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BOAT-BUILDING AND BOATING


[Illustration: Bound for a good time]


BOAT-BUILDING AND BOATING

by

D. C. BEARD

With Many Illustrations by the Author







New York
Charles Scribner's Sons
1931

Copyright, 1911, by
Charles Scribner's Sons

Printed in the United States of America

Special Notice

All the material in this book, both text and cuts, is original with
the author and invented by him; and warning is hereby given that the
unauthorized printing of any portion of the text and the reproduction
of any of the illustrations or diagrams are expressly forbidden.


[Illustration: The Scribner Press]




    AFFECTIONATELY
    DEDICATED TO THE MEMORY OF
    TOM AND HI




PREFACE


THIS is not a book for yacht-builders, but it is intended for beginners
in the art of boat-building, for boys and men who wish to make
something with which they may navigate the waters of ponds, lakes, or
streams. It begins with the most primitive crafts composed of slabs
or logs and works up to scows, house-boats, skiffs, canoes and simple
forms of sailing craft, a motor-boat, and there it stops. There are so
many books and magazines devoted to the higher arts of ship-building
for the graduates to use, besides the many manufacturing houses which
furnish all the parts of a sail-boat, yacht, or motor-boat for the
ambitious boat-builder to put together himself, that it is unnecessary
for the author to invade that territory.

Many of the designs in this book have appeared in magazines to which
the author contributed, or in his own books on general subjects, and
all these have been successfully built by hundreds of boys and men.

Many of them are the author's own inventions, and the others are his
own adaptations of well-known and long-tried models. In writing and
collecting this material for boat-builders from his other works and
placing them in one volume, the author feels that he is fulfilling
the wishes of many of his old readers and offering a useful book to
a large audience of new recruits to the army of those who believe in
the good old American doctrine of: "If you want a thing done, do it
yourself." And by doing it yourself you not only add to your skill and
resourcefulness, but, what is even more important, you develop your own
self-reliance and manhood.

No one man can think of everything connected with any one subject,
and the author gratefully acknowledges his indebtedness to several
sportsmen friends, especially to his camp-mate, Mr. F. K. Vreeland, and
his young friend, Mr. Samuel Jackson, for suggestions of great value to
both writer and reader.

                                                       DAN BEARD.

  FLUSHING, L. I., _Sept., 1911._




CONTENTS


  CHAPTER                                              PAGE
     I. HOW TO CROSS A STREAM ON A LOG                    3
    II. HOME-MADE BOATS                                   8
   III. A RAFT THAT WILL SAIL                            18
    IV. CANOES                                           25
     V. CANOES AND BOATING STUNTS                        33
    VI. THE BIRCH-BARK                                   48
   VII. HOW TO BUILD A PADDLING DORY                     69
  VIII. THE LANDLUBBER'S CHAPTER                         74
    IX. HOW TO RIG AND SAIL SMALL BOATS                  96
     X. MORE RIGS OF ALL KINDS FOR SMALL BOATS          111
    XI. KNOTS, BENDS, AND HITCHES                       123
   XII. HOW TO BUILD A CHEAP BOAT                       139
  XIII. A "ROUGH-AND-READY" BOAT                        154
   XIV. HOW TO BUILD CHEAP AND SUBSTANTIAL HOUSE-BOATS  163
    XV. A CHEAP AND SPEEDY MOTOR-BOAT                   184




Boat-Building and Boating

[Illustration: Fig. 1.--The logomaran.]




BOAT-BUILDING AND BOATING




CHAPTER I

HOW TO CROSS A STREAM ON A LOG

How to Build a Logomaran


THERE is a widespread notion that all wood will float on water, and
this idea often leads to laughable errors. I know a lot of young
backwoods farmers who launched a raft of green oak logs, and were as
much astonished to see their craft settle quietly to the bottom of
the lake as they would have been to see the leaden sinkers of their
fish-lines dance lightly on the surface of the waves. The young fellows
used a day's time to discover what they might have learned in a few
moments by watching the chips sink when they struck the water as they
flew from the skilful blows of their axes.

The stream which cuts your trail is not always provided with bridges
of fallen trees. It may be a river too deep to ford and too wide to be
bridged by a chance log. Of course it is a simple matter to swim, but
the weather may be cold and the water still colder; besides this, you
will probably be encumbered with a lot of camp equipage--your gun, rod,
and camera--none of which will be improved by a plunge in the water. Or
it may so happen that you are on the shores of a lake unsupplied with
boats, and you have good reasons for supposing that big fish lurk in
some particular spot out of reach from the shore. A thousand and one
emergencies may arise when a craft of some kind will be not only a
great convenience, but almost a necessity. Under these circumstances


A Logomaran

may be constructed in a very short time which can bear you and your
pack safely to the desired goal (Fig. 1).

[Illustration: Fig. 2.--The notch.]

[Illustration: Fig. 3.--Top view of logomaran.]

In the Rocky, Cascade, and Selkirk Mountains, the lakes and streams
have their shores plentifully supplied with "whim sticks," logs
of fine dry timber, which the freshets have brought down from the
mountain sides and which the rocks and surging torrents have denuded
of bark. These whim sticks are of all sizes, and as sound and perfect
as kiln-dried logs. Even in the mountains of Pennsylvania, where the
lumberman's axe years ago laid waste the primeval forest, where the
saw-mills have devoured the second growth, the tie-hunter the third
growth, the excelsior-mills and birch-beer factories the saplings, I
still find good sound white pine-log whim sticks strewn along the
shores of the lakes and streams, timber which is suitable for temporary
rafts and logomarans.

In the North Woods, where in many localities the original forest is
untouched by the devouring pulp-mills, suitable timber is not difficult
to find; so let the green wood stand and select a log of dry wood from
the shore where the floods or ice have deposited it. Cut it into a
convenient length, and with a lever made of a good stout sapling, and a
fulcrum of a stone or chunk of wood, pry the log from its resting-place
and roll it into the shallow water. Notch the log on the upper side, as
shown by Fig. 2, making a notch near each end for the cross-pieces.

[Illustration: Fig. 4.--Flattened joint.]

[Illustration: Fig. 5. Fig. 6.

Matched joints.]

The two side floats may be made of pieces split, by the aid of wooden
wedges, from a large log, or composed of small whim sticks, as shown by
Fig. 3.

The floats, as may be seen by reference to Figs. 1 and 3, are shorter
than the middle log.

It is impracticable to give dimensions, for the reason that they are
relative; the length of the middle log depends, to some extent, upon
its diameter, it being evident that a thick log will support more than
a thin one of the same length; consequently if your log is of small
diameter, it must be longer, in order to support your weight, than will
be necessary for a thicker piece of timber. The point to remember is to
select a log which will support you and your pack, and then attach two
side floats to balance your craft and prevent it from rolling over and
dumping its load in the water.

An ordinary single shell-boat without a passenger will upset, but
when the oarsman takes his seat and grasps his long spoon oars, the
sweeps, resting on the water, balance the cranky craft, and it cannot
upset as long as the oars are kept there. This is the principle of the
logomaran, as well as that of the common catamaran. The cross-pieces
should be only thick enough to be secure and long enough to prevent the
log from wabbling and wetting your feet more than is necessary.

[Illustration: Fig. 7.--The saw-buck crib.]

[Illustration: Fig. 8.--The staked crib.]


If You Have an Auger and No Nails

the craft may be fastened together with wooden pegs cut somewhat larger
than the holes bored to receive them, and driven in with blows from
your axe.

If you have long nails or spikes the problem is a simple one; but if
you have neither auger, nails, nor spikes you must bind the joints with
rope or hempen twine.

If you have neither nails, auger, nor rope, a good substitute for the
latter can be made from the long,


Fibrous Inner Bark

of a dead or partly burned tree. For experiment I took some of the
inner bark of a chestnut-tree which had been killed by fire and twisted
it into a rope the size of a clothes-line, then I allowed two strong
men to have a tug-of-war with it, and the improvised rope was stronger
than the men.


How to Make a Fibre Rope

Take one end of a long, loose strand of fibres, give the other end to
another person, and let both twine the ends between the fingers until
the material is well twisted throughout its entire length; then bring
the two ends together, and two sides of the loop thus made will twist
themselves into a cord or rope half the length of the original strand.

If you nail or peg the parts, use your axe to flatten the joints by
striking off a chip, as in Fig. 4.

If you must lash the joints together, cut them with log-cabin notches,
as in Figs. 5 and 6.

If you have baggage to transport, make


A Dunnage Crib

by driving four stakes in cuts made near the end of the centre log and
binding them with rope or fibre (Figs. 7 and 8), or by working green
twigs basket-fashion around them, or make the rack saw-buck fashion, as
shown by Fig. 7, and this will keep your things above water.

A couple of cleats nailed on each side of the log will be of great
assistance and lessen the danger and insecurity of the footing.

A skilfully made logomaran will enable you to cross any stream with a
moderate current and any small lake in moderate weather. It is not an
especially dry craft, but it won't sink or upset, and will take one but
a short time to knock it together.




CHAPTER II

HOME-MADE BOATS

    Birth of the "Man-Friday" Catamaran--The Crusoe Raft
    and Chump Rafts


NOT so very many years ago I remember visiting, in company with my
cousin Tom, a small lake at the headwaters of the Miami. High and
precipitous cliffs surround the little body of water. So steep were
the great weather-beaten rocks that it was only where the stream came
tumbling down past an old mill that an accessible path then existed.
Down that path Tom and I scrambled, for we knew that large bass lurked
in the deep, black holes among the rocks.

We had no jointed split-bamboo rods nor fancy tackle, but the fish
there in those days were not particular and seldom hesitated to bite
at an angle-worm or grasshopper though the hook upon which the bait
squirmed was suspended by a coarse line from a freshly cut hickory
sapling.

Even now I feel the thrill of excitement and expectancy as, in
imagination, my pole is bent nearly double by the frantic struggles of
those "gamy" black bass. After spending the morning fishing we built
a fire upon a short stretch of sandy beach, and cleaning our fish and
washing them in the spring close at hand, we put them among the embers
to cook.

While the fire was getting our dinner ready for us we threw off our
clothes and plunged into the cool waters of the lake. Inexpert swimmers
as we were at that time, the opposite shore, though apparently only a
stone's throw distant, was too far off for us to reach by swimming.
Many a longing and curious glance we cast toward it, however, and
strong was the temptation that beset us to try the unknown depths
intervening. A pair of brown ears appeared above the ferns near the
water's edge, and a fox peeped at us; squirrels ran about the fallen
trunks of trees or scampered up the rocks as saucily as though they
understood that we could not swim well enough to reach their side of
the lake; and high up the face of the cliff was a dark spot which we
almost knew to be the entrance to some mysterious cavern.

[Illustration: Fig. 8½.--The Man-Friday.]

How we longed for a boat! But not even a raft nor a dugout could be
seen anywhere upon the glassy surface of the water or along its rocky
border. We nevertheless determined to explore the lake next day, even
if we should have to paddle astride of a log.

The first rays of the morning sun had not reached the dark waters
before my companion and I were hard at work, with axe and hatchet,
chopping in twain a long log we had discovered near the mill. We had
at first intended to build a raft; but gradually we evolved a sort of
catamaran. The two pieces of log we sharpened at the ends for the bow;
then we rolled the logs down upon the beach, and while I went into the
thicket to chop down some saplings my companion borrowed an auger
from the miller. We next placed the logs about three feet apart, and
marking the points where we intended to put the cross-pieces, we cut
notches there; then we placed the saplings across, fitting them into
these notches. To hold them securely we bored holes down through the
sapling cross-pieces into the logs; with the hatchet we hammered wooden
pegs into these holes. For the seat we used the half of a section of
log, the flat side fitting into places cut for that purpose. All that
remained to be done now was to make a seat in the stern and a pair
of rowlocks. At a proper distance from the oarsman's seat we bored
two holes for a couple of forked sticks, which answered admirably for
rowlocks; across the stern we fastened another piece of log similar to
that used for the oarsman's seat (Fig. 8½). With the help of a man from
the mill our craft was launched; and with a pair of oars made of old
pine boards we rowed off, leaving the miller waving his hat.

Our catamaran was not so light as a row-boat, but it floated, and
we could propel it with the oars, and, best of all, it was our own
invention and made with our own hands. We called it a "Man-Friday," and
by its means we explored every nook in the length and breadth of the
lake; and ever afterward when we wanted a boat we knew a simple and
inexpensive way to make one--and a safe one, too.


The Crusoe Raft

is another rustic craft, but it is of more ambitious dimensions than
the "Man-Friday." Instead of being able to float only one or two
passengers, the "Crusoe," if properly built, ought to accommodate a
considerable party of raftsmen. Of course the purpose for which the
raft is to be used, and the number of the crew that is expected to man
it, must be taken into consideration when deciding upon the dimensions
of the proposed craft.

All the tools that are necessary for the construction of a good stout
raft are an axe, an auger, and a hatchet, with some strong arms to
wield them.

The building material can be gathered from any driftwood heap on lake
or stream.

For a moderate-sized raft collect six or seven logs, the longest not
being over sixteen feet in length nor more than a foot in diameter; the
logs must be tolerably straight. Pick out the longest and biggest for
the centre, sharpen one end, roll the log into the water, and there
secure it.

Select two logs as nearly alike as possible, to lie one at each side
of the centre log. Measure the centre log, and make the point of each
side log, not at its own centre, but at that side of it which will lie
against the middle log, so that this side point shall terminate where
the pointing of the middle log begins (see Fig. 9).

[Illustration: Fig. 9.--Plan of Crusoe raft.]

After all the logs needed have been trimmed and sharpened in the
manner just described, roll them into the water and arrange them in
order (Fig. 9). Fasten them together with "cross-strips," boring holes
through the strips to correspond with holes bored into the logs lying
beneath, and through these holes drive wooden pegs. The pegs should be
a trifle larger than the holes; the water will cause the pegs to swell,
and they will hold much more firmly than iron nails.

[Illustration: Fig. 10.--Skeleton of Crusoe raft.]

[Illustration: Fig. 11.--Crusoe with cabin covered.]

The skeleton of the cabin can be made of saplings; such as are used for
hoop-poles are the best.

These are each bent into an arch, and the ends are thrust into holes
bored for that purpose. Over this hooping a piece of canvas is
stretched, after the manner of old-fashioned country wagons (Figs. 10
and 11).

