders; if a hole is started crooked, glue in a
-dowel of the same wood (see Dowels, page 11), let it dry, and then try
-again. Use a straight-edge as a guide, as for the whistle, page 32. A
-No. 3 bit is used thru the shoulders, and a No. 4 bit up the legs. To
-make the arms, use a 1/2" hard wood dowel 6" long. Bore 1/4" holes for
-the vanes 1/2" each side the center of the dowel and file the wrists,
-before sawing it in two. Round the ends some with sandpaper. Flatten the
-4" wire which goes thru the shoulders enough to keep it from turning in
-the arms. Drill holes in the arms to hold the wire firmly. To plane the
-vanes thin at the broad end, use the board mentioned at the bottom of
-page 19. When gluing and nailing the vanes in the arms, remember that
-one lies flat and the other nearly edgewise; also remember to make them
-balance. Bore a 3/16" hole in the center of the base and glue the dowel
-into it. Before trying to fasten "Happy Jack" to a post, drill holes in
-the base for nails or screws.
-
-[Illustration: HAPPY JACK WINDMILL
-
-PLATE 12]
-
-
-
-
-              GLOUCESTER "HAPPY JACK" WINDMILL--PLATE 13.
-
-
-This "Happy Jack" is the kind which is common along the coast of New
-England. He is often painted with blue and white uniform and black
-shoes, while the paddles are left unpainted.
-
-The drawing is made on squares so that it may be enlarged easily to any
-size. Keep the same _number_ of squares but make them any size desired;
-3/4" is a good size. The hat, being made separate from the body, should
-not be drawn on the same board.
-
-To make the hat without a lathe, make two wheels of soft wood, round one
-edge of the larger, and glue and nail the smaller one on it. Saw the
-head slanting to make a flat place for the hat, as shown in side view of
-hat, Plate 13. The space between the legs should be cut out with a
-turning or key-hole saw, tho it can be worked out as the diamond in the
-sword guard, Plate 9. The "Happy Jack" should be mounted on a large wire
-rod.
-
-[Illustration: GLOUCESTER HAPPY JACK WINDMILL
-
-PLATE 13]
-
-
-
-
-                  PADDLING INDIAN WINDMILL--PLATE 14.
-
-
-Make this windmill any dimension desired, using the same number of
-squares in drawing to keep the proportions. The stern of the canoe
-should be planed thin enough so that the completed windmill will nearly
-or quite balance on the upright wire rod. The arms should be made like
-those on the "Happy Jack," and as long as from the center of the
-shoulder to the topmost feather. If the canoe is not too wide, the
-Indian can be nailed in place by two nails as shown in Plate 14,
-otherwise drive smaller ones slanting thru the back into the canoe;
-drill holes in either case. After the hole is bored thru the shoulders,
-use a trysquare to tell where to start the hole up thru the canoe so
-that it shall come in front of the former.
-
-[Illustration: PADDLING INDIAN WINDMILL
-
-PLATE 14]
-
-
-
-
-                            KITE--PLATE 15.
-
-
-Kite flying is such fascinating sport that the three typical kites here
-given will make one want to build others, larger and of different
-shapes.[2] Kites have been made large enough to carry a man high in the
-air. The adjustments of a kite are so subtle that much patience is
-sometimes needed to make it fly. That is why the rather elaborate bridle
-is suggested for the paper covered kite with tail. It will require a
-little longer stay in the workshop, but it will save time outdoors.
-
-[Footnote 2: Many suggestions are found in "The Construction and Flying
-of Kites" by Charles M. Miller, price 20 cents, Manual Arts Press,
-Peoria, Ill.]
-
-To make the spine and crosspiece, saw a 1/4" strip from the edge of a
-7/8" straight-grained spruce board 3 ft. long; then saw this strip again
-lengthwise, and plane the two pieces 3 ft. x 3/8" x 1/4". Mark the
-center of the crosspiece and a point 8" from the top of the spine, and
-plane each end tapering thinner to 3/16". In each end saw a slot 3/16"
-deep, Plate 15. Glue and bind securely the middle of the crosspiece to
-the 8" point on the spine. Notice that the last few strands go _around_
-the others. Test the sticks to see that they are square with each other.
-This can be done by measuring from one end of the spine to each end of
-the crosspiece. Put a cord that will not stretch around the ends of the
-sticks, in the slots, and tie it tightly. Bind this cord into each slot
-in such a manner that it will not slip, and at the same time wind the
-sticks so that they will not split beyond the slot. While doing this,
-one must measure again from each end of the spine to the ends of the
-crosspiece so that the two halves of the kite will be equal.
-
-Cover the kite with strong, light paper. Glue the paper to the sticks,
-and fold it over the string 1/2". Try to have the string lay in the
-crease of the fold. Strengthen the corners with another piece of paper,
-2" wide.
-
-[Illustration: KITE
-
-TAILLESS KITE
-
-BOX KITE
-
-PLATE 15]
-
-To make an adjustable bridle, wind a cord twice around the spine near
-its top and tie it tightly on the front side, keeping the knot in the
-middle. Little holes will, of course, have to be made in the paper. Cut
-the cord about 2" long and tie bowline-knot, Fig. 2, p. 34. Measure on
-the crosspiece 10" from the center, and down the spine 12" from the
-crosspiece, and tie three more such knots. Double two cords, about 40"
-long, and tie them in one big knot, called the flying-knot, to make a
-loop about 1" long to which to fasten the anchor line. Mark a point on
-the spine 10" below the crosspiece. Hold the flying-knot here, and
-fasten two cords to the loops on the crosspiece with two or three
-half-hitches, Plate 15. Now bring the flying-knot 2" above the
-crosspiece and out from the kite far enough to make these two cords
-taut. Fasten another cord to the loop at the upper part of the spine.
-Adjust the remaining cord as taut as the others.
-
-A flat kite like this always needs a tail, and the most bothersome tail
-ever made is that familiar kind made of paper and string. To make a
-convenient, serviceable, and easily-made tail use strips, 3" wide, of
-bunting, cheese-cloth, or any soft, light cloth.
-
-In a high wind a longer tail is needed than in a light wind. If the kite
-seems too unsteady, pull it down, and try to adjust the bridle or the
-tail, before an accident occurs. If the kite dives, let go the string
-just before the kite reaches the ground so that it will not strike the
-ground with force enough to smash the kite. When letting out string
-rapidly, always protect the hand with a cloth or glove lest the string
-cut thru the skin. If in doubt about the strength of the anchor-line,
-two boys can very quickly test it 100 ft. or so at a time as it is being
-let out; one does not want the string to break when the kite is high in
-the air.
-
-
-
-
-                        TAILLESS KITE--PLATE 15.
-
-
-If one has to fly a kite amid many obstructions of trees, wires, and
-houses, one will appreciate the advantage of a tailless kite. Such a
-kite has to be more accurately made, however, and should be covered with
-cloth.
-
-When making the bow, file notches near the slot at each end in the same
-manner as for the bow, Plate 8, in which the twisting string will be
-fastened later. Lash the middle of the bow to a point 7" from the top of
-the spine. In the slots, put the cord which goes around the kite,
-measuring carefully to keep the two sides the same size. Sew a piece of
-colored cambric over the kite. Tie the middle of a strong cord 6-1/2
-feet long to the filed notch at one end of the bow with three
-half-hitches, as shown in Plate 15. Pass one part of this cord around
-the other notch, and fasten it in the same manner; then tie the two ends
-together with a square knot. Make the dowel for twisting the two cords
-on the back of the bow so as to bend the bow as desired. Into one end of
-the dowel drive a small brad and file it sharp. How much to bend the bow
-can be determined only by trying the kite. As the bow bends, the cloth
-becomes looser, and it is this looseness of the cloth which so holds the
-wind that the kite will fly without a tail. After twisting the cords
-enough, slip them towards the end of the dowel away from the spur, and
-rest the spur in the back of the spine.
-
-Tie a string around both the top and the bottom ends of the spine for
-the bridle. The flying-knot should come as far as the end of the bow;
-or, some tie the lower end of the bridle about 14" from the lower end of
-the spine, and make the flying-knot about 9" in front and 2" above the
-bow.
-
-
-
-
-                          BOX KITE--PLATE 15.
-
-
-In a gale too strong for other kites, a box kite will fly safely. The
-bridle is very easy to adjust, and the kite, tho somewhat more elaborate
-than the others, is not difficult to make. Thin sticks like these can be
-sawed from the edge of a straight-grained board. An easy way to make the
-notches in the ends of the braces is to clamp them all in the vise at
-once, flat surfaces together, and then saw them out with a back-saw.
-This method presupposes that the uprights are all planed the same
-thickness. If they are unequal in thickness, saw the notches as wide as
-the thinnest upright and pare the others each to fit its proper upright.
-In any construction like this, which has a number of parts fitting
-together, it is well to number the adjacent parts so that they may be
-put together again, each in its place. Little nicks are cut with a knife
-on the four edges of the braces where the lashing is to be wound. When
-all the sticks are fitted together, glue the braces to the uprights
-4-3/8" from the ends; two frames are thus made just alike. The lashing
-is done with large thread. Start it with two turns around the brace,
-then once around the upright, then once around the brace, then again
-around the upright, and so continue. The last few turns should be around
-the brace. See that the thread goes from the brace to the upright in the
-way most favorable for holding. When all the lashing is done, measure
-the center of each brace. Put one frame thru the other, and drive a pin
-thru the two centers. Now the frames must be brought to a 14-1/2" square
-by means of strong thread. Near the top of one upright tie a 6 ft.
-thread, leaving a short end. Simply wind the long end twice around each
-upright, and tie the end with a bow-knot until all sides of the square
-can be measured and adjusted. When all sides are equal, make the
-bow-knot into a square knot. Wind some thread around each upright,
-except the first, in such a manner as to hold the long thread securely.
-Now adjust the other end of the kite in the same way. Measure 8-3/4"
-from the ends of each upright and put other threads around the square.
-These can be fastened at each upright after the first by three
-half-hitches.
-
-The kite may be covered either with cloth or paper. If cloth is used,
-the edges should be hemmed. If paper, lay it on the floor, put glue on
-each upright, then press the paper to one upright. Wrap the paper around
-the kite and wind string around it several times to hold it while
-adjusting and pressing each corner. Glue the ends of the paper next,
-pulling them as tight as possible. Two flat-irons will hold the ends
-while drying. After the paper is on, its edges should be strengthened
-with a narrow ribbon of cloth glued to it.
-
-Tie the bridle strings just above and below the upper cell and have the
-flying-knot 5" in front of the end of the brace.
-
-
-
-
-                    KITE-STRING SAILBOAT--PLATE 16.
-
-
-To send messages up to his kite, many a boy has made a hole in a piece
-of paper and watched that go sailing up his anchor line. This sailboat
-will do that, and other things too, and come spinning down again to take
-another message. A parachute, made of a paper napkin, having a 12"
-thread running to each corner and a nail for ballast tied where the four
-threads are knotted together, can be sent up by this messenger,
-released, and allowed to float down from a great height. Paper gliders
-sent up this way will do many "stunts" before they reach ground. Fold a
-flimsy paper napkin in such a way as to hold a bunch of confetti with a
-pin thru only three or four thicknesses of the napkin. This can be tied
-to the keel and the pin withdrawn by the release and fall of a nail,
-and, behold, a shower of confetti! Be sure the falling nail will do no
-injury where it strikes.
-
-A light, frail model like this will require considerable time and
-patience to make and adjust so that it will work. Make the hull and
-posts from a stick about 13" long. Bore the 3/16" holes for the mast and
-keel, the former a little to the left (port, a sailor would say) of the
-center and 2-1/2" from the bow, the latter in the center 2" from the
-stern. Make the wheels of the ends of spools by sawing them off just
-where the straight portion begins, and glueing them together on a hard
-dowel. Very accurately find their centers and drill holes for 1" brads
-which form their axles. Drive these into the post so that the wheels run
-very freely. Do not nail the posts to the hull till the wire parts have
-been put in place. Make three staples of pins and drive them in the
-bottom of the hull so that a fine wire will just slide thru them easily.
-Three are used so that the wire will always be held straight. Next make
-the two eyes which hold the kite-string under the wheels. Coiled around
-once and a half, the coils must be separated enough to allow the string
-to slip between. The safety of the model, swinging violently high in the
-air, depends upon these eyes. They can be driven thru small, tight holes
-and bent on the under side to make them secure. They must be just high
-enough to allow the string to run free. The forward one is elongated
-because the kite-string slants upward so much. Bend the 4" wire trigger
-three times around a brad driven in a piece of wood for convenience. To
-handle wire readily for such work as this, two pliers will be found
-useful. Saw a notch in the bow just wide enough for this coil. Now glue
-and nail the posts in position.
-
-[Illustration: KITE-STRING SAILBOAT
-
-PLATE 16]
-
-Make the mast, all the spars, in fact, smaller at the outer end. Rig it
-completely before gluing the mast in place. Be sure that the booms will
-swing _over_ the forward wheel, so as not to interfere with its easy
-running. The sails should be of light cloth. The booms and the gaffs
-(see Plate 30 for names of parts) must swing freely on the mast, so as
-to fold together when the trigger is released. For the main-sheets, use
-thread tied with a long loop to slip over the fine wire part of the
-trigger. A cork 1-1/4" in diameter, slit to the center, can be put on
-the kite-string far enough from the kite to be safe from any entangling.
-On the keel, fasten ballast enough (about 1 oz.) to make the sailboat
-ride upright.
-
-
-
-
-              THE HYGROSCOPE OR WEATHER COTTAGE--PLATE 17.
-
-
-This model serves to indicate the humidity (dampness) of the air. It
-consists of the house, turntable, and figures, the turntable being
-suspended on a violin string. The violin string absorbs moisture from
-the air and untwists, thus causing the man to come out; when the air
-become dry the string twists tighter, thus causing the woman to come
-out. The model should be placed out doors but not exposed to rain or
-sun.
-
-The arches of the doorways may be made with a big bit (1-3/8") or a
-scroll saw. If a bit is used, bore a hole for the spur first, lest it
-split the board. While boring hold the board vertically in the vise. The
-portion cut off between the doorways can be sawed with the tip of the
-back-saw if the board is laid flat on the bench-hook. The slanting lines
-at the top, also, can be sawed while held down on the bench-hook. After
-the front, back and sides are made, nail the back to the sides, but
-screw the front. When this is done, put the house in the vise in an
-upright position and plane the tops of the sides slanting. Notice that
-one roof is wider than the other. Nail the narrower one first, with the
-grain running from front to back. Do not drive nails into the front but
-nail it securely at the back and side. Letting the plane rest on the
-other side of the house, plane the upper edge of this roof slanting, so
-that the other roof will fit. Nail this in place; set all nails; and
-plane the upper edge of this roof slanting, letting the plane rest on
-the first roof. Two brads may now be driven near the center of the
-ridge-pole to hold the roofs together. After making the floor, place the
-house in position on it (1/4" from back, 1/2" from ends) and draw a line
-around the house. Remove the house; drive three brads straight down thru
-the floor; pull them out and start them from the under side in the same
-holes; then put the house in place again and drive the brads home. Put
-in more brads to hold the house securely.
-
-To make the chimney, saw a notch 3/16" deep in the end of a 3/4" square
-stick. If it fits on the roof, bore a 5/16" hole thru its center, and
-saw the chimney off 3/4" long. Glue it 3/8" from the front end of the
-roof. When dry, bore the hole thru the roof. The chimney top with the
-dowel attached to it below is made to revolve so that the Hygroscope may
-be adjusted. To make the chimney top, bore a 1/4" hole into the end of a
-1/2" dowel; then saw it off 1/2" and glue in the upper dowel. Make the
-turntable somewhat round at each end. In the center of it, glue and nail
-the lower dowel. Next, paint the house if desired. The violin string is
-glued and wedged into holes in the upper and lower dowels so that the
-turntable will swing 3/16" above the floor.
-
-The man and woman may be made of cardboard, wood, clay, chalk or plaster
-of Paris; or they can be bought at a toy store. Painted in bright colors
-and shellacked, or varnished, they look well. They can be made to
-balance on the turntable by adding a piece of lead. Of course, neither
-they nor the turntable should touch any part of the house as they swing
-around.
-
-[Illustration: HYGROSCOPE
-
-OR
-
-WEATHER COTTAGE
-
-PLATE 17]
-
-
-
-
-                        ELECTROPHORUS--PLATE 18.
-
-
-The electrophorus consists of two parts, a pan filled with a resinous
-mixture, and a cover which has been completely covered with tinfoil.
-Under favorable conditions, a spark of electricity 1/2" long can be
-obtained from this electrophorus. The favorable conditions are these:
-The air should be dry; both parts of the electrophorus should be warm,
-dry, and clean; and the tinfoil and rosin should be perfectly flat, so
-as to come in close contact with each other.
-
-Make the pan and its sides as shown in Plate 18. Glue and nail the sides
-in place and round their upper edges well with sandpaper. To make the
-resinous mixture, melt a half teacup of rosin with two teaspoons of
-turpentine and about the same of paraffin in a rather deep dish, and
-pour the mixture into the pan. As all these materials are inflammable,
-perhaps the safest place to melt them is in the oven. After the pan is
-cold, test the surface of the rosin to see that it is flat every way. If
-it is not flat, sandpaper the high parts slowly with coarse sandpaper.