Erect a "jack-staff," to be used as a flag-pole or a mast to rig a
square sail on.

A stout stick should be erected at the stern, and a similar one upon
each side of the raft near the bow; these sticks, when their ends are
made smaller, as shown in the illustration (Fig. 10), serve as rowlocks.

[Illustration: Fig. 12.--Sweeps.]

For oars use "sweeps"--long poles, each with a piece of board for a
blade fastened at one end (Fig. 12).

Holes must be bored through the poles of the sweeps about three feet
from the handle, to slip over the pegs used as rowlocks, as described
above. These pegs should be high enough to allow the oarsman to stand
while using the sweeps.

A flat stone or earth box placed at the bow will serve as a fireplace.

If the cracks between the logs under the cabin are filled up to
prevent the water splashing through, and the cabin is floored with
cross-sticks, a most comfortable bed at night can be made of hay, by
heaping it under the canvas cover in sufficient quantities.

The Crusoe raft has this great advantage over all boats: you may take a
long trip down the river, allowing the current to bear you along, using
the sweeps only to assist the man at the helm (rear sweep); then, after
your excursion is finished you may abandon your raft and return by
steam-boat or train. A very useful thing to the swimmers, when they are
skylarking in the water, is


The Chump's Raft

Its construction is simple. Four boards, each about six feet long, are
nailed together in the form of a square, with the ends of the boards
protruding, like the figure drawn upon a school-boy's slate for the
game of "Tit, tat, toe" (Fig. 13).

[Illustration: Fig. 13.--The chump's raft.]

All nail-points must be knocked off and the heads hammered home, to
prevent serious scratches and wounds on the bather's body when he
clambers over the raft or slips off in an attempt to do so (Fig. 14).

Beginners get in the middle hole, and there, with a support within
reach all around them, they can venture with comparative safety in deep
water.

The raft, which I built as a model fifteen years ago, is still in use
at my summer camp, where scores of young people have used it with a
success proved by their present skill as swimmers. But many camps
are located in a section of the country where boards are as scarce
as boarding-houses, but where timber, in its rough state, exists in
abundance. The campers in such locations can make


A Chump's Raft of Logs

[Illustration: Fig. 14.--A beginner in a chump's raft.]

[Illustration: Fig. 15.--Looking down on a chump's raft in motion.]

[Illustration: Fig. 16.--Side view of chump's log raft.]

Such a float consists of two dried logs fastened together at each end
by cross-slabs, so as to form a rude catamaran. These rafts can be
towed through deep water by a canoe or row-boat, with the tenderfoot
securely swung in a sling between the logs, where he may practice
the hand-and-foot movement with a sense of security which only the
certainty that he is surrounded by a wooden life-preserver will give
him. Fig. 15 shows a top view of the new chump's raft. In Fig. 16 the
two logs are connected fore and aft by cross-slabs; two more upright
slabs are nailed securely to the side of the logs; notches having been
cut in the top ends of these slabs, a stout cross-piece is securely
nailed to them and the towel or rope sling suspended from the middle
of the cross-piece. In regard to the dimensions of the raft it is
only necessary to say that it should be wide and long enough to allow
free movement of the arms and legs of the pupil who is suspended
between the logs. In almost every wilderness stream there can be found
piles of driftwood on the shore where one may select good, dried,
well-seasoned pine or spruce logs from which to make rafts. If such
heaps of driftwood are not within reach, look for some standing dead
timber and select that which is of sufficient dimensions to support a
swimmer, and be careful that it is not hollow or rotten in the core.
Rotten wood will soon become water-logged and heavy. Fig. 17 shows the
position of the swimmer supported by the chump's sling. If your raft
has a tendency to work so that one log pulls ahead of the other, it may
be braced by cross-pieces, such as are shown at J and K in Fig. 18.
This figure also shows supports for a suspension pole made by nailing
two sticks to each side and allowing the ends to cross so as to form a
crotch in which the supporting rod rests and to which it is securely
fastened by nails, or by being bound there by a piece of rope, as in A,
Fig. 19. B, Fig. 19, shows the crotch made by resting L in a fork on
the M stick and then nailing or binding it in place. C, Fig. 19, shows
the two sticks, L and M, joined by notches cut log-cabin fashion before
they are nailed in place.

[Illustration: Fig. 17.--Learning to swim by aid of a chump sling.]

[Illustration: Fig. 19.--Details of saw-buck supports.]

Although many summers have rolled around since the author first made
his advent on this beautiful earth, he still feels the call of the
bathing pool, the charm of the spring-board, almost as keenly as he did
when he was wont to swim in Blue Hole at Yellow Springs, Ohio, or dive
from the log rafts into the Ohio River, or slide down the "slippery"
made in the steep muddy banks of the Licking River, Kentucky.

[Illustration: Fig. 18.--Another way to rig a chump.]




CHAPTER III

A RAFT THAT WILL SAIL

    The Raft is Just the Thing for Camp Life--Pleasurable
    Occupation for a Camping Party Where Wood is
    Plentiful--You Will Need Axes and Hatchets and a Few
    Other Civilized Implements


FIRST we will select two pine logs of equal length, and, while the
water is heating for our coffee, we will sharpen the butt, or larger
end, of the logs on one side with the axe, making a "chisel edge," as
shown in Fig. 20. This gives us an appetite for breakfast and makes the
big fish in the lake, as they jump above the water, cast anxious looks
toward our camp.

Breakfast finished, we will cut some cross-pieces to join our two logs
together, and at equal distances apart we will bore holes through the
cross-pieces for peg-holes (Figs. 21, 22, and 23). While one of the
party is fashioning a number of pegs, each with a groove in one side,
like those shown in Fig. 24, the others will roll the logs into the
water and secure them in a shallow spot.

Shoes and stockings must be removed, for most of the work is now to be
done in the water. Of course, it would be much easier done on land, but
the raft will be very heavy and could never be launched unless under
the most favorable circumstances. It is better to build the craft in
the element which is to be its home.

Cut two long saplings for braces, and after separating the logs the
proper distance for your cross-pieces to fit, nail your braces in
position, as represented by Fig. 20.

[Illustration: Fig. 20.]

[Illustration: Fig. 25.]

[Illustration: Fig. 26.]

[Illustration: Fig. 21.]

[Illustration: Fig. 22.]

[Illustration: Fig. 23.]

[Illustration: Fig. 27.]

[Illustration: Fig. 28.]

[Illustration: PARTS OF MAN-FRIDAY SAILING-RAFT.

20.--Logs in place with braces. Figs. 21, 22, and 23.--Struts. Fig.
24.--Pegs. Fig. 25.--Raft with middle and stern strut in place. Fig.
26.--Springs for dry deck. Fig. 27.--Dry deck. Fig. 28.--Dry deck in
place.]

This holds the logs steady, and we may now lay the two cross-pieces in
position, and mark the points on the logs carefully where the holes
are to be bored to correspond with the ones in the cross-pieces. Bore
the holes in one log first; make the holes deep enough and then fill
them with water, after which drive the pegs through the ends of the
cross-pieces and into the log. The grooves in the pegs (Fig. 24) will
allow the water to escape from the holes and the water will cause the
peg to swell and tighten its hold on the log and cross-pieces.

Now bore holes in the other log under those in the cross-pieces and
fill them with water before driving the pegs home, as you did in the
first instance. Fig. 25 is a Man-Friday raft.


The Deck

Before placing the bow in position we must go ashore and make a dry
deck. Selecting for the springs two long green ash or hickory poles,
trim the ends off flat on one side, as shown by Fig. 26. This flat side
is the bottom, so roll them over, with the flat side toward the ground,
and if you can find no planks or barrel staves for a deck, split in
half a number of small logs and peg or nail them on the top side of the
springs, as in Fig. 27.

Now all hands must turn out and carry the deck down to the raft and
place it in position, with the flattened sides of the springs resting
on top of the logs at the bow. Prop it up in this position, and then
bore holes through the springs into the logs and peg the springs down.
Over the flat ends place the heavy bow cross-piece, bore the peg-holes,
and fasten it in position (Fig. 28).

In the centre of the bow cross-piece bore several holes close together
and chip out the wood between to make a hole, as square a one as
possible, for the mast to fit or "step" in. With the wood from a
packing-box or a slab from a log make the bench for the mast.

Bore a hole through the bench a trifle astern of the step, or hole, for
the mast below. It will cause the mast to "rake" a little "aft." You
have done a big day's work, but a couple of days ought to be sufficient
time to finish the craft.


The Sail

[Illustration: Fig. 29.--Sail for Man-Friday.]

Turn over the raw edges of the old sail-cloth and stitch them down, as
in Fig. 29--that is, if you have the needle and thread for the purpose;
if not, trim the cloth to the proper form and two inches from the
luff (the side next to the mast). Cut a number of holes; these should
be stitched like button-holes, if possible, but if the sail-cloth is
tough and we have no needle, we shall have to let them go unstitched. A
small loop of rope must be sewed or fastened in some other manner very
securely to each corner of the sail.

From spruce pine or an old fishing-pole make a sprit, and of a good,
straight piece of pine manufacture your mast somewhat longer than the
luff of the sail (Fig. 29).

Through the eyelets lace the luff of the sail to the mast, so that its
lower edge will clear the dry deck by about a foot.

[Illustration: Fig. 30.--Scudding before the wind.]

Through the hole made for the purpose in the bench (Fig. 30) thrust the
mast into the step, or socket, that we have cut in the bow cross-piece.
Tie to the loop at the bottom corner of the sail a strong line about
twelve feet long for a sheet with which to control the sail.

Trim the upper end of the sprit to fit in the loop at the upper outer
corner of the sail, and make a notch in the lower end to fit in the
loop of the line called the "snotter."

Now, as you can readily see, when the sprit is pushed diagonally upward
the sail is spread; to hold it in place make a loop of line for a
"snotter" and attach the loop to the mast, as in Figs. 29 and 30. Fit
the loop in the notch in the lower end of the sprit, and the sail is
set.


The Keelig

We need anchors, one for the bow and one for the stern. It takes
little time to make them, as you only need a forked stick, a stone,
and a piece of plank, or, better still, a barrel stave. Figs. 35 to
39 show how this is made. Down East the fishermen use the "keelig" in
preference to any other anchor.

[Illustration: Fig. 31.]

[Illustration: Fig. 32.]

[Illustration: Fig. 33.]

[Illustration: Fig. 34.]

[Illustration: Fig. 37.]

[Illustration: Fig. 35.]

[Illustration: Fig. 36.]

[Illustration: Fig. 38.]

[Illustration: Fig. 39.]

Make fast your lines to the "keelig" thus: Take the end of the rope in
your right hand and the standing part (which is the part leading from
the boat) in your left hand and form the loop (A, Fig. 31).

Then with the left hand curve the cable from you, bringing the end
through the loop, as in B, Fig. 32; then lead it around and down, as in
C, Fig. 33.

Draw it tight, as in D, Fig. 34, and you have the good, old-fashioned
knot, called by sailors the "bow-line."

To make it look neat and shipshape you may take a piece of
string and bind the standing part to the shaft of your anchor or
keelig--keelek--killick--killeck--kelleck--kellock--killock, etc., as
you may choose to spell it.

A paddle to steer with and two pegs in the stern cross-piece to rest it
in complete the craft; and now the big bass had better use due caution,
because our lines will reach their haunts, and we are after them!




CHAPTER IV

CANOES

    The Advantages of a Canoe--How to Make the Slab Canoe
    and the Dugout--How to Make a Siwash and a White Man's
    Dugout


THERE are many small freak crafts invented each year, but none of them
has any probabilities of being popularly used as substitutes for the
old models.

Folding canoes, as a rule, are cranky, but the writer has found them
most convenient when it was necessary to transport them long distances
overland. They are not, however, the safest of crafts; necessarily they
lack the buoyant wooden frame and lining of the ordinary canvas canoe,
which enables it to float even when filled with water.

The author owes his life to the floating properties of his canvas
canoe. On one occasion when it upset in a driving easterly storm the
wind was off shore, and any attempt upon the canoeist's part to swim
toward shore would have caused him to have been suffocated by the tops
of the waves which the wind cut off, driving the water with stinging
force into his face so constantly that, in order to breathe at all,
he had to face the other way. He was at length rescued by a steamer,
losing nothing but the sails and his shoes. Nevertheless, the same
storm which capsized his little craft upset several larger boats and
tore the sails from others.

The advantages of a good canoe are many for the young navigators: they
can launch their own craft, pick it up when occasion demands and carry
it overland. It is safe in experienced hands in any weather which is
fit for out-door amusement. When you are "paddling your own canoe" you
are facing to the front and can see what is ahead of you, which is much
safer and more pleasant than travelling backward, like a crawfish.

[Illustration: Fig. 40.]

The advance-guard of modern civilization is the lumberman, and
following close on his heels comes the all-devouring saw-mill. This
fierce creature has an abnormal appetite for logs, and it keeps an
army of men, boys, and horses busy in supplying it with food. While it
supplies us with lumber for the carpenter, builder, and cabinet-maker,
it at the same time, in the most shameful way, fills the trout streams
and rivers with great masses of sawdust, which kills and drives away
the fish. But near the saw-mill there is always to be found material
for a


Slab Canoe

which consists simply of one of those long slabs, the first cut from
some giant log (Fig. 43).

These slabs are burned or thrown away by the mill-owners, and hence
cost nothing; and as the saw-mill is in advance of population, you are
most likely to run across one on a hunting or fishing trip.

Near one end, and on the flat side of the slab (Fig. 40), bore four
holes, into which drive the four legs of a stool made of a section of a
smaller slab (Fig. 41), and your boat is ready to launch. From a piece
of board make a double or single paddle (Fig. 42), and you are equipped
for a voyage. An old gentleman, who in his boyhood days on the frontier
frequently used this simple style of canoe, says that the speed it
makes will compare favorably with that of many a more pretentious
vessel. See Fig. 43 for furnished boat.


The Dugout

Although not quite as delicate in model or construction as the graceful
birch-bark canoe, the "dugout" of the Indians is a most wonderful piece
of work, when we consider that it is carved from the solid trunk of
a giant tree with the crudest of tools, and is the product of savage
labor.

[Illustration: Fig. 41.]

Few people now living have enjoyed the opportunity of seeing one built
by the Indians, and, as the author is not numbered among that select
few, he considers it a privilege to be able to quote the following
interesting account given by Mr. J. H. Mallett, of Helena.


How to Build a Siwash Canoe

"While visiting one of the small towns along Puget Sound, I was greatly
interested in the way the Indians built their canoes. It is really
wonderful how these aborigines can, with the crudest means and with a
few days' work, convert an unwieldy log into a trim and pretty canoe.

[Illustration: Fig. 42.]

[Illustration: Fig. 43.--Slab canoe.]

"One Monday morning I saw a buck building a fire at the base of a
large cedar-tree, and he told me that this was the first step in the
construction of a canoe that he intended to use upon the following
Saturday. He kept the fire burning merrily all that day and far
into the night, when a wind came up and completed the downfall of
the monarch of the forest. The next day the man arose betimes, and,
borrowing a cross-cut saw from a logger, cut the trunk of the tree in
twain at a point some fifteen feet from where it had broken off, and
then with a dull hatchet he hacked away until the log had assumed the
shape of the desired canoe. In this work he was helped by his squaw.
The old fellow then built a fire on the upper part of the log, guiding
the course of the fire with daubs of clay, and in due course of time
the interior of the canoe had been burned out. Half a day's work with
the hatchet rendered the inside smooth and shapely.

"The canoe was now, I thought, complete, though it appeared to be
dangerously narrow of beam. This the Indian soon remedied. He filled
the shell two-thirds full of water, and into the fluid he dropped half
a dozen stones that had been heating in the fire for nearly a day. The
water at once attained a boiling point, and so softened the wood that
the buck and squaw were enabled to draw out the sides and thus supply
the necessary breadth of beam. Thwarts and slats were then placed in
the canoe and the water and stones thrown out. When the steamed wood
began to cool and contract, the thwarts held it back, and the sides
held the thwarts, and there the canoe was complete, without a nail,
joint, or crevice, for it was made of one piece of wood. The Siwash did
not complete it as soon as he had promised, but it only took him eight
days."

[Illustration: Fig. 44.--The dugout.]

In the North-eastern part of our country, before the advent of the
canvas canoe, beautiful and light birch-bark craft were used by the
Indians, the voyagers, trappers, and white woodsmen. But in the South
and in the North-west, the dugout takes the place of the birch-bark.
Among the North-western Indians the dugouts are made from the trunks
of immense cedar-trees and built with high, ornamental bows, which are
brilliantly decorated with paint. On the eastern shore of Maryland and
Virginia the dugout is made into a sail-boat called the buck-eye, or
bug-eye. But all through the Southern States, from the Ohio River to
the Gulf of Mexico and in Mexico, the dugout is made of a hollowed log
after the manner of an ordinary horse trough, and often it is as crude
as the latter, but it can be made almost as beautiful and graceful as a
birch-bark canoe.


How to Make a White Man's Dugout Canoe

To make one of these dugout canoes one must be big and strong enough
to wield an axe, but if the readers are too young for this work, they
are none too young to know how to make one, and their big brothers and
father can do the work. Since the dugout occupies an important position
in the history of our country, every boy scout should know how it is
made.

[Illustration: Fig. 45.]

[Illustration: Fig. 48.]

[Illustration: Fig. 49.]

[Illustration: Fig. 50.]

Fig. 44 shows one of these canoes afloat; Fig. 45 shows a tall,
straight tree suitable for our purpose, and it also shows how the
tree is cut and the arrangement of the kerfs, or two notches, so that
it will fall in the direction of the arrow in the diagram. You will
notice along the ground are shown the ends of a number of small logs.
These are the skids, or rollers, upon which the log will rest when the
tree is cut and felled. The tree will fall in the direction in which
the arrow is pointed if there is no wind. If you have never cut down
a tree, be careful to take some lessons of a good woodsman before you
attempt it.

When the log is trimmed off at both ends like Fig. 46, flatten the
upper side with the axe. This is for the bottom of the canoe; the flat
part should be about a foot and a half wide to extend from end to end
of the log. Now, with some poles for pryers, turn your log over so that
it will rest with the flat bottom on the skids, as in Fig. 46.

[Illustration: Fig. 46.]

[Illustration: Fig. 47.]

Next take a chalk-line and fasten it at the two ends of the log, as
shown by the dotted line in Figs. 46, 47, 48, 49.

Snap the line so that it will make a straight mark as shown by the
dotted line; then trim off the two ends for the bow and stern, as shown
in Fig. 47. Next cut notches down to the dotted line, as illustrated
in Fig. 48; then cut away from the bow down to the first notch, making
a curved line, as shown in Fig. 49 (which is cut to second notch). Do
the same with the stern, making duplicates of the bow and stern. The
spaces between the notches amidships may now be split off by striking
your axe along the chalk-line and then carefully driving in wooden
wedges. When this is all done you will have Fig. 50. You can now turn
the log over and trim off the edges of the bow and stern so that they
will slope, as shown in Fig. 44, in a rounded curve; after which roll
the canoe back again upon its bottom and with an adze and axe hollow
out the inside, leaving some solid wood at both bow and stern--not
that you need the wood for strength, but to save labor. When you have
decided upon the thickness of the sides of your canoe, take some small,
pointed instrument, like an awl, for instance, and make holes with it
to the required depth at intervals along the sides and bottom of the
canoe. Then take some small sticks (as long as the canoe sides are to
be thick), make them to fit the holes, blacken their ends, and drive
them into the holes.

As soon as you see one from the inside, you will know that you have
made the shell thin enough. Use a jack-plane to smooth it off inside
and out; then build a big fire and heat some stones. Next fill the
canoe with water and keep dumping the hot stones in the water until the
latter is almost or quite to boiling point. The hot water will soften
the wood so that the sides will become flexible, and you can then fit
in some braces at the bow, stern, and centre of the canoe. Make the
centre brace or seat some inches wider than the log, so that when it is
forced in place it will spread the canoe in the middle.




CHAPTER V

CANOES AND BOATING STUNTS

    How to Build a War Canoe--How to Build a Canvas
    Canoe--How to Build an Umbrella Canoe--How Old
    Shells Can be Turned into Boys' Boats--Cause of
    Upsets--Landing from, and Embarking in, a Shell--How to
    Mend Checks and Cracks


IN making canoes the Indians used birch bark for the cover, rock maple
for the cross-bars, and white cedar for the rest of the frame. We will
substitute canvas for the birch bark and any old wood that we can for
the rock maple and the white cedar. _Real woodcraft is best displayed
in the ability to use the material at hand._

David Abercrombie, the outfitter, some time ago presented Andrew J.
Stone, the Arctic explorer and mighty hunter, with a small piece of
light, water-proof cloth to use as a shelter tent in bad weather. But
Stone, like the hunter that he was, slept unprotected on the mountain
side in the sleet and driving storms, and used the water-proof cloth to
protect the rare specimens he had shot. One day a large, rapid torrent
lay in his path; there was no lumber large enough with which to build
a raft, and the only wood for miles around was small willow bushes
growing along the river bank. At his command, his three Indians made
a canoe frame of willow sticks, tied together with bits of cloth and
string. Stone set this frame in the middle of his water-proof cloth,
tied the cloth over the frame with other pieces of string, and using
only small clubs for paddles, he and his men crossed the raging torrent
in this makeshift, which was loaded with their guns, camera, and
specimens that he had shot on the trip.

After reading the above there is no doubt the reader will be able to
build a war canoe with barrel-hoop ribs and lattice-work slats. In
the writer's studio is a long piece of maple, one and one-half inches
wide and one-quarter inch thick, which was left by the workmen when
they put down a hard-wood floor. If you can get some similar strips,
either of oak, maple, or birch, from the dealers in flooring material,
they will not be expensive and will make splendid gunwales for your
proposed canoe. There should be four such strips. The hard-wood used
for flooring splits easily, and holes should be bored for the nails
or screws to prevent cracking the wood when the nails or screws are
driven home. Fig. 51 shows the framework (side view) of the canoe;
Fig. 52 shows an end view of the same canoe; Fig. 53 shows the middle
section, and Fig. 54 shows the form of the bow and stern sections. This
boat may be built any length you wish, and so that you may get the
proper proportions, the diagrams from one to five are marked off in
equal divisions. To make patterns of the moulds, Figs. 53 and 54, take
a large piece of manila paper, divide it up into the same number of
squares as the diagram, make the squares any size you may decide upon,
and then trace the line, 1-H-10, as it is in the diagrams. This will
give you the patterns of the two moulds (Figs. 53 and 54). While you
are looking at these figures, it may be well to call your attention to
the way bow and stern pieces are made. In Fig. 63 the pieces Y and X
are made from pieces of a packing-box, notched and nailed together with
a top piece, U, and a brace, V.

[Illustration: Fig. 53.

Fig. 54.

Fig. 51.

Fig. 52.

Fig. 57.

Fig. 58.

Fig. 56.

Fig. 59.

Fig. 55.]

[Illustration: Fig. 62. Fig. 60. Fig. 61.

Conventional bow, but made of barrel-heads.]

The other end of the same canoe is, as you may see, strengthened and
protected by having a barrel-hoop tacked over the stem-pieces, Y, X,
U. In Fig. 64 we use different material; here the stem-piece is made
of a broken bicycle rim, U, braced by the pieces of packing-box, Y, V,
and W. The left-hand end of Fig. 64 is made with pieces of head of a
barrel, X and U. The bottom of the stem-piece Y is made of the piece
of a packing-box. The two braces V are parts of the barrel-stave. Fig.
60 shows the common form of the bow of a canoe. The stem-pieces X,
Y are made of the parts of the head of a barrel, as shown in Fig. 62.
To make a stem from a barrel-head, nail the two pieces X and Y, Fig.
56, together as shown in this particular diagram. Now take another
piece of barrel-head, Fig. 57, and saw off a piece, A´, D´, C´, so that
it will fit neatly over A, C, D, on Fig. 56. Nail this securely in
place, and then in the same manner cut another piece to fit over the
part E, C, B, and nail that in place. Use small nails, but let them be
long enough so that you may clinch them by holding an axe or an iron
against the head while you hammer the protruding points down, or drive
the nail a little on the bias and holding the axe or iron on the side
it is to come through and let it strike the nail as it comes out and
it will clinch itself. To fasten the stem-piece to the keel use two
pieces of packing-box or board, cut in the form of Fig. 58, and nail
these securely to the bow-piece as in Z, in Fig. 60. Then from the
bottom side of the keel H, nail the keel-pieces firmly to the keel as
in Fig. 61. Also drive some nails from Z to the top down to the keel,
as shown by the dotted lines in Fig. 60. The end view, Fig. 59, shows
how the two Z pieces hug and support the stem-piece on the keel H. Fig.
55 shows a half of the top view of the canoe gunwales; the dimensions,
marked in feet and inches, are taken from an Indian birch-bark canoe.
You see by the diagram that it is eight feet from the centre of the
middle cross-piece to the end of the big opening at the bow. It is
also three feet from the centre of the middle cross-piece to the next
cross-piece, and thirty inches from the centre of that cross-piece to
the bow cross-piece, which is just thirty inches from the eight-foot
mark. The middle cross-piece in a canoe of these dimensions is
seven-eighths of an inch thick, and thirty inches long between the
gunwales; the next cross-piece is three-quarters of an inch thick and
twenty-two and one-half inches long. The next one is half an inch
wide, two inches thick and twelve inches between the gunwales. These
cross-pieces can be made of the staves of a barrel. Of course, this
would be a canoe of sixteen feet inside measurement, not counting the
flattened part of the bow and stern. Now, then, to build the canoe.
First take the keel-piece, H, which is in this case a piece of board
about six inches wide and only thick enough to be moderately stiff. Lay
the keel on any level surface and put the stem-pieces on as already
described, using packing-box for X, U, V, Y, and Z, and bracing them
with a piece of packing-box on each side, marked W in diagram (Fig.
51). Then make three moulds, one for the centre (Fig. 53), and two more
for the bow and stern (Fig. 54). Notch the bottom of these moulds to
fit the keel and with wire nails make them fast to the keel, leaving
the ends of the nails protruding far enough to be easily withdrawn when
you wish to remove the moulds. In nailing the laths to the moulds (Fig.
51) leave the heads of the nails also protruding so that they may be
removed. Place the moulds in position, with the middle one in the exact
centre, and the two ends located like those in Figs. 63 and 64. Place
and nail gunwale, L, on as in Fig. 51, tacking it to the bow and stern
and bending it around to fit the moulds; tack the lattice slats M, N,
O, P on to the bow, stern, and moulds, as shown in Fig. 51.

If your barrel-hoops are stiff and liable to break while bending and
unbending, let them soak a couple of days in a tub of water, then
before fitting them to the form of the canoe make them more pliable
by pouring hot water on them. The barrel-hoop S, R, at the bow of the
canoe, is nailed to the top-piece U, to the inside of the slats L, M,
N, O, P, and to the outside of H. The next three ribs on each side are
treated in the same manner; repeat this at the other end of the canoe
and nail the intervening ribs to the top of H and to the inside of the
slats, following the model of the boat. Put the ribs about four inches
apart and clinch the nails as already described.

In the diagrams there is no temporary support for the canoe frame
except the wooden horses, as in Fig. 51. These supports have been
purposely omitted in the drawing, as it is desirable to keep it as
simple as possible. Some temporary support will be necessary to hold
the bow and stern-piece in Fig. 51. These supports can be nailed or
screwed temporarily to the canoe frame so as to hold it rigid while you
are at work on it.

After the ribs are all in place and the framework completed, turn the
canoe upside down upon the wooden horses--for a canoe as large as the
one in the first diagram you will need three horses, one at each end
and one in the middle. For a canoe of the dimensions marked in Fig. 55,
that is, sixteen feet inside measurement, you would need about seven
yards of ten-ounce cotton canvas, of sufficient width to reach up over
the sides of your canoe. Take a tape-measure or a piece of ordinary
tape or a long strip of manila paper and measure around the bottom of
the boat at its widest part in the middle from one gunwale (top of
side) to the other, and see that your cloth is fully as wide as your
measurement. Fold the canvas lengthwise so as to find its exact centre
and crease it. With two or three tacks fasten the cloth at its centre
line (the crease) to the stem-piece of the canoe. Stretch the canvas
the length of the boat with the crease of centre-line along the centre
of the keel; pull it as taut as may be and again tack the centre line
to the stem at this end of the craft. If this has been done carefully
the cloth will hang an equal length over each side of the canoe. Now
begin amidships and drive tacks about two inches apart along the
gunwale, say an inch below the top surface. After having tacked it for
about two feet, go to the other side of the boat, pull the cloth taut
and in the same manner tack about three feet. Continue this process
first one side and then the other until finished. While stretching the
cloth knead it with the hand and fingers so as to thicken or "full"
it where it would otherwise wrinkle; by doing this carefully it is
possible to stretch the canvas over the frame without the necessity
of cutting it. The cloth that extends beyond the frame may be brought
over the gunwale and tacked along the inside. Use four-ounce tinned or
copper tacks. The canvas is now stretched on every part except on the
high, rolling bow and stern. With a pair of shears slit the canvas from
the outer edge of the bow and stern within a half inch of the ends of
the keel.