-
-When making the cover, observe the directions on page 20, then round the
-edge to a good half-circle. Test the cover also to see that it is flat,
-especially on its under side, for to get good sparks, the tinfoil and
-rosin must come just as close together as possible. Cut two circles of
-tinfoil 4-1/2" in diameter. Smooth them carefully on a piece of paper,
-spread glue thinly on the cover, lay the tinfoil on the glue, and smooth
-it with the fingers. Press the edges as smooth as possible because
-electricity escapes easily from sharp corners. Cover the larger open
-spaces with bits of tinfoil. Hard rubber (ebonite), being a
-non-conductor of electricity, makes the best handle. A piece of an old
-rubber comb or a fountain pen can be used for this purpose.
-
-To get a spark of electricity, rub the rosin with soft leather, fur, or
-woolen; place the cover on it; touch the top of the cover with the
-finger (to remove the negative electricity); lift the cover by the top
-of the handle; bring the edge of the cover near a finger, or other
-conductor, and a spark will fly off with a snap. It is a miniature flash
-of lightning. Some books on electricity describe many other experiments
-which can be tried.
-
-[Illustration: ELECTROPHORUS
-
-PLATE 18]
-
-
-
-
-                         WATERWHEEL--PLATE 19.
-
-
-This waterwheel is designed to be placed in a flowing stream. A longer
-trough might well lead the water into this one so as to get greater
-speed.
-
-Make the trough first, being careful to make a good fit where the sides
-nail to the bottom. Nail the top 5" from the end where the wheel is
-placed. The upper corners of the axle blocks are to be cut off 1". The
-center of the 5/16" hole for the axle is 7/8" from the lower edge. When
-nailing the axle blocks in place, put a dowel or lead pencil thru the
-holes to help in nailing the blocks exactly opposite each other.
-
-After sawing a board for the wheel 4-1/4" square, draw the diagonals and
-diameters (cornerwise and crosswise, that means) to divide it into eight
-parts. Draw a 4" circle for the wheel and a 3-1/4" circle to mark the
-depth of the notches for the paddles. Shape the wheel. (See page 20 for
-directions.) Test it with the trysquare to keep the edge square with the
-flat surface. Bore a 1/4" hole in the center with the greatest care, or
-the wheel will wobble sidewise. The notches are cut with the back-saw
-alone. One-eighth of an inch to one side of the eight lines across the
-circle, saw straight down to the inner circle. Be careful to hold the
-saw square with the wheel. After this saw cut is made, measure the width
-of the notch by holding the edge of a paddle so as just to cover the saw
-cut, and, with a knife point make a dot at the other side of the paddle.
-Holding the trysquare against one side of the wheel and the inner edge
-of its blade over the dot, score a knife line across the edge of the
-wheel. Then saw straight down again _inside_ this knife line. Saw
-cornerwise a few times and the wood will be removed sufficiently. The
-notches may better be too small than too large, for the paddles can be
-planed thinner to fit. Clean the wheel with the plane before nailing the
-paddles. All these paddles except one can be nailed with the wheel held
-in a corner of the vise. To nail that one, put a thin board upright in
-the vise and rest the wheel on its top. All nails should be started in
-the paddles, not in the wheel.
-
-[Illustration: WATERWHEEL
-
-PLATE 19]
-
-Make the axle of hard wood. Push it thru the axle blocks and wheel, and
-lock it to the wheel with a brad, Plate 19. The axle is made long so
-that a pulley (spool) can be put on and a belt (string) run from this to
-other pulleys. A leather washer outside each axle block keeps the wheel
-in the center. If the work has been carefully done, the paddles will not
-strike; if they do strike, they must be pared off.
-
-
-
-
-                         WATER MOTOR--PLATE 20.
-
-
-This motor is a waterwheel designed for an ordinary hose faucet. Under a
-stream of water no bigger than a large needle, it will fairly buzz. If
-the wheel does not run exactly true on the axle, the motor will need
-legs screwed on the outside of the box.
-
-Make the wheel of soft wood just as true as possible. (See page 20.) For
-the axle a small brass rod or a large knitting needle may be used. In
-the center of the wheel, drill a hole smaller than the axle so as to
-make a tight fit. Be very careful to bore this hole straight. Force the
-axle thru the wheel, and if the wheel wobbles only slightly drive wooden
-wedges beside the axle to force it square with the wheel. If it wobbles
-too much, plug the hole and try boring again. Resting the axle on the
-jaws of the vise, revolve the wheel rapidly to see where it is out of
-true, and patiently pare it down. The flat side of the wheel which
-wobbles only a little can be planed off. The strip of screen wire
-netting should now be tacked on the wheel. It is long enough to go twice
-around the wheel, and should be tacked on with a dozen small tacks.
-
-For suggestions about the pulley see page 56.
-
-Prepare a block of soft wood for the coupling. From its bottom, gage a
-line marking the height of the dovetails in which the blocks C and D fit
-3/8" on each side. Saw these dovetails 3/16" deep, and pare them
-slanting with a chisel. In the center of the top, bore a 1" hole, 3/4"
-deep; continue the hole thru the block with a 1/2" bit. Bore holes 3/8"
-from the top, 1/2" from the ends for the two 1-1/2" screws which are
-shown in the small drawing, Plate 20. Gage and saw out the left-hand
-half of the block (as shown in the plate) as deep as the 1" hole. The
-purpose of this is to permit a squeezing fit on the threads of the
-faucet. When first trying it on the faucet, squeeze it hard with a
-hand-screw to jamb the threads into the wood; after that, the screws can
-be put in and the coupling attached at pleasure. A 1/4" hole is bored in
-the 1/2" dowel, which serves as a nozzle, until the spur just shows.
-Without allowing the bit to bore any farther, turn it around enough so
-that the spur will wear the wood and thus make a tapering hole as shown
-in the sectional drawings.
-
-Prepare the sides, ends, and top of the box, the three blocks, the key
-wedge, and the two stops. The wedge should be 1/16" wider at one end
-than the other and should fit the dovetail. Block C should fit the
-other. In the top piece, bore a 3/4" hole in the middle 1-1/4" from the
-end. This hole is larger than the nozzle to allow for adjustments. All
-these parts must now be thoroly soaked with paraffin. Melt the paraffin,
-apply it with a brush to all surfaces, and drive it in with heat. During
-the process, the nozzle can be made fast in the coupling, using plenty
-of paraffin to make it water tight. See that the tiny outlet occupies
-the best position for directing the water onto the wheel. After the
-nozzle is cold again, the outlet should be carefully worked out again
-with the warm point of a big hat-pin or wire, filed to a good point.
-
-Put the parts together as follows: Nail one side (the right in the
-plate) to the ends; screw the other side to ends; nail top to ends and
-first side only; nail block B to A; then A to the top. Unscrew the side
-and bore holes in the center of the sides for the axle. Make them fit
-nicely, then soak them with paraffin. Put the wheel, the side, the
-pulley, and the stops in place. Put the coupling in such position that
-the nozzle comes over the rim of the wheel and nail block C. After
-putting two or three soft leather washers in the coupling screw it to
-the faucet, lock it to the motor, and the motor is ready.
-
-Better bearings for the axle can be made of two pieces of solder screwed
-to the inside of the sides. If these are made, the holes in the sides
-should be large enough not to touch the axle. The wheel and pulley can
-be locked to a brass axle by boring a hole thru the axle with a drill
-made of a needle. (See Drills, page 11.)
-
-[Illustration: WATER MOTOR
-
-PLATE 20]
-
-
-
-
-                         SAND WHEEL--PLATE 21.
-
-
-Fine sand will make a wheel like this spin around lively. Most of the
-parts are easily made, the wheel offering the most difficulties.
-
-As shown in the drawing it consists of two boxes, uprights connecting
-the two, and a wheel with paddles swung on an axle between the uprights.
-
-[Illustration: Fig. 4]
-
-To make the curves on the uprights, lay them edge to edge in the vise
-and start the spur of a large bit in the crack, 1-1/2" from each end. If
-a big spool cannot be obtained for the wheel, plane out an octagonal
-block 1-3/8" long, 1" in diameter. The slanting part of the spool must
-be whittled away. Divide one end into eight equal parts and draw lines
-lengthwise on the spool at each division. On these lines, measure very
-carefully 11/16" from one end. Then, holding the spool level in the vise
-bore 3/16" holes half thru the spool at each of these dots. The easiest
-way to lay out the paddles is in one long piece as shown in Fig. 4. If
-lines A and B are sawed carefully (see page 12) they will fit the spool
-well enough to glue. The stems of the paddles go into the holes bored in
-the spool. They are easily made round by paring the corners a little,
-and then screwing them around in a 3/16" hole in a piece of hard wood.