[Illustration: Fig. 63.]

[Illustration: Fig. 64.

High bows framework made of packing-box and barrel-heads.]

Fold the right-hand flap thus made at the left-hand end around the bow
and stern and, drawing tight, tack it down, then fold the left-hand
flap over the right-hand side and tack it in a similar manner, trimming
off the remaining cloth neatly. The five braces, three of which are
shown in Fig. 55, may be nailed to the gunwales of the canoe, as the
temporary moulds are removed. The braces should be so notched that the
top ends of the braces will fit over the top edge of the gunwale and
their lower edges will fit against the sides. Give the boat at least
three good coats of paint and nail the two extra gunwale strips on the
outside of the canvas for guards.

When it is dry and the boat is launched you may startle the onlookers
and make the echoes ring with:

"Wo-ach! wo-ach! Ha-ha-ha-hack--wo-ach!" which is said to be the
identical war cry with which the Indians greeted the landing of our
Pilgrim Fathers.

The reader must not suppose that barrel-hoops are the best material
for ribs; they are but a makeshift, and although good-looking,
servicable canoes have been built of this material from the foregoing
descriptions, better ones may be made by using better material, such,
for instance, as is described in the making of the birch-bark canoe.


Old Shells

Where there are oarsmen and boat-clubs, there you will find beautiful
shell boats of paper or cedar, shaped like darning-needles, so slight
in structure that a child can knock a hole in them, and yet very
seaworthy boats for those who understand how to handle them. The
expensive material and skilled labor necessary to build a racing shell
puts the price of one so high that few boys can afford to buy one; but
where new shells are to be found there are also old ones, and when they
are too old to sell they are thrown away. Many an old shell rots on
the meadows near the boat-houses or rests among the rafters forgotten
and unused, which with a little work would make a boat capable of
furnishing no end of fun to a boy.


Checks or Cracks

can be pasted over with common manila wrapping-paper by first covering
the crack with a coat of paint, or, better still, of varnish, then
fitting the paper smoothly over the spot and varnishing the paper.
Give the paper several coats of varnish, allowing it to dry after each
application, and the paper will become impervious to water. The deck
of a shell is made of thin muslin or paper, treated with a liberal
coat of varnish, and can be patched with similar material. There are
always plenty of slightly damaged oars which have been discarded by the
oarsmen. The use of a saw and jack-knife in the hands of a smart boy
can transform these wrecks into serviceable oars for his patched-up old
shell, and if the work is neatly done, the boy will be the proud owner
of a real shell boat, and the envy of his comrades.


The Cause of Upsets

A single shell that is very cranky with a man in it is comparatively
steady when a small boy occupies the seat. Put on your bathing clothes
when you wish to try a shell, so that you may be ready for the
inevitable upset. Every one knows, when he looks at one of these long,
narrow boats, that as long as the oars are held extended _on the water_
it cannot upset. But, in spite of that knowledge, every one, when he
first gets into a shell, endeavors to balance himself by _lifting the
oars_, and, of course, goes over in a jiffy.


The Delights of a Shell

It is an error to suppose that the frail-looking, needle-like boat is
only fit for racing purposes. For a day on the water, in calm weather,
there is, perhaps, nothing more enjoyable than a single shell. The
exertion required to send it on its way is so slight, and the speed
so great, that many miles can be covered with small fatigue. Upon
referring to the log-book of the Nereus Club, where the distances are
all taken from the United States chart, the author finds that twenty
and thirty miles are not uncommon records for single-shell rows.

During the fifteen or sixteen seasons that the author has devoted his
spare time to the sport he has often planned a heavy cruising shell,
but owing to the expense of having such a boat built he has used the
ordinary racing boat, and found it remarkably well adapted for such
purposes. Often he has been caught miles away from home in a blow, and
only once does he remember of being compelled to seek assistance.

He was on a lee shore and the waves were so high that after once being
swamped he was unable to launch his boat again, for it would fill
before he could embark. So a heavy rowboat and a coachman were borrowed
from a gentleman living on the bay, and while the author rowed, the
coachman towed the little craft back to the creek where the Nereus
club-house is situated.

In the creek, however, the water was calmer, and rather than stand the
jeers of his comrades, the writer embarked in his shell and rowed up to
the boat-house float. He was very wet and his boat was full of water,
but to the inquiry of "Rough out in the bay?" he confined himself to
the simple answer--"Yes." Then dumping the water from his shell and
placing it upon the rack he put on his dry clothes and walked home,
none the worse for the accident.

After ordinary skill and confidence are acquired it is really
astonishing what feats can be accomplished in a frail racing boat.

[Illustration: Fig. 65. A Fig. 66. B Fig. 67. C Fig. 68. D Fig. 69. E
Fig. 70. F Fig. 71. Fig. 72. Fig. 73. Fig. 74. Fig. 75.

PARTS OF THE UMBRELLA CANOE.

    A = Plank.
    B = Rib }
    C = Rib }
    D = Rib } in process of construction.
    E = Rib }
    F = Rib }
    G, G´ = Thimbles.
    H = Plank.
    J and K = Stretcher unfinished and finished.]

It is not difficult to


Stand Upright In a Shell

if you first take one of your long stockings and tie the handles of
your oars together where they cross each other in front of you. The
ends will work slightly and the blades will keep their positions on the
water, acting as two long balances. Now slide your seat as far forward
as it will go, slip your feet from the straps and grasp the straps with
your hand, moving the feet back to a comfortable position. When all
ready raise yourself by pulling on the foot strap, and with ordinary
care you can stand upright in the needle-shaped boat, an apparently
impossible thing to do when you look at the narrow craft.


How to Land Where There Is No Float

When for any reason you wish to land where there is no float, row into
shallow water and put one foot overboard until it touches bottom. Then
follow with the other foot, rise, and you are standing astride of your
boat.


How to Embark Where There Is No Float

Wade out and slide the shell between your extended legs until the seat
is underneath you. Sit down, and, with the feet still in the water,
grasp your oars. With these in your hands it is an easy task to balance
the boat until you can lift your feet into it.


Ozias Dodge's Umbrella Canoe

Mr. Dodge is a Yale man, an artist, and an enthusiastic canoeist. The
prow of his little craft has ploughed its way through the waters of
many picturesque streams in this country and Europe, by the river-side,
under the walls of ruined castles, where the iron-clad warriors once
built their camp-fires, and near pretty villages, where people dress as
if they were at a fancy-dress ball.

When a young man like Mr. Dodge says that he has built a folding canoe
that is not hard to construct, is inexpensive and practical, there
can be little doubt that such a boat is not only what is claimed for
it by its inventor, but that it is a novelty in its line, and such is
undoubtedly the case with the umbrella canoe.


How the Canoe Was Built

The artist first secured a white-ash plank (A, Fig. 65), free from
knots and blemishes of all kinds. The plank was one inch thick and
about twelve feet long. At the mill he had this sawed into eight strips
one inch wide, one inch thick, and twelve feet long (B and C, Figs. 66
and 67). Then he planed off the square edges of each stick until they
were all octagonal in form, and looked like so many great lead-pencils
(D, Fig. 68).

[Illustration: Fig. 76.--Frame of umbrella canoe.]

Mr. Dodge claims that, after you have reduced the ash poles to this
octagonal form, it is an easy matter to whittle them with your
pocket-knife or a draw-knife, and by taking off all the angles of the
sticks make them cylindrical in form (E, Fig. 69); then smooth them off
nicely with sand-paper, so that each pole has a smooth surface and is
three-quarters of an inch in diameter.

[Illustration: Fig. 77.--Umbrella canoe.]

After the poles were reduced to this state he whittled all the ends to
the form of a truncated cone--that is, like a sharpened lead-pencil
with the lead broken off (F, Fig. 70)--a blunt point. He next went to
a tinsmith and had two sheet-iron cups made large enough to cover the
eight pole-ends (G and G´, Figs. 71 and 72). Each cup was six inches
deep. After trying the cups, or thimbles, on the poles to see that they
would fit, he made two moulds of oak. First he cut two pieces of oak
plank two feet six inches long by one foot six inches (H, Fig. 74),
which he trimmed into the form shown by J, Fig. 75, making a notch
to fit each of the round ribs, and to spread them as the ribs of an
umbrella are spread. He made two other similar moulds for the bow and
stern, each of which, of course, is smaller than the middle one. After
spreading the ribs with the moulds, and bringing the ends together in
the tin cups, he made holes in the bottom of the cups where the ends
of the ribs came, and fastened the ribs to the cups with brass screws,
fitted with leather washers, and run through the holes in the tin and
screwed into the ends of the poles or ribs.

[Illustration: Fig. 78.--Canoe folded for transportation. Canoe in
water in distance.]

A square hole was then cut through each mould (K, Fig. 75), and the
poles put in place, gathered together at the ends, and held in place by
the tin thimbles. The square holes in the moulds allow several small,
light floor planks to form a dry floor to the canoe.

The canvas costs about forty-five cents a yard, and five yards are
all you need. The deck can be made of drilling, which comes about
twenty-eight inches wide and costs about twenty cents a yard. Five
yards of this will be plenty. Fit your canvas over the frame, stretch
it tightly, and tack it securely to the two top ribs only. Fasten the
deck on in the same manner.

When Mr. Dodge had the canoe covered and decked, with a square hole
amidship to sit in, he put two good coats of paint on the canvas,
allowed it to dry, and his boat was ready for use (Fig. 77). He
quaintly says that "it looked like a starved dog, with all its ribs
showing through the skin," just as the ribs of an umbrella show on top
through the silk covering. But this does not in any way impede the
progress of the boat through the water.

Where the moulds are the case is different, for the lines of the
moulds cross the line of progress at right angles and must necessarily
somewhat retard the boat. But even this is not perceptible. The worst
feature about the moulds is that the canvas is very apt to be damaged
there by contact with the shore, float, or whatever object it rubs
against.

With ordinary care the umbrella canoe


Will Last for Years

and is a good boat for paddling on inland streams and small bodies of
water; and when you are through with it for the night, all that is
necessary is to remove the stretchers by springing the poles from the
notches in the spreaders, roll up the canvas around the poles, put it
on your shoulder, and carry it home or to camp, as shown in Fig. 78.

To put your canoe together again put in the moulds, fit the poles in
their places, and the umbrella is raised, or, rather, the canoe is, if
we can use such an expression in regard to a boat.




CHAPTER VI

THE BIRCH-BARK

    How to Build a Real Birch-Bark Canoe or a Canvas Canoe
    on a "Birch-Bark" Frame--How to Mend a Birch-Bark


ALTHOUGH the Indian was the first to build these simple little boats,
some of his white brothers are quite as expert in the work. But the red
man can outdo his white brother in navigating the craft. The only tools
required in building a canoe are a knife and awl, a draw-shave and a
hammer. An Indian can do all of his work with a knife.

Several years ago canvas began to be used extensively in
canoe-building, instead of birch bark, and it will eventually
entirely supersede birch, although nothing can be found that bends so
gracefully. There are several canvas-canoe factories in Maine, and the
canoes made of canvas have both the symmetry and the durability of the
birches. They are also a trifle cheaper, but if the real thing and
sentiment are wanted, one should never have anything but a bark craft.

If properly handled, a good canoe will safely hold four men. Canoes
intended for deep water should have considerable depth. Those intended
for shoal water, such as trout-fishers use, are made as flat as
possible. Up to the time when canoeing was introduced the materials for
building craft of this kind could be found all along the rivers. Big
birch-trees grew in countless numbers, and clear, straight cedar was
quite as plentiful within a few feet of the water's edge. Now one must
go miles back into the dense forests for such materials, and even then
seldom does it happen that two suitable trees are found within sight of
one or the other. Cedar is more difficult of the two to find.


The Tree

The tree is selected, first, for straightness; second, smoothness;
third, freedom from knots or limbs; fourth, toughness of bark; fifth,
small size of eyes; sixth, length (the last is not so important, as two
trees can be put together), and, seventh, size (which is also not so
important, as the sides can be pieced out).


Dimensions

The average length of canoe is about 19 feet over all, running,
generally, from 18 to 22 feet for a boat to be used on inland waters,
the sea-going canoes being larger, with relatively higher bows. The
average width is about 30 inches inside, measured along the middle
cross-bar; the greatest width inside is several inches below the middle
cross-bar, and is several inches greater than the width measured along
said cross-bar.

The measurements given below are those of a canoe 19 feet over all: 16
feet long inside, measured along the curve of the gunwale; 30 inches
wide inside. The actual length inside is less than 16 feet, but the
measurement along the gunwales is the most important.


Bark

Bark can be peeled when the sap is flowing or when the tree is not
frozen--at any time in late spring, summer, and early fall (called
summer bark); in winter during a thaw, when the tree is not frozen, and
when the sap may have begun to flow.


Difference in the Bark

Summer bark peels readily, is smooth inside, of a yellow color, which
turns reddish upon exposure to the sun, and is chalky-gray in very old
canoes. Winter bark adheres closely, and forcibly brings up part of
the inner bark, which on exposure turns dark red. This rough surface
may be moistened and scraped away. All winter-bark canoes must be thus
scraped and made smooth. Sometimes the dark red is left in the form of
a decorative pattern extending around the upper edge of the canoe, the
rest of the surface being scraped smooth.


Process of Peeling

The tree should be cut down so that the bark can be removed more easily.

A log called a skid (Fig. 79) is laid on the ground a few feet from the
base of the tree, which will keep the butt of the tree off the ground
when the tree is felled. The limbs at the top will keep the other end
off the ground. A space is cleared of bushes and obstructions where the
tree is to fall.

[Illustration: Fig. 79.--Showing how the butt is kept off the ground.]

[Illustration: Fig. 80.]

[Illustration: Fig. 81.]

After the tree has been cut down, a cut is made in a straight line (A,
B, Fig. 79), splitting the bark from top to bottom, and a ring cut at
A and B (Fig. 79). When sap is flowing, the bark is readily removed;
but in winter the edges of the cut are raised with a knife, and a thin,
pliant hard-wood knife or "spud" is pushed around under the bark.


Toasting

After the bark has dropped upon the ground the inside surface is warmed
with a torch, which softens and straightens it out flat. The torch is
made of a bundle of birch bark held in a split stick (Fig. 81).

It is then rolled up like a carpet, with inside surface out, and
tightly bound, generally with cedar bark when the latter can be
procured (Fig. 80).

If the tree is long enough, a piece is taken off at least nineteen feet
in length, so that the ends of the canoe may not be pieced out. A few
shorter pieces are wrapped up with the bundle for piecing out the sides.


The Roll

is taken on the back in an upright position, and is carried by a broad
band of cedar bark, passing under the lower end of the roll and around
in front of the breast and shoulders (Fig. 82).

[Illustration: Fig. 82.--Mode of carrying roll.]


Effects of Heat

It is laid where the sun will not shine on it and harden it. The first
effect of heat is to make it pliant. Long exposure to heat or to dry
atmosphere makes it hard and brittle.


The Woodwork

is as follows:

Five cross-bars of rock-maple (Figs. 83, 85, and 91). All the rest is
of white cedar, taken from the heart. The sap-wood absorbs water, and
would make the canoe too heavy, so it is rejected. The wood requires to
be straight and clear, and it is best to use perfectly green wood for
the ribs.

Two strips 16½ feet long, 1½ inch square, tapering toward either end,
the ends being notched (Fig. 83 A) is a section of the 16½ foot strip.
Each strip is mortised for the cross-bars (see Fig. 85). The lower
outside edge is bevelled off to receive the ends of the ribs.

The dimensions of the cross-bars (Fig. 85) are 12 x 2 x ½ inch, 22½ x 2
x ¾ inch, and 30 x 2 x 7/8 inch. The cross-bars are placed in position,
and the ends of the gunwales are tied with spruce roots after being
nailed together to prevent splitting. Each bar is held in place by a
peg of hard wood.

[Illustration: Figs. 83 and 83½.--Showing section of canoe amidship and
section and shape of gunwale and top view.]

For stitching and wrapping, long, slender roots of spruce, or sometimes
of elm, are peeled and split in two. Black ash splits are rarely used
except for repairing (Figs. 86, 87, 88).

Next we need (B, Fig. 83) two strips 1 or 1¼ inch by ½ inch, a little
over 19 feet long, to go outside of gunwales, and (C, Fig. 83) two top
strips, same length, 2 inches wide in middle, tapering to 1 inch at
either end, 1½ inch thick.

[Illustration: Fig. 86.

Fig. 87.

Fig. 88.

Fig. 89.

Fig. 90.

Fig. 91.

Fig. 84.

Fig. 85.

Details of sticking and framework of canoe.]


Ribs

About fifty in number (Figs. 91, 92) are split with the grain (F, Fig.
92), so that the heart side of the wood will be on the inner side when
the rib is bent. The wood bends better this way. They must be perfectly
straight-grained and free from knots. Ribs for the middle are four
inches wide, ribs for the ends about three inches wide (Fig. 91 and
G, Fig. 92), and are whittled down to a scant half an inch (Fig. 93).
Green wood is generally used, and before it has had any time to season.
The ribs may be softened by pouring hot water on them, and should be
bent in pairs to prevent breaking (Fig. 90). They are held in shape by
a band of cedar bark passed around outside.

The ribs are of importance in the shaping of the canoe. The sides bulge
out (Figs. 91, 92). The shape of the ribs determines the depth and
stability of the canoe.


Lining Strips

Other strips, an eighth of an inch thick, are carefully whittled out,
with straight edges. They are a little over eight feet long, and are
designed to be laid inside on the bark, edge to edge, between the bark
and the ribs. These strips lap an inch or two where they meet, in the
middle of the canoe, and are wider here than at the ends, owing to the
greater circumference of the canoe in the middle.


Seasoning

All the timber is carefully tied up before building and laid away. The
ribs are allowed to season perfectly, so that they will keep their
shape and not spring back.

[Illustration: Fig. 92.

Fig. 93.

Details of ribs, Indian knives and method of using them.]


The Bed

Next the bed is prepared on a level spot, if possible shaded from the
sun. A space is levelled about three and a half feet wide and a little
longer than the canoe. The surface is made perfectly smooth. The
middle is one or two inches higher than either end.


Building

The frame is laid exactly in the middle of the bed. A small post is
driven in the ground (Fig. 94), on which each end of the frame will
rest. Stakes, two or three feet long and about two inches in diameter,
are whittled flat on one side, and are driven with the flat side toward
the frame at the following points, leaving a space of about a quarter
of an inch between the stake and the frame (Fig. 94): One stake an inch
or two on either side of each cross-bar, and another stake half way
between each cross-bar. This makes eleven stakes on each side of the
frame. Twelve additional stakes are driven as follows: One pair facing
each other, at the end of the frame; another pair, an inch apart, about
six inches from the last pair, measuring toward the ends of the canoe;
and another pair, an inch apart, a foot from these. These last stakes
will be nine and a half feet from the middle of the frame, and nineteen
feet from the corresponding stakes at the other end. Next, these stakes
are all taken up, and the frame laid aside.

[Illustration: Fig. 94.--Showing stakes supporting bark sides; note
stones on the bottom.]


To Soften the Bark

Next the bark is unrolled. If it has laid until it has become a little
hardened, it is placed in the river or stream for a day or two. It is
spread out flat, and laid upon the bed with the gray or outside surface
up. The inside surface is placed downward, and becomes the outside of
the canoe.

The frame is replaced upon the bark, so that it will be at the same
distance from each side and end of the bed that it was before. At each
cross-bar boards are laid across the frame, and heavy stones are laid
upon them to keep the frame solid and immovable upon the bark (Fig. 85,
C). The edges of the bark are next bent up in a perpendicular position,
and in order that it may bend smoothly slits are made in the bark in an
outward direction, at right angles to the frame. A cut is made close
to the end of each cross-bar, and one half way between each bar, which
is generally sufficient to allow the bark to be bent up smoothly. As
the bark is bent up, the large stakes are slipped back in the holes
which they occupied before, and the tops of each opposite pair are
connected with a strip of cedar bark which keeps the stakes perfectly
perpendicular. At each end it is necessary to take out a small
triangular piece or gore, so that the edges may come together without
overlapping.

Next twenty-two pieces of cedar, one to two feet long, and about ½ or
¾ inch thick, are split out, and whittled thin and flat at one end.
This sharpened edge is inserted between the outside edge of the frame
and the bent-up bark, opposite each large stake. The other end of the
chisel-shaped piece is tightly tied to the large stake outside. By
means of the _large outside stake_ and the inside "_stake_," so-called,
the bark is held in a perfectly upright position; and in order to keep
the bent-up part more perfectly flat and smooth, the strips of cedar
are pushed in lengthwise between the stakes and the bark, on each side
of the bark, as shown in sectional views (Fig. 85, C, D).

Sometimes, in place of having temporary strips to go on outside of the
bark, the long outside strip (B, Fig. 83), is slipped in place instead.

It may now be seen if the bark is not wide enough. If it is not, the
sides must be pieced out with a narrow piece, cut in such a way that
the eyes in the bark will run in the same direction as those of the
large piece.

As a general rule, from the middle to the next bar the strip for
piecing is placed on the inside of the large piece, whose upper edge
has previously been trimmed straight, and the two are sewed together
by the stitch shown in Fig. 86, the spruce root being passed over
another root laid along the trimmed-off edge of the large piece of bark
to prevent the stitches from tearing out. From the second bar to the
end of the canoe, or as far as may be necessary, the strip is placed
outside the large piece, and from the second to the end bar is sewed as
in Fig. 87, and from the end bar to the end of the canoe is stitched as
in Fig. 88.

Next, the weights are taken off the frame, which is raised up as
follows, the bark remaining flat on the bed as before:

A post eight inches long is set up under each end of middle cross-bar
(Fig. 85, D), one end resting on the bark and the other end supporting
either end of the middle cross-bar. Another post, nine inches long,
is similarly placed under each end of the next cross-bar. Another,
twelve inches long, is placed under each end of the end cross-bar; and
another, sixteen and a half or seventeen inches, supports each end of
the frame.

As the posts are placed under each cross-bar, the weights are replaced;
and as these posts are higher at the ends than in the middle, the
proper curve is obtained for the gunwales. The temporary strips, that
have been placed outside the bent-up portion of the bark, are removed,
and the long outside strip before mentioned (B, Fig. 83) is slipped
in place between the outside stakes and the bark. This strip is next
nailed to the frame with wrought-iron nails that pass through the bark
and are clinched on the inside. This outside strip has taken exactly
the curve of the frame, but its upper edge, before nailing, was raised
so as to be out an eighth of an inch (or the thickness of the bark)
higher than the top surface of the frame, so that when the edges of the
bark have been bent down, and tacked flat to the frame, a level surface
will be presented, upon which the wide top strip will eventually be
nailed. Formerly the outer strip was bound to the frame with roots
every few inches, but now it is nailed.

The cross-bars are now lashed to the frame, having previously been
held only by a peg. The roots are passed through holes in the end of
the bars, around the outside strip (see right-hand side of Fig. 85). A
two-inch piece of the bark, which has been tacked down upon the frame,
is removed at the ends by the cross-bars, where the spruce roots are
to pass around, and the outside strip is cut away to a corresponding
extent, so that the roots, when wrapped around, will be flush with the
surface above.

[Illustration: Fig. 95.--Shows how to describe arc of circle for bow,
also ornamentation of winter bark.]

All the stakes are now removed, and laid away to be ready for the next
canoe that may be built, and the canoe taken upside down upon two
horses or benches, that will keep the craft clear of the ground.

The shape of the bow is now marked out, either by the eye or with
mechanical aid, according to the following rule: An arc of a circle,
with a radius of seventeen inches, is described (Fig. 95) having as a
centre a point shown in diagram. The bark is then cut away to this line.


Bow-piece

To stiffen the bow, a bow-piece of cedar, nearly three feet long
(Fig. 96), an inch and a half wide, and half an inch thick on one
edge, bevelled and rounded off toward the other edge, is needed. To
facilitate bending edgeways it is split into four or five sections
(as in Fig. 98) for about thirty inches. The end that remains unsplit
is notched on its thicker edge (Fig. 96) to receive the lower end
of an oval cedar board (Fig. 97) that is placed upright in the bow
underneath the tip of the frame. It is bent to correspond with the
curve of the boat, with the thin edge toward the outside of the circle,
and wrapped with twine, so that it will keep its shape. The bow-piece
is placed between the edges of the bark, which are then sewed together
by an over-and-over stitch, which passes through the bow-piece.

A pitch is prepared of rosin and grease, in such proportions that it
will neither readily crack in cold water nor melt in the sun. One or
the other ingredient is added until by test it is found just right.


Patching and Pitching

The canoe is now placed on the ground, right side up, and all holes are
covered on the inside with thin birch bark that is pasted down with hot
pitch. A strip of cloth is saturated with hot pitch, and pressed into
the cracks on either side of the bow-piece inside, between the bark and
the bow-piece (Fig. 99).

[Illustration: Figs. 97-100.--Show details of canoe bow.]

The thin longitudinal strips are next laid in position, edge to edge,
lapping several inches by the middle; they are whittled thin here so as
to lap evenly.

The ribs are next tightly driven in place, commencing at the small end
ones and working toward the middle. The end ribs may be two or three
inches apart, being closer toward the middle, where, in many cases,
they touch. Usually, they are about half an inch apart in the middle.
Each rib is driven into place with a square-ended stick and a mallet.

The ends are stuffed with shavings (Fig. 100 and "Section" Fig. 100½),
and an oval cedar board is put in the place formerly occupied by the
post that supported the end of the frame. The lower end rests in the
notch of the bow-piece, while the upper is cut with two shoulders that
fit underneath each side of the frame; Fig. 97 shows the cedar board.

[Illustration: Fig. 100½.

Fig. 101.

Canoe paddles.]

The top strip is next nailed on to the frame. Almost always a piece of
bark, a foot or more long, and nine or ten inches wide, is bent and
slipped under, between both top and side strips and the bark. The ends
of this piece hang down about three inches below the side strips. The
loose ends of the strips are bound together, as in diagram, and the
projecting tips of both strips and bow-piece are trimmed off close.

Next the canoe is turned upside down. If winter bark has been used,
the surface is moistened and the roughness scraped off with a knife.
Generally the red rough surface is left in the form of a decorative
pattern several inches wide around the upper edge (Fig. 95). Sometimes
the maker's name and date are left in this way.

Finally, a strip of stout canvas, three or four inches wide, is dipped
in the melted pitch and laid on the stitching at the ends, extending up
sufficiently far above the water-line. All cracks and seams are covered
with pitch, laid on with a small wooden paddle. While still soft, a wet
finger or the palm of the hand is rubbed over the pitch to smooth it
down before it hardens.


Leaks

Water is placed inside, and the leaky places marked, to be stopped when
dry. A can of rosin is usually carried in the canoe, and when a leak
occurs, the canoe is taken out of the water, the leak discovered by
sucking, the place dried with a torch of wood or birch bark, and the
pitch applied.

[Illustration: Fig. 101½.--From photograph of Indian building a
birch-bark canoe.]

Paddles are made of rock maple, and sometimes of birch and even cedar.
Bow paddles are usually longer and narrower in the blade than stern
paddles (Fig. 101).


Bottom Protection

Sometimes the canoe is shod with "shoes," or strips of cedar, laid
lengthwise and tied to the outside of the bark with ash splits that
pass through holes in the cedar shoes, and are brought up around the
sides of the canoe and tied to each cross-bar. This protects the bottom
of the boat from the sharp rocks that abound in some rapid streams.

All canoes are of the general shape of the one described, though this
is considerably varied in different localities, some being built with
high rolling bows, some slender, some wider, some nearly straight on
the bottom, others decidedly curved.