-The ends of the paddles where the sand strikes are bevelled on the under
-side. The holes in the uprights, thru which 1-1/4" brads are pushed into
-the center of the spool, must be exactly opposite each other, 3-1/4"
-from the bottom. Little leather washers should be put between the spool
-and the uprights.
-
-[Illustration: SAND WHEEL
-
-PLATE 21]
-
-Now make the boxes. To nail the boxes to the upright follow the
-suggestions on page 59 for nailing the floor of the weather cottage.
-Keep the brads near the center of the uprights lest they split the
-curves. A 5/16" hole for the sand is bored in the upper box in such a
-position that the sand will strike near the middle of the ends of the
-paddles. The peg is tapered to fit this hole.
-
-
-
-
-                        RUNNING WHEEL--PLATE 22.
-
-
-It is fine fun for several boys to race down the street with running
-wheels. Each boy can have a different kind of wheel by following the
-suggestions on Plate 22.
-
-[Illustration: Fig. 5]
-
-The wheel may be made any convenient size. Saw a board off square and
-plane it flat. To be sure that it is flat, it must be tested with a
-straight-edge from corner to corner, crosswise, and lengthwise. Draw the
-circle with a string pinned to the center, if a large compass is not at
-hand. Saw it with a turning saw and finish it as suggested on page 20.
-Bore and countersink a hole in the center for a 1-1/2" flat-head screw.
-Make the handle and drill a small hole in it where the wheel is to be
-screwed on. Round off the upper end and edges of the handle so that it
-feels good to the hand grasping it. The screws used in the connecting
-rod should slip easily thru the holes at each end. Altho one arm will
-do, two look better. To draw the boy, draw as many 3/4" squares on the
-board as there are in Fig. 5, then sketch the outline one square at a
-time. To cut it out, a scroll-saw or turning-saw is almost surely
-needed, tho a patient boy can do it with auger-bits, back-saw, knife,
-and file--the bits to be used first at all the inside angles. On the
-handle, must be put a block on which to screw the boy. To fasten the two
-arms loosely at the shoulders, the screw should be loose in the shoulder
-and first arm, and tight in the second arm. The same is true of the
-hands and flagpole. In the top of the flagpole, bore a hole to fit a
-small flag. Paint of bright colors makes the model look much more
-pleasing.
-
-An easy way to make the sliding part of the lower right-hand running
-wheel, Plate 22, is to cut out with bit and chisel a narrow slot thru
-the handle, wide enough for two screws, with washers on them, which
-screw into the block holding the flag.
-
-[Illustration: RUNNING WHEEL
-
-PLATE 22]
-
-
-
-
-                           RATTLE--PLATE 23.
-
-
-This is a noisy toy and will make a safe substitute for fire-crackers on
-the Fourth of July. Some of the dimensions may be changed to suit such a
-spool as can be obtained. It should be a rather deep spool, that is, one
-that held a lot of thread.
-
-The noise is made by the spring snapping off the slats in the spool as
-the head of the rattle is swung round and round. Draw lines across one
-end of the spool to divide it into eight equal parts. Place the spool
-endwise in the vise and, with the back-saw, cut eight notches a little
-more than 1/16" wide straight towards the opposite side of the spool. By
-sawing twice at each notch, the wood which remains can easily be removed
-with the saw held slanting. There are several ways of making the eight
-little slats which fit into these notches; the easiest, perhaps, is to
-split them from a block (1-5/8" x 1-1/2" x 5/16") of a straight-grained
-wood, and plane them on the jig described at the foot of page 19. Glue
-them in the notches. Plane the back and the spring this same way. Square
-both ends of the back but do not plane it quite to width until it is
-glued and nailed in place. In the two sides, bore a 5/16" hole for the
-dowel, 3/4" from the end and a little over 3/4" from the back edge.
-(Holes are always located by their centers.) This dowel must fit tightly
-in the handle and spool, and loosely in the two sides. Plane the spring
-thinner at the narrow end. It should be narrow enough and its corners
-cut off enough so as not to touch the spool when it snaps. The handle
-might well be octagonal rather than round.
-
-The parts may now be put together as follows: Glue and nail the sides
-first to the thick end, second to the thin end. The distance between the
-ends inside is 3-5/16". Keep these four parts flush on the back edges so
-that the back will fit. Glue and nail the back. Glue the dowel in the
-handle. Put glue inside the spool and on the middle portion of the
-dowel, then, with the spool between the two sides, push the dowel thru
-all three holes. Glue and nail the spring in place. It should be as far
-towards the spool as it will go without snapping the next slat when it
-snaps off one slat.
-
-[Illustration: RATTLE
-
-PLATE 23]
-
-
-
-
-                            CART--PLATE 24.
-
-
-The important features of a cart are the wheels and axle and the tongue;
-if these are strong and the tongue securely fastened, almost any box
-will do for the body. Two tongues, nailed or screwed to the sides of the
-body, probably make the strongest handle, but they are not so good
-looking as the one shown in Plate 24. If this one is screwed to the box
-with six 1" screws, two in the tongue and two in each block, it will be
-strong enough. Some of the nicer boxes to be secured of a grocer will do
-for a body, tho it is better to make one one's self.
-
-Four wheels of 1/2" hard wood should be made (see page 20) and then each
-two of the four glued and nailed together very securely with the grain
-crosswise. For this purpose, 1-1/4" clout, or clinch nails are best. Do
-not drive them too near the center nor the rim. To clinch nails, they
-should be driven onto a piece of iron. After this is done, a 7/8" hole
-(or larger if you can get a larger stick for the axle) is bored straight
-thru the center. To cut the cylindrical ends of the axle, first draw a
-7/8" circle at the center of each end, then lay out and saw out two
-rectangular pieces, one on each side of the circles so as to leave a
-7/8" square pin, 2-1/4" long. Proceed to make these pins; first, eight
-sided; then, sixteen sided; then, round; using knife or chisel and a
-coarse flat file. Make the hole in the washers before cutting off each
-corner 9/16". These washers are to be fastened to the axle when held
-rather snugly against the wheel with two 1" screws put crosswise the
-grain. Before putting the wheels on the last time, rub the axles and
-holes well with hard soap to make them run easier. Draw a line across
-the bottom of the body 5" from the back end, and bore four screw holes
-thru the bottom; countersink them well on the inside of the body, and
-put 1" screws thru into the flat side of the axle. The axle is planned
-so that the wheels run within 1/8" of the body.
-
-[Illustration: CART
-
-PLATE 24]
-
-With a curved lower edge, the tongue is 2-1/2" wide at one end and
-1-1/2" at the other. To get the correct slant at the wide end, block up
-the cart level, have some one (or the vise) hold the tongue in the
-position wanted when finished, then with a strip of wood about 2" wide
-placed upright against the front of the body, draw a line on the tongue.
-From the lowest corner of the tongue, draw another line parallel to the
-first, and saw off. After making the two blocks and fastening them
-securely to the tongue, saw the lower ends flush with the curve of the
-tongue. Place the tongue in position, draw a line around it on the body,
-then bore holes where screws will go best into the tongue and blocks.
-Six 1" screws well countersunk will hold the tongue securely. Since the
-tongue is fastened to the _front_, the sides and bottom must be well
-nailed to _it_; or, the corners may be strengthened with a piece of tin
-inside and outside each corner, tacked or riveted together. Each piece
-of tin should be about 3" square.
-
-A piece of old bicycle frame forced tightly into the hole of a wheel,
-makes it very durable. Such a hole would doubtless have to be bored with
-an expansive bit. A bicycle frame is easily filed in two at some
-distance from the reinforced joints. Such a piece should be longer than
-the thickness of the wheel to allow filing it flush after it is driven
-in. To force it in, use a strong vise, or, after protecting it with hard
-wood, drive it slowly with a heavy hammer.
-
-Small carts can be made with wheels made of spools like those of the
-cannon. (See Plate 25.)
-
-
-
-
-                           CANNON--PLATE 25.
-
-
-This cannon will shoot small marbles very well. The force of it depends,
-of course, on the strength of the rubber bands. Because the ramrod and
-handle are rather heavy, a strong dowel is put thru the handle and
-ramrod. The rubber washer absorbs some of the shock.
-
-For the barrel draw a 1-1/4" circle on one end of a stick 6-1/2" x
-1-1/2" x 1-1/2". From the center of this circle, bore a 9/16" hole
-straight thru the stick endwise, stopping as soon as the spur comes
-thru. Set the needle of the compass in this spur hole and draw a 1"
-circle and, if possible, a 1-1/4" circle; then finish boring.