Besides the two paddles the canoe should carry a pole ten feet
long, made of a slender spruce, whittled so as to be about one and
three-fourths inch in diameter in the middle and smaller at either end,
and having at one end either a ring and a spike or else a pointed cap
of iron. The pole is used for propelling the canoe up swift streams.
This, says Tappan Adney, "is absolutely indispensable." The person
using the pole stands in one end, or nearer the middle if alone, and
pushes the canoe along close to the bank, so as to take advantage of
the eddies, guiding the canoe with one motion, only to be learned by
practice, and keeping the pole usually on the side next the bank. Where
the streams have rocky and pebbly bottoms poling is easy, but in muddy
or soft bottoms it is tiresome work; muddy bottoms, however, are not
usually found in rapid waters.


A Canvas Canoe

can be made by substituting canvas in the place of birch bark; and
if it is kept well painted it makes not only a durable but a very
beautiful boat. The writer once owned a canvas canoe that was at least
fifteen years old and still in good condition.

About six yards of ten-ounce cotton canvas, fifty inches wide, will
be sufficient to cover a canoe, and it will require two papers of
four-ounce copper tacks to secure the canvas on the frame.

The boat should be placed, deck down, upon two "horses" or wooden
supports, such as you see carpenters and builders use.

Fold the canvas lengthwise, so as to find the centre, then tack the
centre of one end of the cloth to top of bow-piece, or stem, using two
or three tacks to hold it securely. Stretch the cloth the length of the
boat, pull it taut, with the centre line of the canvas over the keel
line of the canoe, and tack the centre of the other end of the cloth to
the top of the stern-piece.

If care has been taken thus far, an equal portion of the covering will
lap the gunwale on each side of the boat.

Begin amidships and drive the tacks, about two inches apart, along the
gunwale and an inch below the deck (on the outside). Tack about two
feet on one side, pull the cloth tightly across, and tack it about
three feet on the other side. Continue to alternate, tacking on one
side and then the other, until finished.

With the hands and fingers knead the cloth so as to thicken or "full"
it where it would otherwise wrinkle, and it will be possible to stretch
the canvas without cutting it over the frame.

The cloth that projects beyond the gunwale may be used for the deck, or
it may be cut off after bringing it over and tacking upon the inside of
the gunwale, leaving the canoe open like a birch-bark.


To Paddle a Canoe

No one can expect to learn to paddle a canoe from a book, however
explicit the directions may be. There is only one way to learn to swim
and that is by going into the water and trying it, and the only proper
way to learn to paddle a canoe is to paddle one until you catch the
knack.

In the ordinary canoe, to be found at the summer watering places,
there are cane seats and they are always too high for safety. A
top load on any sort of a boat is always dangerous, and every real
canoeist seats his passengers on the bottom of the boat and kneels on
the bottom himself while paddling. Of course, one's knees will feel
more comfortable if there is some sort of a cushion under them, and a
passenger will be less liable to get wet if he has a pneumatic cushion
on which to sit. No expert canoeist paddles alternately first on the
one side, and then on the other; on the contrary, he takes pride in his
ability to keep his paddle continuously on either side that suits his
convenience.

The Indians of the North Woods are probably the best paddlers, and
from them we can take points in the art. It is from them we first
learned the use of the canoe, for our open canvas canoes of to-day are
practically modelled on the lines of the old birch-barks.

[Illustration: From photographs taken especially for this book by Mr.
F. K. Vreeland, Camp Fire Club of America.

Fig. 102.--Beginning of stroke. Paddle should not be reached farther
forward than this. It is immersed _edgewise_ (not point first) with a
slicing motion. Note the angle of paddle--rear face of blade turned
_outward_ to avoid tendency of canoe to turn. Staff of paddle is 6
inches too short. Left hand should be lower.

Fig. 102_a_.--A moment later. Right hand pushing forward, left hand
swinging down. Left hand should be lower on full-sized paddle.

Fig. 103.--Putting the power of the body in the stroke by bending
slightly forward. Left hand held stationary from now on, to act as
fulcrum. The power comes from the right arm and shoulders.

Fig. 103_a_.--The final effort, full weight of the body on the paddle.
The right arm and body are doing the work, the left arm (which is weak
at this point) acting as fulcrum. Note twist of the right wrist to give
blade the proper angle.

Fig. 104.--End of stroke. Arms relaxed and body straightening.

Fig. 104_a_.--Beginning of recovery. Paddle slides out of water gently.
Note that blade is perfectly flat on the surface. No steering action is
required. If the canoe tends to swerve it is because the _stroke_ was
not correct. Only a duffer _steers_ with his paddle after the stroke is
over. The left hand now moves forward, the right swinging out and back,
moving paddle forward horizontally.

Fig. 104_b_.--Turning to right. The latter part of a broad sweep
outward, away from the canoe. The blade is now being swept toward the
canoe, the left hand pulling in, the right pushing out. Position of
right wrist shows that blade has the opposite slant to that shown in
the straightaway stroke--_i. e._, the near face of blade is turned
_inward_. Blade leaves water with _outer_ edge up. Wake of canoe shows
sharpness of turn.

Fig. 104_c_.--Turning to left. The last motion of a stroke in which the
paddle is swept close to the canoe with the blade turned much farther
outward than in the straightaway stroke. At end of stroke blade is
given an outward sweep and leaves the water with the _inner_ edge up.
_This is not a steering_ or dragging motion. It is a powerful sweep of
the paddle. Note swirl in wake of canoe showing sharp turn.]

When you are standing upright and your paddle is in front of you with
the blade upon the ground, the handle should reach to your eye-brows.
(See Figs. 101, 102, 103, etc.)

Kneel with the paddle across the canoe and not farther forward than the
knees. Then dip the blade _edgewise_ (not point first) by raising the
upper hand without bending the elbow. Swing the paddle back, keeping
it close to the canoe, and give a little twist to the upper wrist to
set the paddle at the proper angle shown in the photos. The exact
angle depends upon the trim of the boat, the wind, etc., and must be
such that the canoe does not swerve _at any part_ of the stroke, but
travels straight ahead. The lower arm acts mainly as a fulcrum and
does not move back and forth more than a foot. The power comes from
the upper arm and shoulder, and the body bends forward as the weight
is thrown on the paddle. The stroke continues until the paddle slides
out of the water endwise, flat on the surface. Then for recovery the
blade is brought forward by a swing from the shoulder, _not_ lifting
it vertically, but swinging it horizontally with the blade parallel to
the water and the upper hand low. When it reaches a point opposite the
knee it is slid into the water again, edgewise, for another stroke. The
motion is a more or less rotary one, like stirring cake, not a simple
movement back and forth.


To Carry a Canoe

To pick up a canoe and carry it requires not only the knack but also
muscle, and no undeveloped boy should make the attempt, as he might
strain himself, with serious results. But there are plenty of young
men--good, husky fellows--who can learn to do this without any danger
of injury if they are taught _how_ to lift by a competent physical
instructor.

To pick up a canoe for a "carry," stoop over and grasp the middle brace
with the right arm extended, and a short hold with the left hand, as
shown in Fig. 105.

When you have a secure hold, hoist the canoe up on your legs, as shown
in Fig. 106. Without stopping the motion give her another boost, until
you have the canoe with the upper side above your head, as in Fig. 107.
In the diagram the paddles are not spread apart as far as they should
be. If the paddles are too close together a fall may break ones neck.

[Illustration: Fig. 106.]

[Illustration: Fig. 105.]

[Illustration: Fig. 107.]

[Illustration: Fig. 108.]

[Illustration: Fig. 109.]

[Illustration: Fig. 110.--Northern Quebec Indians crossing the "ladder
portage."]

Now turn the canoe over your head and slide your head between the
paddles (which are lashed to the spreaders, as shown in Fig. 105),
and twist your body around as you let the canoe settle down over your
head (Fig. 108). If you have a sweater or a coat, it will help your
shoulders by making a roll of it to serve as a pad under the paddles,
as in Fig. 109. I have seen an Indian carry a canoe in this manner on
a dog-trot over a five-mile portage without resting. I also have seen
Indians carry canoes over mountains, crossing by the celebrated Ladder
Portage in western Quebec, where the only means of scaling a cliff is
by ascending a ladder made of notched logs. For real canoe work it is
necessary that a man should know how to carry his craft across country
from one body of water to another. All through the Lakelands of Canada,
and also the Lake St. John district, up to Hudson Bay itself, the only
trails are by water, with portage across from one stream or lake to the
other.




CHAPTER VII

HOW TO BUILD A PADDLING DORY

A Simple Boat Which Any One Can Build--The Cheapest Sort of a Boat


TO construct this craft it is, of course, necessary that we shall have
some lumber, but we will use the smallest amount and the expense will
come within the limits of a small purse.

First we must have two boards, their lengths depending upon
circumstances and the lumber available. The ones in the diagram are
supposed to be of pine to measure (after being trimmed) 18 feet long
by 18 inches wide and about 1 inch thick. When the boards are trimmed
down so as to be exact duplicates of each other, place one board over
the other so that their edges all fit exactly and then nail each end of
the two boards together for the distance of about six inches. Turn the
boards over and nail them upon the opposite side in the same manner,
clamping the nail ends if they protrude. Do this by holding the head
of a hammer or a stone against the heads of the nails while you hold a
wire nail against the protruding end, and with a hammer bend it over
the nail until it can be mashed flat against the board so that it will
not project beyond its surface.

After you have proceeded thus far, take some pieces of tin (Fig. 112)
and bend the ragged edges over, so as to make a clean, straight fold,
and hammer it down flat until there are no rough or raw edges exposed.
Now tack a piece of this tin over the end of the boards which composed
the sides of the boat, as in Fig. 114. Make the holes for the tacks
first by driving the pointed end of a wire nail through the tin where
you wish the tacks to go and then tack the tin snugly and neatly on,
after which tack on another piece of tin on both bow and stern, as in
Fig. 116. This will hold the two ends of the boards securely together
so that they may be carefully sprung apart in the middle to receive
the middle mould which is to hold them in shape until the bottom of
the boat is nailed on, and the permanent thwarts, or seats, fastened
inside. When the latter are permanently fixed they will keep the boat
in shape.

[Illustration: Fig. 111.--Parts of dory.]

To make the mould, which is only a temporary thing, you may use any
rough board, or boards nailed together with cleats to hold them. The
mould should be 2 feet 6 inches long and 1 foot 4 inches high. Fig. 111
will show you how to cut off the ends to give the proper slant. The
dotted lines show the board before it is trimmed in shape. By measuring
along the edge of the board from each end 10.8 inches and marking the
points, and then, with a carpenter's pencil ruling the diagonal lines
to the other edge and ends of the board, the triangles may be sawed off
with a hand saw.

[Illustration: Fig. 113. Fig. 114. Fig. 112. Fig. 115. Fig. 116.

The simple details of the dory.]

Fig. 111 shows where the mould is to be placed in the center of the
two side boards. As the boards in this diagram are supposed to be on
the slant, and consequently in the perspective, they do not appear as
wide as they really are. The diagram is made also with the ends of the
side boards free so as to better show the position of the mould. But
when the side boards are sprung apart and the mould placed in position
(Fig. 113), it will appear as in Fig. 116 or Fig. 117. Fig. 115 shows
the shape of the stem-posts to be set in both bow and stern and nailed
securely in place.

[Illustration: Fig. 118.

Top views of dory and parts of dory.]

When you have gone thus far fit in two temporary braces near the bow
and stern, as shown in Fig. 117. These braces are simply narrow pieces
of boards held in position by nails driven through the outside of the
boat, the latter left with their heads protruding, so that they may be
easily drawn when necessary.

Now turn the boat over bottom up and you will find that the angle at
which the sides are bent will cause the bottom boards to rest upon a
thin edge of the side boards, as shown in Fig. 119. With an ordinary
jack-plane trim this down so that the bottom boards will rest flush and
snug, as in Fig. 120.

[Illustration: Fig. 118½.]


How to Calk a Boat so That It Won't Leak

If you wish to make a bottom that will never leak, not even when it is
placed in the water for the first time, plane off the boards on their
sides, so that when fitted together they will leave a triangular groove
between each board, as shown in Fig. 118½. These grooves will show upon
the inside of the boat, and not upon the outside, and in this case
the calking is done from the inside and not from the outside. They are
first calked with candlewick, over which putty is used, but for a rough
boat it is not even necessary to use any calking. When the planks swell
they will be forced together, so as to exclude all water.

To fasten the bottom on the boat put a board lengthwise at the end,
as shown in Fig. 121. One end shows the end board as it is first
nailed on, and the other end shows it after it has been trimmed off
to correspond with the sides of the boat. Now put your short pieces
of boards for the bottom on one at a time, driving each one snug up
against its neighbor before nailing it in place and leaving the rough
or irregular ends of each board protrude on each side, as shown at the
right-hand end of Fig. 121.

[Illustration: Fig. 117.]

[Illustration: Fig. 119.]

[Illustration: Fig. 120.]

[Illustration: Fig. 121. Top view with sides in place, also reversed
view showing how bottom boards are laid.]

When all the boards are nailed in place (by beginning at one end and
fitting them against each other until the other end is reached) they
may be trimmed off with a saw (Fig. 121) and your boat is finished with
the exception of the thwarts, or seats.

If you intend to propel this with paddles like a canoe, you will need
a seat in the centre for your passenger, and this may be placed in the
position occupied by the form (Figs. 111 and 117) after the latter is
removed. To fit a seat in it is only necessary to cut two cleats and
nail them to the sides of the boat for the seat to rest upon and saw
off a board the proper length to fit upon the cleats. It would be well
now to fasten the braces in the bow and stern permanently, adjusting
them to suit your convenience. The seat should be as low as possible
for safety. With this your paddling dory is finished, and may be used
even without being painted. A coat of paint, however, improves not only
the looks but the tightness and durability of any boat.

We have now advanced so far in our boat-building that it becomes
necessary that the beginner should learn more about boats and boating,
and since this book is written for beginners, we will take it for
granted that they know absolutely nothing about the subject and will
give all the rudimentary knowledge for landlubbers in the next chapter.




CHAPTER VIII

THE LANDLUBBER'S CHAPTER

    Common Nautical Terms and Expressions Defined--How to
    Sail a Boat--Boat Rigs--Rowing-clothes--How to Make a
    Bathing-suit--How to Avoid Sunburn


THERE are a few common terms with which all who venture on the water
should be familiar, not only for convenience, but for prudential
reasons.