-
-Plane the stick round to the 1-1/4" circle. To hold the stick while
-doing this, put a rod thru the hole, open the vise 6-1/2" and let the
-barrel rest endwise in the vise. Two and one-half inches from the breech
-end of the barrel, draw a line around it to limit the taper of the
-muzzle end. Plane the muzzle to the 1" circle. Two inches from the
-breech, bore a 3/8" hole straight thru the barrel; and into this hole
-glue the axle. After the glue is dry, bore out the barrel again, and
-sandpaper the hole well.
-
-Make the ramrod fit loosely in the barrel. (See directions for Dart,
-page 16.) Make the handle in the same manner as the barrel was made,
-except that, after drawing the 1-1/4" circle at the end where the spur
-just appears, the hole is _not_ bored further. Glue the ramrod in place,
-and fasten it with the 3/8" dowel. The curved notch into which the
-rubber bands are tied, can be worked out patiently with a round file,
-first cutting a V-shaped notch with a knife. Pare the corners and
-sandpaper all parts well.
-
-The rubber washer can be made of an old rubber heel. To bore a hole in
-it, squeeze it between two boards and bore thru both together.
-
-At least one of the uprights must be screwed to the base. The first one
-may be nailed. Glue and nail this one 1/4" from the edge of the base.
-Hold the other in place and draw a line around it. Bore holes for the
-screws, put the screws in the holes, and press the upright on them to
-mark where to bore in the upright. After boring in the uprights, put the
-cannon and upright in place, and tighten the screws. The wheels can be
-made of the ends of large spools, well countersunk for a short, large
-screw.
-
-[Illustration: CANNON
-
-PLATE 25]
-
-[Illustration: AUTOMOBILE
-
-PLATE 26]
-
-
-
-
-                         AUTOMOBILE--PLATE 26.
-
-
-Tho the motor (an elastic band) which makes this automobile go is a
-short-winded affair, still, if the wheels are easy running, it will go
-alone for a short distance on a wooden floor. A stronger elastic can be
-used if the automobile carries a load. If the parts are painted with
-bright colors before they are entirely put together, the automobile will
-look very well.
-
-First, make the body, then 4-1/4" from the front end and 3/4" from the
-right side, bore a 1/4" hole in the body for the steering post. This
-should fit tightly so as to hold the wheels in any position desired.
-Leather washers are nailed to the post close to the body. The steering
-post must be put in place before any other parts are fastened to the
-body.
-
-The ends of the rails which are later fastened to the bottom of the
-body, slant 1/2". The center of the holes for the axles is 3/4" beyond
-this slanting line and 1/4" above the lower edge of the rails. When
-boring these 1/4" holes, the rails should be clamped together so that
-the holes will be exactly opposite each other. The forward holes are
-made long to allow the axles to swing back and forth. To make this hole,
-two 1/4" holes are bored side by side and the top and bottom smoothed
-with a 1/4" chisel. When nailing the body to the rails, put the rear
-axle thru the holes to aid in keeping them opposite each other.
-
-The forward axle is made in one piece and kept so until after the
-steering "rope" is in place. The axle must be held carefully in place
-while the brad holes are bored 1/8" from the outer edge of the rails and
-straight thru the center of the axle. A tight fitting brad is driven
-into this hole. The steering rope must not stretch; large, hard thread
-is suitable. Wind a piece about 18" long tightly around the axle about
-1/4" from one rail and tie it. Pass one end thru the small screw-eyes
-shown in the lower drawing, and wind it around the axle near the other
-rail leaving no slack in the screw-eyes; then wind six to eight turns
-smoothly around the steering post, and fasten the end to the beginning
-with several half-hitches. (See Plate 15.) A separate thread should be
-tied around the axle and steering rope at the second place. Should
-there be any slack, it can be taken up by laying a V-shaped thread over
-the steering rope near the axle and passing the two ends over the upper
-side of the axle, and tying them across the steering rope on the other
-side of the axle. This tends to pull the steering rope together on top
-of the axle.
-
-The wheels can be sawed from short lengths of curtain poles, obtained at
-a furniture store. The 1/4" holes for the axle, must be bored exactly at
-the center. The wheels must turn freely on the front axle, but be glued
-to the rear axle, which must itself turn freely in the rails. After the
-wheels are in place, the front axle can be sawed in two with a back-saw,
-using very short strokes, and sawing two cuts nearly thru before either
-is sawed completely.
-
-Nail the wind-shield to the engine, then glue both to the body. Nail the
-seat-back to the seat so that the top of the seat will be 3/4" above the
-body, then nail the two sides to the end and to the seat-back and seat.
-Glue the whole to the body. Nails can be driven up thru the body into
-the engine, the seat back, and the end, if care is used in locating
-them.
-
-One end of the elastic band (motor) is tied with a bit of string to a
-brad driven in the forward end of the body of the automobile. On the
-other end of the elastic band is tied a piece of string about 8" long.
-This is put just under the body and above the steering rope and wound
-two or three times tightly around the rear axle and tied. The string and
-elastic band should be simply straight, the elastic neither stretched
-nor loose. To wind up the motor, move the automobile backwards on the
-floor and hold the rear wheels until ready to let the automobile go.
-
-
-
-
-                         BOW PISTOL--PLATE 27.
-
-
-For target shooting in the house, this is a fine toy. With nicely made
-arrows and a good bow, it will shoot very well.
-
-Make a good bow of rattan, or other tough wood. An old spoke of a
-carriage wheel could doubtless be obtained of a blacksmith or
-wheelwright, and such a hickory spoke would make a good bow. Make the
-bow much like that shown on Plate 8, except that it should be round at
-the center to fit the 3/8" hole in the pistol. The bowstring should be
-a hard cord so that it will slip easily from the notches in the barrel
-when the trigger is pulled.
-
-[Illustration: Fig. 6]
-
-Before shaping the pistol, make the groove in the center of one edge of
-the board. This should be made with a 3/8" round plane. It can be made,
-however, with the tool shown in Fig. 6, a gouge, and a round file. This
-tool is much like the one described on page 41 tho a larger nail is
-used. Make the groove 7/32" deep; gage a line 3/16" from each side of
-the board; then use the gouge inside these lines and as deep as the
-groove. When the gouging is well done, smooth the groove with a round
-file or coarse sandpaper wrapped around a pencil.
-
-Draw and shape the pistol. Make the lower edge of the barrel half round.
-Sandpaper it well. Make the trigger of hard wood and screw it on the
-pistol. The shape of the notch next to the trigger is very important but
-the shape of the other one is not so. Both notches, however, must be so
-smooth and well rounded as not to injure the bowstring. They should be
-not deeper than one-half the depth of the groove.
-
-Arrows are quickly made by sawing long strips of straight-grained wood,
-3/16" square, planing the corners, and sandpapering; then cutting them
-5" long, splitting the ends (see page 16), inserting a paper 1" x 1/2"
-and tying the end with thread.
-
-[Illustration: BOW PISTOL
-
-PLATE 27]
-
-
-
-
-                         ELASTIC GUN--PLATE 28.
-
-
-If cash carrier elastic cord about 5/16" in diameter and 18" long is
-used on this gun, it will shoot buckshot, peas, small arrows, etc., with
-considerable force; in fact, if the cord is fastened far enough forward,
-it will require all a boy's strength to pull the rider back to the hook.
-The gun may be made of pine, whitewood or clear spruce.
-
-[Illustration: Fig. 7]
-
-To lay out the gun (see Fig. 7) first draw A B, then A C, then measure B
-D and draw C D; next measure the width of the barrel and draw E F; add
-3/8" below this for the gun-stock, and finally draw the curves freehand.
-To saw it out, first rip it along E F, then cross cut it at H F, then
-rip it as far the curve along C D, and then along the lower side of the
-gun-stock to meet C D, finally along A B. Of course, none of this sawing
-should quite touch the lines. Plane to these lines wherever possible,
-then use the spokeshave. The curve and corner at F should be pared with
-a chisel. The lower edge of the gun-stock and barrel is made half-round,
-but the upper edge, especially where the spring is screwed, is only
-slightly round. The curve at the butt of the gun-stock should be cut out
-with the turning-saw, and rounded with a half-round file. The groove can
-be made as in the bow pistol. (See page 86.)
-
-All parts of the gun should be well sandpapered, especially where the
-elastic will rub on the barrel.
-
-Make the trigger of tough wood.
-
-[Illustration: ELASTIC GUN
-
-PLATE 28]
-
-Bore a 1/4" hole for the trigger post about 3/4" from the back end of
-the groove, making it slant forward about 3/4". Make this hole smooth as
-possible. Where the hole comes thru the gun-stock, start the mortise in
-which the trigger belongs. This should be 3/8" deep and an easy fit for
-the trigger. Put the trigger in place, and drill a small hole straight
-thru the gun-stock and trigger. Consider carefully where to bore this
-hole so that it will not come too near the edge of the trigger. Insert a
-good-fitting brad and see if the trigger post will move up and down
-about 1/4". Do not make the mortise so long that the trigger post will
-slip by the trigger.
-
-Now make the spring of hard wood. Pare the curve from each end with a
-chisel, holding the spring endwise in the bench-hook. The holes for the
-screw and the hook must be large enough so that the spring will not be
-split, and yet the hook must be screwed in strongly to hold the elastic.
-The hook must be filed off enough, and slanting, so that the screw-eye
-in the rider will slide under it and be caught.
-
-The rider is the hardest part to make because it is small and must be of
-hard wood; also, the block must be nicely fitted into the long piece.
-Make the lower edge of the long piece round so as to slide well in the
-groove. Bore a 5/16" hole thru the block _endwise_ the grain,
-countersink the ends, and smooth them so that they cannot injure the
-elastic. Next lay out, saw, and chisel a notch 5/16" deep in the long
-piece in which the block will fit snugly. Glue it and nail it from the
-under side, or put in a 1/2" screw. Holes will have to be bored
-carefully for either brads or screw. Bore a hole, and put the screw-eye
-in such a position that it will slide under the hook with a snap. Be
-careful not to twist the eye off in this hard wood. The back end of the
-eye might well be filed somewhat slanting so as to slip under the hook
-better.
-
-Put the elastic thru the rider, snap the rider on the hook, and pull the
-ends of the elastic as far as seems best,--don't have it too strong!
-Where the ends of the elastic are pulled, bore two 1/4" holes thru the
-barrel one above the other. Bind the elastic securely between these
-holes; to make it doubly secure, wind a string between the elastic and
-the barrel to pull the first strings closer together.
-
-Now saw off the ends of a spool about 1/2" and screw them to the barrel
-in such a place that they will hold the elastic, without stretching,
-against the sides of the barrel. These spools should turn easily. They
-cannot be placed exactly opposite because the screws will interfere.
-
-Snap the rider to the hook, pull the trigger, and notice that the rider
-goes up with the trigger post. To hold it down, put a slender 3/4" screw
-on each side of the groove in such a place that the screw heads will
-come over the outside of the screw-eye; or, 1" brads may be bent over
-the screw-eye. When everything is in working order, drive a 1" brad on
-each side of the spring to keep the hook always in place.
-
-
-
-
-                       RATTLE-BANG GUN--PLATE 29.
-
-
-For boys who want to play soldier, here is a gun which will make a big
-noise but will not hurt anybody.
-
-First, make the rattle of maple. The slot in it can be made with the
-rip-saw. The solid end must be nicely squared to fit the forward end of
-the pocket cut out of the gun-stock. Here it must be held firmly in
-place by glue and two screws. One screw is put slanting from the top of
-the gun-stock; the other is put straight from the bottom. That the
-rattle may sound the loudest, it must not touch anywhere else than this
-solid end. When putting the knocker and trigger in place, see that they
-also do not touch the rattle. The gun-stock is made like that of the
-elastic gun (Plate 28) except that it has to be 2-3/8" wide in that
-portion which holds the rattle. The pocket is 3-1/2" from the forward
-end and 1-1/2" deep where the solid part of the rattle fits. To put the
-slanting screw in nicely, a place must be cut out with a small chisel
-for its head, 3/8" deep and 1/2" away from the pocket. Clamp the rattle
-in position, bore a hole for the screw, then glue and screw the rattle
-in place. Before the glue is dry, see that the rattle is straight, then
-put the lower screw into it.
-
-Make the knocker of maple. The reason for the triangular notch in its
-bottom edge will be evident when the trigger is turned around. The
-stiffer the spring is, the harder, of course, it will strike the rattle,
-and also, the harder the trigger will turn; 1/8" will be thick enough
-for the thinnest place.
-
-The trigger should also be of maple. Join it with a cross-lap joint.
-(See page 24.) Then, holding each end successively upright in the vise,
-draw the slanting lines and saw for 3/8" lengthwise in such a way as to
-leave 1/16" flat on each of the two adjacent surfaces. After sawing
-endwise, saw the little corner pieces off crosswise. The trigger has to
-withstand considerable pulling, so it should fit nicely, yet easily, a
-1" screw in its center. Before screwing either the knocker or the
-trigger in place, lay both on the gun-stock so that they will engage
-properly; then mark the place for the screws, drill holes, and screw
-them on. If the knocker touches the rattle, take it off and plane a
-slanting chip or two where it is screwed to the gun-stock. A thin
-leather washer 5/8" in diameter will prevent the trigger touching. A
-little soap will make the trigger turn easier.
-
-[Illustration: RATTLE-BANG GUN
-
-PLATE 29]
-
-The barrel may well be made of a broomstick. To make it fit on the top
-of the gun-stock, saw it down the middle and cut off the lower half.
-Before fastening it in place, be sure that it will not touch the
-sounding part of the rattle.
-
-[Illustration: Fig. 8]
-
-A still louder and more difficult rattle to make is shown in Fig. 8.
-Most boys would find it impossible to bore a 1" hole endwise in maple.
-The knocker and trigger would both have to be set out from the
-gun-stock.
-
-
-
-
-                            BOAT--PLATE 30.
-
-
-This boat is designed rather heavy to insure good service. It has
-ballast and beam enough to right itself even tho the sails do get wet.
-If a better looking boat is desired, draw the deck more slender; hollow
-the hull with bit and gouge; pare the gunwales with the spokeshave to
-give it some sheer; and nail on a thin deck. Soft pine is the best wood
-for the hull and spruce for the spars.
-
-To lay out the hull, draw a center-line lengthwise on top, bottom, and
-ends of the block of wood. Make all the measurements given on the deck;
-(top of the hull, Plate 30) first lengthwise, then crosswise. Square
-with the deck, the curve should be worked out with rip-saw and
-spokeshave. The stem should next be undercut with the saws (rip and
-crosscut) so as to make place for the rudder. On the bottom leave a flat
-place 7-1/4" x 1/2" for the keel to fit; then round the hull as
-suggested by the sectional drawings at AB and CD.
-
-Make the keel and nail it securely in place. From the under side of the
-boat and slanting the same as the keel and undercut, bore a 5/8" hole
-for the stem of the rudder.
-
-Make the rudder and tiller of 1/4" wood. The little mortise in the
-tiller can be cut with a small chisel after a 3/16" hole is bored at its
-center. For the wheel, make a dowel about 2" long and into one end of it
-bore a hole about 1" deep for a 1-1/4" screw. Saw a piece from this end
-5/8" long and screw it to the deck about 1-1/2" in front of the hole
-bored for the rudder. The wheel should turn rather hard so as to stay in
-any position desired.
-
-To make the spars, (mast, boom, etc.,) follow the directions on page 16.
-Use large screw-eyes in the gaff and boom (or see Plate 16, "method of
-swinging booms to mast") and a very small one at the top of the mast. To
-nail the bowsprit securely, place it 1" back of the prow, drive a 1"
-brad thru it near the prow, and one on each side of it 3/4" back. Bend
-these latter over the bowsprit before they are driven in their full
-length. An upward slant is given to the bowsprit by planing its larger
-end slanting to fit the deck.
-
-The rudder is hung on two staples made of pins. Two headless pins are
-driven into the rudder and bent down at right angles to slip into these
-staples. In order that the stem of the rudder may turn enough, the
-rudder must be hung close to the hull. Each "rope" of the rigging should
-have its own screw-eye (or staple) and cleat on the deck. The cleat (a
-device for fastening a "rope" in any position, by winding it back and
-forth) is simply two slender brads driven slanting.
-
-The mainsail should be 9" on the mast and 11" at its outer edge. It
-should be hemmed and properly fastened to the spars. On the mast, fine
-wire rings or loops of thread may be used. The jib should extend 9" up
-the stay (the "rope" from the end of the bowsprit to the top of the
-mast) and be either sewed to it or made to slide on it with small rings
-of wire.
-
-Ballast can be cut (with tin-shears or saw) from lead pipe and nailed to
-the keel. To drive brads thru lead, pinch them between the thumb and
-finger, and drive them gently.
-
-For convenience in holding the boat when it is out of the water, make a
-dry dock as shown in the drawing.
-
-[Illustration: BOAT
-
-PLATE 30]
-
-
-
-
-                         PILE-DRIVER--PLATE 31.
-
-
-In wet, soft soil, wherever any building operations are to be
-undertaken, long, straight logs called piles have first to be driven to
-support the foundation. In wet soil they never rot; those driven for the
-building of Venice centuries ago are still solid. If holes are bored in
-the weight of this toy pile-driver, it is made more effective.