Accidents are liable to happen to boats of all descriptions, and often
the safety of property and life depend upon the passengers' ability to
understand what is said to them by the officers or sailors in charge of
the craft.

To those who are familiar with the water and shipping it may seem
absurd to define the bow and stern of a boat, but there are people who
will read this book who cannot tell the bow from the stern, so we will
begin this chapter with the statement that

=The bow= is the front end of the boat, and

=The stern= is the rear end of the boat.

=For'ard= is toward the bow of the boat.

=Aft= is toward the stern of the boat. Both terms are used by sailors
as forward and backward are used by landsmen.

=The hull= is the boat itself without masts, spars, or rigging. A skiff
and a birch-bark canoe are hulls.

=The keel= is the piece of timber running along the centre of the
bottom of the hull, like the runner of a skate, and used to give the
boat a hold on the water, so that she will not slide sideways.

When you are sitting in the stern of a boat, facing the bow, the side
next to your right hand is the right-hand side of the boat, and the
side next to your left hand is the left-hand side of the boat. But
these terms are not used by seamen; they always say

=Starboard= for the right-hand side of the boat, and

=Port= for the left-hand side of the boat. Formerly the left-hand side
was called the larboard, but this occasioned many serious mistakes on
account of the similarity of the sound of larboard and starboard when
used in giving orders.

[Illustration: Fig. 122.--Top view of small boat.]


Red and Green Lights

After dark a red light is carried on the port side and a green light on
the starboard side of all vessels in motion. If you can remember that
port wine is red, and that the port light is of the same color, you
will always be able to tell in which direction an approaching craft is
pointing by the relative location of the lights.

    "When both lights you see ahead,
     Port your helm and show your red!
     Green to green and red to red,
     You're all right, and go ahead!"

If you are a real landlubber, the verse quoted will be of little
service, because you will not know how to port your helm. In fact, you
probably will not know where to look for the helm or what it looks
like; but only a few of our readers are out-and-out landlubbers, and
most of them know that the helm is in some way connected with the
steering apparatus.

=The rudder= is the movable piece of board at the stern of the boat by
means of which the craft is guided. The rudder is moved by a lever,
ropes, or a wheel.

=The tiller= is the lever for moving the rudder, or the ropes used for
the same purpose (Fig. 123).

[Illustration: Fig. 123.--Helm--Lever, or stick, for tiller.]

=The wheel= is the wheel whose spokes end in handles on the outer edge
of the rim, or felly, and it is used for moving the rudder (Fig. 124).

=The helm= is that particular part of the steering apparatus that you
put your hands on when steering.

=The deck= is the roof of the hull.

=The centreboard= is an adjustable keel that can be raised or lowered
at pleasure. It is an American invention. The centreboard, as a rule,
is only used on comparatively small vessels. The inventor of the
centreboard is Mr. Salem Wines, who kept a shop on Water Street, near
Market Slip, and, when alive, was a well-known New York boat-builder.
His body now lies in Greenwood Cemetery, and upon the headstone of his
grave is the inscription, "The Inventor of the Centreboard."

For sailing, the boat, or hull, is rigged with masts and spars for
spreading the sails to catch the wind.

=The masts= are the upright poles, or sticks, that hold the sails.

[Illustration: Fig. 124.--Helm--The wheel.]

=The yards= are the poles, or sticks, at right angles with the masts
that spread the sails.

=The boom= is the movable spar at the bottom of the sail.

=The gaff= is the pole, or spar, for spreading the top, or head, of the
sail (Fig. 125).

=The sail= is a big canvas kite, of which the boom, gaff, and masts are
the kite-sticks. You must not understand by this that the sail goes
soaring up in the air, for the weight of the hull prevents that; but if
you make fast a large kite to the mast of a boat it would be a sail,
and if you had a line long and strong enough, and should fasten any
spread sail to it, there can be no doubt that the sail would fly.

=The spars= are the masts, bowsprit, yards, and gaffs.

=The bowsprit= is the stick, or sprit, projecting from the bow of the
boat (Fig. 161, Sloop).

=The foremast= is the mast next to the bow--the forward mast (Fig. 159,
Ship).

=The mainmast= is the second mast--the mast next to the foremast.

=Mizzen-mast= is the mast next to and back of the mainmast (Fig. 159,
Ship).

[Illustration: Fig. 125.--A sail.]

=The rigging= of a boat consists of the ropes, or lines, attached to
its masts and sails, but a boat's rig refers to the number of masts as
well as to the shape of its sails.

=Stays= are strong ropes supporting the masts, fore and aft.

=Shrouds= are strong ropes reaching from the mastheads to the sides of
the vessel; supports for the masts, starboard and port.

=Ratlines= are the little ropes that form the steps, or foot ropes,
that run crosswise between the shrouds.

=The painter= is the rope at the bow of a small boat, used for the same
purpose as is a hitching-strap on a horse.

=The standing rigging= consists of the stays and shrouds.

=The running rigging= consists of all the ropes used in handling yards
and sails.

=The sheets= are the ropes, or lines, attached to the corners of sails,
by which they are governed (Fig. 126).

=The main sheet= is the rope that governs the mainsail.

=The jib-sheet= is the rope that governs the jib-sail.

=The gaskets= are the ropes used in lashing the sails when furled.

=The braces= are the ropes used in swinging the yards around.

=The jib-stay= is the stay that runs from the foremast to the bowsprit.

=The bob-stay= is practically an extension of the jib-stay and the
chief support of the spars. It connects the bow of the boat with the
bowsprit and prevents the latter from bobbing up and down.

Besides the port and starboard sides of a boat there are the windward
and leeward sides. Do not understand by this that the boat has four
sides, like a square. Windward may be the port or the starboard side,
according to the direction the wind blows; because

=Windward= means the side of the boat against which the wind blows--the
side where the wind climbs aboard; or it may mean the direction from
which the wind comes. The opposite side is called

=Leeward=--that is, the side of the boat opposite to that against which
the wind blows, where the wind tumbles overboard, or the side opposite
to windward. When you are sailing you may be near a

=Lee Shore=--that is, the shore on your lee side against which the wind
blows; or a

=Windward Shore=--that is, the land on your windward side from which
the wind blows.

All seamen dread a lee shore, as it is a most dangerous shore to
approach, from the fact that the wind is doing its best to blow you
on the rocks or beach. But the windward shore can be approached with
safety, because the wind will keep you off the rocks, and if it is
blowing hard, the land will break the force of the wind.

In a canoe or shell the boatman sits either directly on the bottom, or,
as in the shell, very close to it, and the weight of his body serves to
keep the boat steady, but larger crafts seldom rely upon live weights
to steady them. They use

=Ballast=--that is, weights of stone, lead, iron, or sand-bags, used to
balance the boat and make her steady.

As has been said before in this chapter, the sail is a big canvas kite
made fast to the boat and called a sail, but the ordinary kite has its
covering stretched permanently on rigid sticks.

The sail, however, can be stretched to its full extent or only
partially, or it may be rolled up, exposing nothing but the masts to
the force of the wind. To accomplish all this there are various ropes
and attachments, all of which are named.

[Illustration: Fig. 126.--Sail and sheet.]

[Illustration: Fig. 127.--Parts of sail.]

It is quite important that the beginner should know the names of all the


Parts of a Sail

=Luff.=--That part of the sail adjoining the mast--the front of the
sail (Fig. 127).

=Leach.=-That part of the sail stretched between the outer or after end
of the boom and the outer end of the gaff--the back part of the sail
(Fig. 127).

=Head.=--That part of the sail adjoining the gaff--the top of the sail.

=Foot.=--That part of the sail adjoining the boom--the bottom of the
sail (Fig. 127).

=Clews.=--A general name for the four corners of the sail.

=Clew.=--The particular corner at the foot of the sail where the leach
and boom meet (Fig. 127).

=Tack.=--The corner of the sail where boom and mast meet (Fig. 127).

=Throat, or Nock.=--The corner of the sail where gaff and mast meet
(Fig. 127).

=Peak.=--Corner of the sail where the leach and gaff meet (Fig. 127).

[Illustration: Fig. 128.--Starboard helm.]

[Illustration: Fig. 129--Port helm.]


How to Steer a Boat

When you wish your boat to turn to the right push your helm to the
left. This will push the rudder to the right and turn the boat in that
direction. When you wish your boat to turn to the left push your helm
to the right. In other words, starboard your helm and you will turn to
the port (Fig. 128). Port your helm and you will turn to the starboard
(Fig. 129).

From a reference to the diagram you may see that when you =port your
helm= you move the tiller to the port side of the boat, and when you
=starboard your helm= you move your tiller to the starboard side of the
boat (Fig. 128), but to =ease your helm= you move your helm toward the
centre of the boat--that is, amidships.


How to Sail a Boat

If you fasten the bottom of a kite to the ground, you will find that
the wind will do its best to blow the kite over, and if the kite is
fastened to the mast of a toy boat, the wind will try to blow the boat
over.

In sailing a boat the effort of the wind apparently has but one
object, and that is the upsetting of the boat. The latter, being well
balanced, is constantly endeavoring to sit upright on its keel, and
you, as a sailor, are aiding the boat in the struggle, at the same time
subverting the purpose of the wind to suit your own ideas. It is an
exciting game, in which man usually comes out ahead, but the wind gains
enough victories to keep its courage up.

Every boat has peculiarities of its own, and good traits as well as bad
ones, which give the craft a personal character that lends much to your
interest, and even affects your sensibilities to the extent of causing
you to have the same affection for a good, trustworthy craft that you
have for an intelligent and kind dog or horse.

A properly balanced sail-boat, with main sheet trimmed flat and free
helm, should be as sensitive as a weathercock and act like one--that
is, she ought to swing around until her bow pointed right into the "eye
of the wind," the direction from which the wind blows. Such a craft it
is not difficult to sail, but it frequently happens that the boat that
is given to you to sail is not properly balanced, and shows a constant
tendency to "come up in the wind"--face the wind--when you are doing
your best to keep her sails full and keep her on her course. This
may be caused by too much sail aft. The boat is then said to carry a
weather helm.

=Weather Helm.=--When a boat shows a constant tendency to come up in
the wind.

=Lee Helm.=--When a boat shows a constant tendency to fall off the
wind--that is, when the wind blows her bow to the leeward. This is
a much worse trait than the former, and a boat with a lee helm is a
dangerous boat. It may be possible to remedy it by adding sail aft or
reducing sail forward, which should immediately be done.

In spite of the fact, already stated, that the wind's constant effort
is to capsize a boat, there is little or no danger of a properly rigged
boat upsetting unless the sheets are fast or hampered in some way. When
a sail-boat upsets it is, of course, because the wind blows it over.
Now, the wind cannot blow a boat over unless the boat presents some
surface larger than its hull for the wind to blow against, and the sail
is the only object that offers enough surface to the breeze to cause an
upset.

[Illustration: Fig. 130--Close-hauled.]

[Illustration: Fig. 131.--Before the wind.]

[Illustration: Top view of boats, showing position of helm and boom.]

If the sheet is slackened, the sail will swing around until it flaps
like a flag and only the thin edge is presented to the wind; and a boat
that a flag will upset is no boat for beginners to trust themselves in.
True, the boom may be very long and heavy enough to make it dangerous
to let so much of it overboard, but this is seldom the case. A good
sailor keeps his eyes constantly on the sails and trims them to take
advantage of the slightest favorable breeze. In place of losing
control of his sail by letting go the sheets he will ease the tiller so
as to "spill" part of the wind that is, let the forward part, or luff,
of the sail shake a bit. Or, in case of a sudden puff of wind, he may
deem it necessary to "luff"--that is, let her shake--and slacken the
sheets too.

=Trimmed Flat.=--Sheets hauled in until the boom is only a little to
the leeward of the helm (Fig. 130).

=Close-hauled.=--Sheets trimmed flat and the boat pointing as near as
possible to the eye of the wind. Then the sail cannot belly, and is
called flat (Fig. 130).


To Sail Close-hauled

The skipper must watch that his sail does not flap or ripple at the
throat, for that means that he is pointing too close to the wind and
that some of the breeze is blowing on both sides of his sail, which
even a novice can see will retard the boat.

Upon discovering a rippling motion at the luff of the sail put the helm
up--that is, move the tiller a little to windward until the sail stops
its flapping.

=Before the Wind.=--When the wind is astern; sailing with the wind;
sailing directly from windward to leeward (Fig. 131).

In order to reach the desired point it is often expedient to sail
before the wind, but unless the wind is light, beginners had better not
try this. To sail before the wind you let your sheets out until the
boom stands at _almost_ right angles with the boat. Keep your eye on
the sail and see that it does not flap, for if the man at the helm is
careless and allows the boat to point enough away from the direction of
the wind to allow the wind to get on the other side of the sail, the
latter will swing around or jibe with such force as to endanger the
mast, if it does not knock some one overboard.

The price of liberty is constant vigilance, and the price of a good
sail is the same. I have seen a mast snapped off clean at the deck by
a jibe, and once when out after ducks every one was so intent upon the
game that proper attention was not paid to the sail. The wind got
round and brought the boom with a swing aft, knocking the captain of
our boat club overboard. Had the boom hit him in the head and stunned
him, the result might have been fatal.

[Illustration: Fig. 132.--Boom hauled in.]

[Illustration: Fig. 133.--On new course.]

[Illustration: Fig. 131½.--Before the wind.]

[Illustration: Figs. 131½, 132, and 133.--Jibing.]

=Wing and Wing.=--When a schooner goes before the wind with one sail
out at nearly right angles on the port side and the other in the same
position on the starboard side she is said to be wing and wing and
presents a beautiful sight.

=Tacking.=--Working to the windward by a series of diagonal moves.

=Legs.=--The moves or diagonal courses made in tacking. It is apparent
to the most unthinking observer that no vessel propelled by sail can
move against the direct course of the wind--that is, nothing but
electricity, naphtha, steam, or some such power can drive a boat into
the eye of the wind. But what cannot be accomplished in a direct manner
can be done by a series of compromises, each of which will bring us
nearer to the desired point.

First we point the boat to the right or left, as the case may be, as
near or as close to the wind as the boat will sail. Then we come about
and sail in the other direction as close as practicable to the eye of
the wind, and each time we gain something in a direct line.