-
-This is not a difficult model if each part is well made. It is
-important, however, to nail it in the following order: Runs to uprights,
-uprights to sides, sides to base, top to uprights, braces to uprights,
-then to base. The ends of the braces are mitered, that is, sawed, like
-the corner of a picture-frame, on the diagonal of a square. The axle of
-the little spool is made by two 1" brads, and it rests in notches as
-near the end of the top blocks as is convenient to file them. It is held
-in place by little brads, or pins crossed over it, or by a staple made
-of a pin. A crank for the big spool (called the drum) is made of a 3"
-piece of stiff wire. It should be flattened enough not to turn in the
-drum. Fasten the string to the drum thru a little hole drilled thru its
-rim. If the string comes off the upper spool, put a large screw-eye into
-the top piece and pass the string thru it.
-
-[Illustration: PILE DRIVER
-
-PLATE 31]
-
-
-
-
-                          WINDMILL--PLATE 32.
-
-
-On a hilltop, exposed to every wind that blows, one of these windmills
-made by a boy has been spinning around for four years. The windmill in
-this form serves also as a weathervane. Pine is the best wood for this
-model. To withstand the weather, the model should be painted.
-
-After planing the post to size, lay out the chamfers (see page 32) with
-a pencil on all four sides. The curve should be cut with a knife; the
-upper part may be planed if the square part is not squeezed in the vise.
-Plane the two pieces for the vanes as accurately as possible so as to be
-able to make a good joint. Lay out and cut this joint as directed on
-page 24. After it is well fitted, draw the curves where the edges are to
-be whittled away. There are sixteen of them. Open the compass 3/4" and
-place the needle point always on the _front right-hand_ edge as the
-wheel turns around. The curve begins 1/8" from the joint and ends 1/8"
-from the back edge (one also goes towards the lower edge). From this
-point draw a straight line to the end of the vane. Draw such lines as
-explained on page 32. Take the joint apart and whittle the edges away to
-these curves.
-
-On the beam, make chamfers 1-3/4" long. At the rear end, on the top and
-bottom, draw a center-line and two lines on each side of the center-line
-1/8" apart. Between the first two, nearest the center-line, make the
-V-shaped groove in which the rudder fits. The sides of the beam are to
-be pared away to the other two lines, leaving this end 1/2" wide.
-
-The curves at the rear end of the rudder can be sawed best with a scroll
-saw. Lacking that, proceed as follows: First, bore a 1/4" hole near the
-short straight line in the middle. Resting the rudder on a cutting
-board, pare to this line with a chisel. Next, saw straight from the end
-of the rudder to this straight line; then saw the corners, and pare to
-the curves. The width of the notch at the front end of the rudder is
-equal to the space left between the roots of the V-shaped notches in the
-beam. Measure this space, lay out the notch, saw, and chisel it; then
-pare the corners so as to fit the V-shaped notches in the beam. Beware
-of crowding the rudder, for it will split easily. When fitted, glue and
-nail it in place, slanting a 1" brad thru the curve into the beam.
-
-[Illustration: WINDMILL
-
-PLATE 32]
-
-Put the wheel on the beam with two washers and a large screw (2" No. 12
-round head is a good one). For this screw bore a 1/4" hole thru the
-center of the wheel, and a smaller hole in the beam. Now balance the
-windmill on the top of the post, and put the beam and post together with
-washers and screw in the same manner.
-
-
-
-
-                      KITE-STRING REEL--PLATE 33.
-
-
-A boy who flies kites will appreciate this reel for hauling in his kite
-quickly and keeping the string in order. The axle is made long for the
-purpose of putting on a brake when letting out a kite. The brake is
-simply a strong cord, fastened to a screw in the lower part of the
-further upright, (as viewed in Plate 33) wound several times around the
-axle, and the other end held in the hand. A 1" hole is bored in the base
-so that the reel can be anchored to the ground with a stake. With a loop
-of string fastened to the upright below the crank, the crank can be kept
-from turning, if one does not wish to let out all of the kite-string.
-
-Make the base first, then the uprights. In the uprights, it is more
-convenient to bore the 9/16" holes before the sides are planed slanting.
-After the wheel pieces are joined in the manner explained on page 24,
-lay out the slanting lines on each arm while the joint is still
-together; then take it apart and plane to the slanting lines. Hold each
-piece securely slantwise in the vise, because one pair especially is apt
-to split from the notch outward. When this planing is finished, glue the
-joint and bore a 1/2" hole straight thru the center. If convenient, make
-the cross pieces in one long piece, 20", planing off one corner flat
-(see sectional drawing, Plate 33) within 1/8" of the two adjacent
-corners. Being careful to drive no brad into the 1/2" hole, glue and
-nail these four cross pieces to one wheel. Then glue them to the other
-wheel and wind some string around tightly enough to hold this wheel
-while adjusting and nailing it. It will require care to get the cross
-pieces square with the first wheel, and the second wheel parallel with
-the first. After the string is wound around to hold the second wheel,
-measure the distance from wheel to wheel at the ends of all the arms.
-The nailing can be done while one arm of the wheels is held in the vise.
-The axle and handle should be glued and nailed to the crank. Now put the
-reel together, not forgetting the washers inside the uprights, and lock
-the wheels to the axle by drilling a hole for a 2" nail thru cross
-piece, wheel, and axle.
-
-[Illustration: KITE STRING REEL
-
-PLATE 33]
-
-[Illustration: STRING MACHINE
-
-PLATE 34]
-
-
-
-
-                       STRING MACHINE--PLATE 34.
-
-
-On a machine like this, one can twist bowstrings, topstrings,
-fish-lines, silk cord for fancy work, and any similar cord. Tho designed
-to be held on the floor or table with flat-irons, clamps, of course,
-will hold it better.
-
-Make the tail piece first. In the cross pieces of the tail piece are two
-screws 7/8" from the ends; be careful to bore the holes large enough so
-the screws will not split them. The edges of the lower cross piece must
-be sandpapered enough not to cut the elastic bands.
-
-In order that the belt shall run on the center of the wheels in the head
-piece, it is important to have the three axles parallel. To make them
-so, the two uprights must be clamped together while boring the 3/8"
-holes for the axles. Lest the spur of the bit split the uprights, drill
-small holes at each center first. Do not nail the longer upright to the
-base until the belt runs well in both directions. On a lathe, the wheels
-and axles could easily be made of one piece; lacking a lathe, a big
-spool or curtain pole must be used. Plug the hole of the spool with a
-dowel, then very accurately find its center and bore a 3/8" hole thru
-it. Saw it into three 5/8" pieces for the wheels. Glue these to the
-axles so that 1" extends thru the taller upright. A belt runs better on
-a wheel that is "crowned," that is, slightly larger in the middle; so
-the edges of these wheels must be pared 1/32", making a gentle curve.
-Put the washers each side of the wheels, then put the wheels in place in
-the taller upright, and nail this to the triangular block. Pull a 5/8"
-leather belt tightly around the three wheels and sew the ends so that
-they butt together. Clamp the shorter upright in position and turn the
-upper axle to see if the belt runs well in both directions. It will run
-true when all three axles are parallel, so keep knocking the shorter
-upright from side to side or up and down until the belt does run true;
-then bore holes for three screws to hold it to the triangular block.
-Make the crank and lock it to the upper axle with a 1/2" screw.
-
-To twist a string, set the two parts of the machine somewhat farther
-apart than the finished length desired, put on as many threads, from
-hooks on the tail piece to corresponding hooks on the head piece, as
-will make the finished string the desired size. Observe how these
-separate threads were twisted, and start the machine in the _opposite_
-way. Twist until the three strands kink readily when the head piece is
-brought nearer the tail piece. The tighter these are twisted, the harder
-the string will be. (Soap rubbed on the inside of the belt may make the
-belt carry more power). When these three strands are twisted enough,
-remove the two lower ones from their _hooks on the head piece_ to the
-upper hook. Twist in the _opposite_ direction until the string kinks
-again, and it is made. If the three strands are waxed, a stronger string
-will be made.
-
-
-
-
-                     WINDMILL FORCE-PUMP--PLATE 35.
-
-
-If this pump is properly connected with an air chamber, as explained
-later, it will send a small stream of water some ten feet. In a gale,
-the windmill is strong enough, in fact, to force the valves from the
-glass tubes. Like any model of considerable mechanism, this will require
-patience to get it in working order. The post is made short for
-stability. If it can be held in place firmly, a trestlework tower like a
-real windmill might be built of stock 1/2" x 1/2" for the corner posts
-and 1/2" x 1/8" for the braces.
-
-The post is slanting on two sides to fit the journals at the top. It is
-fastened to the base with two 2" screws. Make the wheel center 2-1/8"
-square, and thru its center bore a 1/4" hole. If it does not revolve
-true, make another block and try again. Make the block octagonal by
-cutting off each corner 5/8". On each of the eight faces saw notches
-1/8" wide and 5/16" deep into which the vanes will fit. (See page 64 on
-cutting notches.) Make and glue the vanes in place and lay the wheel
-flat to dry.
-
-Procure three pieces of water-gage glass 2" long, 7/16" to 1/2" inside
-diameter. Glass tubes can be broken apart by filing a slight notch,
-grasping the tube firmly each side of the notch, and pulling and bending
-the tube away from the notch. If the file starts a little break, this
-will be comparatively easy, if it does not, file some more. Into two
-tubes little valves must be cemented. These can be made of a firm piece
-of leather. Sole leather that is not too hard is best. With knife or
-chisel, pare two pieces on the cutting board to fit in the tubes. The
-cement will make them water tight later. Push the sharp point of a
-penknife into the smooth side of the leather disk and make a circular
-cut, as one would remove a speck from an apple, but do not cut the flap
-completely out, because it must be left hinged to the disk. Turn this
-flap up straight out of the way so as to be able to work a 1/4" hole
-thru the disk. This can be punched, drilled, or cut out with a 1/8"
-chisel, and finished with a penknife. Of course, the edges of the flap
-should cover this hole completely. The valve in the lowest tube should
-be cemented about 1/2" from the lower end with the flap up, that in the
-horizontal tube about 3/4" from the outer end with the flap out.
-
-[Illustration: WINDMILL FORCE-PUMP
-
-PLATE 35]
-
-To make sealing-wax sticky enough to cement these valves in the tubes,
-melt one teaspoon of wax with one-half teaspoon of turpentine in a large
-spoon, and allow it to cool. Break it in pieces small enough to go in
-the tubes. Put the valve in the tube a little to one side of its final
-position; put in some of the wax mixture; heat the tube in an alcohol
-flame, rolling the tube till the wax begins to melt; remove from the
-flame; and when the wax is all melted, push the valve to its final
-position with a pencil. While it is cooling, see that the wax does not
-flow into the valve. All three tubes must have a piece of rubber tubing
-on the outside to serve as packing in the wooden block. With an
-expansive bit, holes can be bored in the block so that the rubber tubing
-will fit tightly. Lacking that, bore a smaller hole and enlarge it with
-a round file. The center of the vertical hole is somewhat to the left
-(as viewed in Plate 35) of the center of the block to allow the
-horizontal tube more support. This will require the notch in the upright
-also to be to the left of the center. After the holes are bored, the
-pores of the wood must be filled with paraffin. In a little dish, melt
-some paraffin and put it into the holes with a rag tied to a stick. When
-the holes are well covered, drive the wax into the wood with an alcohol
-or candle flame held in the hole till the wood is fairly hot. The
-outside of the block might well be treated in like manner. It will be
-best to cement these tubes in their places. Melt a tablespoon of sealing
-wax with about as much turpentine. With this, not too hot, build up a
-good fillet over the rubber tubing 1/4", perhaps, on the glass tubes.
-
-Make a good fitting piston for the upper tube; it must not slide hard
-(oil it) and yet it must be air tight. To make the piston file two
-grooves 1/2" apart around and near the end of the piston rod. Wind a
-hummock of yarn between these grooves till it almost fills the tube,
-then wrap a piece of soft cloth (knitted underwear) smoothly over the
-hummock, tying it in each groove with thread.
-
-Lock the crank to the axle with a 1/2" screw. Adjust the axle and keep
-it in position with two leather washers locked to the axle just outside
-the journals. Clamp the block to the base, adjust it in line with the
-crank, and fasten it with two 1-1/2" screws up thru the base. The last
-connection to make is between the crank and connecting-rod. To make
-this, raise the piston to its highest position, and turn the crank to
-its lowest; choose what seems the best point for the screw, marking the
-point on crank and connecting-rod; now lower the piston and raise the
-crank; if the two points do not come together, the screw should be
-placed half way between them. This screw should be tight in the crank.
-The wheel can now be glued to the axle or locked with a brad slanting
-from the front of the wheel center.
-
-Before they will work, the valves must be made limber with water, and to
-start the pump, water may have to be put on each side of the valves.
-Water may be pumped to any height by fastening a pipe to the horizontal
-tube. To obtain a steady stream, like a fire-engine, connect the
-horizontal tube with an air-tight bottle. The pipe which goes into this
-bottle should reach just below the stopper. The outlet pipe should
-nearly reach the bottom of the bottle, and it should have a nozzle
-smaller than any other opening in the whole apparatus. The bottle should
-be partly full of water. Quarter-inch glass tubing can be melted and
-shaped in an alcohol flame, and, if some rubber tubing is used as a
-connection, the nozzle can be played anywhere.
-
-
-
-
-                            BOOKS _for_ BOYS
-
-
-    Especially Helpful for the Use of Boys in their Home Shops
-
-
-BEGINNING WOODWORK, At Home and in School.
-
-_By Clinton S. VanDeusen._
-
-A full and clear description in detail of the fundamental processes of
-elementary benchwork in wood. This description is given thru directions
-for making a few simple, useful articles, suitable either for school or
-home problems. The book contains more than one hundred original sketches
-and ten working drawings. Price, $1.00.
-
-
-MANUAL TRAINING TOYS, for the Boys' Workshop.
-
-_By Harris W. Moore._
-
-This book contains a collection of working drawings illustrating
-forty-two projects, overflowing with "boy" interest. It is a popular
-boys' book that is truly educational. The projects are all new in the
-manual training shop. The text gives instructions for making each
-project and treats of tools and tool processes. Price, $1.00.
-
-
-_The_ CONSTRUCTION _and_ FLYING _of_ KITES.
-
-_By Charles M. Miller._
-
-A book of unusual interest to the boy. It contains seven full-page
-plates of drawings of kites and fifteen figures--over forty kites shown.
-Details of construction are given and a kite tournament is described.
-Full of interesting suggestions. Price, 20 cents.
-
-
-ESSENTIALS _of_ WOODWORKING.
-
-_By Ira S. Griffith._
-
-A textbook written especially for the use of grammar and high school
-students. A clear and comprehensive treatment of woodworking tools,
-materials, and processes, to supplement, but not to take the place of
-the instruction given by the teacher. The book does not contain a course
-of models; it may be used with any course. It is illustrated with
-photographs and numerous pen drawings. Price, $1.00.
-
-
-                         THE MANUAL ARTS PRESS
-
-                            PEORIA, ILLINOIS
-
-
-
-
-                            BOOKS _for_ BOYS
-
-
-The "Problems Series" of Working Drawings, Good for Either Home or
-School Use
-
-
-PROJECTS _for_ BEGINNING WOODWORK _and_ MECHANICAL DRAWING.
-
-_By Ira S. Griffith._
-
-A work book for the use of students in grammar grade classes. It
-consists of working drawings and working directions. The projects are
-such as have proven of exceptional service where woodworking and
-mechanical drawing are taught in a thoro, systematic manner in the
-seventh and eighth grades. The aim has been to provide successful rather
-than unique problems. The fifty projects in the book have been selected
-and organized with the constant aim of securing the highest educational
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-"Essentials of Woodworking" by the same author. Price, 75 cents.
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-PROBLEMS _in_ WOODWORKING.
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-_By M. W. Murray._
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-A convenient collection of good problems consisting of forty plates
-bound in heavy paper covers with brass fasteners. Each plate is a
-working drawing, or problem in benchwork that has been successfully
-worked out by boys in one of the grades from seven to nine inclusive.
-Price, 75 cents. Board covers, 95 cents.
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-ADVANCED PROJECTS _in_ WOODWORK.
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-_By Ira S. Griffith._
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-This book is similar to "Projects for Beginning Woodwork and Mechanical
-Drawing," but is suited to high school needs. It consists of fifty
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-PROBLEMS _in_ FURNITURE MAKING.
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-This book, revised and enlarged, consists of 43 full-page plates of
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-and notes on the problems. Each project is shown in its completed form
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-PROBLEMS _in_ WOOD-TURNING.
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-_By Fred D. Crawshaw._
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-In the first place this is a book of problems--25 plates covering
-spindle, faceplate, and chuck turning. In the second place it is a
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-PROBLEMS _in_ MECHANICAL DRAWING.
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-_By Charles A. Bennett._ With drawings made by Fred D. Crawshaw.
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-This book consists of 80 plates and a few explanatory notes, and is
-bound in heavy paper covers with brass fasteners. Its purpose is to
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-                         THE MANUAL ARTS PRESS
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-                            PEORIA, ILLINOIS
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-
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