When your boat changes its direction on a tack it is done by "jibing,"
or "coming about."

=Jibing.=--With the wind on the quarter, haul the main boom aft or
amidship with all possible speed, by means of the main sheets (Fig.
132), and as the wind strikes the sail on the other side let it out as
deliberately as possible until it reaches the position desired (Fig.
133).

Beginners should never attempt to jibe, for if there is more than a
capful of wind, the sail will probably get away from them, and, as
described in going before the wind, some disaster is liable to occur.
Experts only jibe in light winds, and frequently lower the peak, so as
to reduce sail, before attempting a jibe.


Coming About

When you wish to come about see that all the tackle, ropes, etc., are
clear and in working order, and that you are making good headway; then
call out: "Helm's a-lee!" or "Ready about!" and push the tiller in the
direction opposite to that from which the wind blows--that is, to the
lee side of the boat. This will bring the bow around until the wind
strikes the sail upon the side opposite to that which it struck before
the helm was a-lee (Figs. 134, 135, 136, 137).

If you are aboard a sloop or schooner, ease off the jib-sheet, but keep
control of it, so that as the boat comes up to the wind you can make
the jib help the bow around by holding the sheets so as to catch the
wind aback. When the bow of the craft has passed the eye of the wind
and the sail begins to fill give the order to make fast, or trim, the
jib, and off you go upon the opposite tack, or on a new leg.

[Illustration: Figs. 134, 135, 136, and 137.--Coming about.]

If the wind is light, or if, for any cause, the boat works slowly, you
can sometimes help her by trimming in the main sheet when you let the
jib-sheet fly. In the diagram of coming about no jib is shown.

=Wearing= is a term sometimes used in place of jibing.


In a Thunder-storm

A thunder-storm is always an uncertain thing. There may be a veritable
tornado hidden in the black clouds that we see rising on the
horizon, or it may simply "iron out the wind"--that is, go grumbling
overhead--and leave us becalmed, to get home the best way we can;
generally by what the boys call a "white-ash breeze"--that is, by using
the sweeps or oars.

On Long Island Sound a thunder-storm seems to have certain fixed rules
of conduct. In the first place, it comes up from the leeward, or
_against the wind_. Just before the storm strikes you for an instant
the wind ceases and the sails flap idly. Then look out! for in nine
cases out of ten you are struck the next moment by a sudden squall from
exactly the opposite direction from which the wind blew a moment before.


What to Do

Make for the nearest port with all speed, and keep a man at the
downhaul ready at a moment's notice to lower sail. The moment the wind
stops drop the sail and make everything snug, leaving only bare poles.
When the thunder-squall strikes you, be it ever so hard, you are now in
little danger; and if the wind from the new quarter is not too fresh,
you can hoist sail again and make the best of your way to the nearest
port, where you can "get in out of the wet."

If the wind is quite fresh keep your peak down, and with a reefed sail
speed on your way. If it is a regular howler, let your boat drive
before the wind under bare poles until you can find shelter or until
it blows over, and the worst mishap you are likely to incur is a good
soaking from the rain.

=Shortening Sail.=--Just as soon as the boat heels over too far for
safety, or as soon as you are convinced that there is more wind than
you need for comfortable sailing, it is time to take a reef--that
is, to roll up the bottom of the sail to the row of little ropes, or
reefing points, on the sail and make fast there. This, of course, makes
a smaller sail, and that is what you wish.

While under way it will be found impossible to reef a sail except
when sailing close-hauled. So the boat is brought up into the wind by
pushing the helm down, as if you intended to come about. When possible
it is better to lower the sail entirely before attempting to put in a
reef.


To Reef Without Lowering Sail

It sometimes happens that on account of the proximity of a lee shore,
and the consequent danger of drifting in that direction, or for some
other equally good reason, it is inadvisable to lower sail and lose
headway. Under such circumstances the main sheet must be trimmed flat,
keeping the boat as close as possible to the wind, the helm must be put
up hard a-lee, and jib-sheet trimmed to windward (Fig. 138).

[Illustration: Fig. 138.--Squirming; jib on port side, boom
close-hauled on starboard side.]

When this is done the wind will hit the jib, "paying her head off," or
pushing her bow to leeward, and this tendency is counteracted by the
helm and mainsail, bringing the bow up into the wind. This keeps the
boat squirming. Lower the mainsail until the row of reef points is just
on a line with the boom, keeping to the windward of the sail. Tie the
first point--that is, the one on the luff rope--then the one on the
leach, being careful to stretch out the foot of the sail. Then tie the
remaining points, always making a square or reefing knot. Tie them to
the jack-stay on the boom or around the boom.


The Reef or Square Knot

is most frequently used, as its name implies, in reefing sails. First
make a plain overhand knot, as in Fig. 139. Then repeat the operation
by taking the end and passing it over and under the loop, drawing the
parts tight, as shown in Fig. 140. Care should be observed in crossing
the ends so that they will always lay fairly alongside the main parts.
Otherwise the knot will prove a _granny_ and be comparatively worthless.

[Illustration: Figs. 139 and 140.--Square or reef knot.]


To Shake Out a Reef

untie the knots, keeping to the windward of the sail. Untie the knot
at the leach first, next the one at the luff, and then the remaining
points. In lowering a sail you use a rope called the =downhaul=.

=Starboard Tack.=--When the main boom is over the port side.

=Port Tack.=--When the main boom is over the starboard side.

=Right of Way.=--All boats sailing on the starboard tack have the right
of way over all those on the port tack. In other words, if you are on
the starboard tack, those on the port tack must keep out of your way.
Any boat sailing close-hauled has the right of way over a boat sailing
free.


Lights for Canoe

A canoe under sail at night should have an uncolored lantern hung to
her mizzen-mast to notify other craft that she is out and objects to
being run down. The light is put on the mizzen so that it may be behind
the skipper and not dazzle him.

What you have read in the foregoing pages will not be found very
difficult to remember, but there is only one way to learn to sail and
that is by _sailing_. If possible, sail with some one who is a good
seaman. If this sort of companion cannot be had, try it alone on smooth
water and with short sail until you accustom yourself to the boat and
its peculiarities. No boy ever learned to skate or swim from books, but
books often have been helpful in giving useful hints to those who were
really learning by practical experience.


Some Do Nots

  Do not overload the boat.
  Do not carry too much sail.
  Do not sail in strange waters without chart or compass.
  Do not forget your anchor.
  Do not forget your paddles or oars.
  Do not attempt to learn to sail before you know how to swim.
  Do not sit on the gunwale.
  Do not put the helm down too suddenly or too far.
  Do not let go the helm.
  Do not mistake caution for cowardice.
  Do not be afraid to reef.
  Do not fear the ridicule of other landlubbers.
  Do not fail to keep the halyards and sheets clear.
  Do not jibe in a stiff wind.
  Do not fail to keep your head in times of emergency.
  Do not make a display of bravery until the occasion demands it.
  Do not allow mistakes or mishaps to discourage you.
  Do not associate with a fool who rocks a boat.

You will soon become an expert and be able to engage in one of our most
exhilarating, healthy, and manly sports and earn the proud distinction
of being a good small-boat sailor.


It is Necessary to Learn to Swim

From the parents' point of view, nowhere that a boy's restless nature
impels him to go is fraught with so much peril as the water, and
nowhere is a boy happier than when he is on the water, unless it is
when he is in it. Nowhere can be found a better school for his young
mind and body than that furnished by boating. Hence it appears to be
the imperative duty for parents personally to see that their children
are taught to swim as soon as their little limbs have strength enough
to make the proper motions.


Boating-Clothes

In aquatic sports of all kinds, if you expect to have fun, you must
dress appropriately. You should have a suit of old clothes that you
can change for dry ones when the sport is over. When boating, it is
nonsense to pretend you can keep dry under all the varying conditions
of wind and weather. If your purse is small, and you want a good
rowing-suit, it can be made of last winter's woollen underclothes, and
will answer for the double purpose of rowing and bathing.


How to Make a Bathing-Suit

First take an old woollen undershirt and cut the sleeves off above the
elbows. Then coax your mother, aunt, or sister to sew it up in front
like a sweater, and hem the edges of the sleeves where they have just
been cut off.

Next take a pair of woollen drawers and have them sewed up in front,
leaving an opening at the top about four inches in length; turn the
top edge down all around to cover a piece of tape that should be long
enough to tie in front. Have this hem or flap sewed down to cover the
tape, and allow the two ends of the tape to protrude at the opening
in front. The tape should not be sewed to the cloth, but should move
freely, so that you can tighten or loosen it at will. Cut the drawers
off at the knees and have the edges hemmed, and you will have a
first-class bathing or rowing-suit.

If woollen clothes are not to be had, cotton will do, but wool is
coolest and warmest, as the occasion may require.

When rowing wear old socks, woollen ones if you have them, and old
shoes cut down like slippers. The latter can be kicked off at a
moment's notice, and, if lost, they are of no value, and may be easily
replaced.

When on shore a long pair of woollen stockings to cover your bare
legs and a sweater to pull over your sleeveless shirt are handy and
comfortable, but while sailing, paddling, or rowing in hot weather the
rowing-suit is generally all that comfort requires. Of course, if your
skin is tender, you are liable to be terribly sunburned on your arms,
neck, and legs; but


Sunburn

may be avoided by gradually accustoming your limbs to the exposure.
Dearly will you pay for your negligence if you go out for a day with
bare arms or legs in the hot sun before you have toughened yourself,
and little will you sleep that night.

I have seen young men going to business the day following a regatta
with no collars on their red necks, and no shirt over their soft
undershirts, the skin being too tender to bear the touch of the stiff,
starched linen, and I have known others who could not sleep a wink on
account of the feverish state of their bodies, caused by the hot sun
and a tender skin. Most boys have had some experience from sunburn,
acquired while bathing. If care is taken to cover your arms and legs
after about an hour's exposure, you will find that in place of being
blistered, your skin will be first pink and then a faint brownish tint,
which each succeeding exposure will deepen until your limbs will assume
that dark, rich mahogany color of which athletes are so proud. This
makes your skin proof against future attacks of the hottest rays of the
sun.

Besides the pain and discomfort of a sudden and bad sunburn on your
arms, the effect is not desirable, as it is very liable to cover your
arms with freckles. I have often seen men with beautifully bronzed arms
and freckled shoulders, caused by going out in their shells first with
short sleeves and then with shirts from which the sleeves were entirely
cut away, exposing the white, tender shoulders to the fierce heat, to
which they were unaccustomed.

It is a good plan to cover the exposed parts of your body with
sweet-oil, vaseline, mutton-tallow, beef-tallow, or lard. This is good
as a preventive while in the sun, and excellent as an application after
exposure. Any sort of oil or grease that does not contain salt is good
for your skin.


Clothes for Canoeing

In canoeing I have found it convenient to dress as I would in a shell
boat, but I generally have had a sweater and a pair of long trousers
stowed away, ready to be pulled on over my rowing-clothes when I
landed. Once, when I neglected to put these extra clothes aboard, I
was storm-bound up Long Island Sound, and, leaving my boat, I took the
train home, but I did not enjoy my trip, for the bare legs and arms and
knit cap attracted more attention than is pleasant for a modest man.

Do not wear laced shoes in a canoe, for experience has taught
boating-men that about the most inconvenient articles of clothing to
wear in the water are laced shoes. While swimming your feet are of
absolutely no use if incased in this style of foot-gear, and all the
work must be done with the arms. But if you have old slippers, they may
be kicked off, and then you are dressed practically in a bathing-suit,
and can swim with comfort and ease.

Possibly these precautions may suggest the idea that a ducking is not
at all an improbable accident, and it must be confessed that the boy
who thinks he can learn to handle small boats without an occasional
unlooked-for swim is liable to discover his mistake before he has
become master of his craft.


Stick to Your Boat

Always remember that a wet head is a very small object in the water,
and liable to be passed by unnoticed, but that a capsized boat can
scarcely fail to attract attention and insure a speedy rescue from an
awkward position. As for the real danger of boating, it cannot be great
where care is used. Not one fatality has occurred on the water, among
all of my large circle of boating friends, and personally I have never
witnessed a fatal accident in all the years I have spent rowing and
sailing.


Life-Preservers

All canoes should have a good cork life-preserver in them when the
owner ventures away from land. I never but once ventured any distance
without one, and that is the only time I was ever in need of a
life-preserver. The ordinary cork jacket is best. It can be used for
a seat, and when spread on the bottom of your canoe, with an old
coat or some article thrown over it for a cushion, it is not at all
an uncomfortable seat. Most canoes have airtight compartments fore
and aft--that is, at both ends--and the boat itself is then a good
life-preserver. Even without the airtight compartments, unless your
boat is loaded with ballast or freight, there is no danger of its
sinking. A canvas canoe, as a rule, has enough woodwork about it to
support your weight when the boat is full of water.

An upset canvas canoe supported me for an hour and a half during a blow
on Long Island Sound, and had not a passing steamer rescued me, the
canoe would evidently have buoyed me up as long as I could have held on
to the hull.




CHAPTER IX

HOW TO RIG AND SAIL SMALL BOATS


How to Make a Lee-Board for a Canoe

NOW that the open canvas canoe has become so popular the demand has
arisen for some arrangement by which it may be used with sails. Of
course it is an easy matter to rig sails on almost any sort of craft,
but unless there is a keel or a centreboard the boat will make lee-way,
_i. e._, it will have no hold on the water, and when you try to tack,
the boat will blow sideways, which may be fraught with serious results.
The only time that the author ever got in a serious scrape with his
canoe, was when he carelessly sailed out in a storm, leaving the key
to his fan centreboard at the boat-house. Being unable to let down the
centreboard, he was eventually driven out to sea, and when he became
too fatigued to move quickly was capsized.

[Illustration: Fig. 140.--Lee-board. Fig. 140_a_.--Bolt and
thumb-screw.]

Now to prevent such occurrences and to do away with the inconvenience
of the centreboard in an open canoe, various designs of lee-boards have
been made. A lee-board is, practically speaking, a double centreboard.
The paddle-like form of the blades of the boards given in Fig. 140 give
them a good hold on the water when they are below the surface, and they
can also be allowed to swing clear of the water when temporarily out of
use. Or they may be removed and stowed away in the canoe. As you see by
the diagram the two blades are connected by a spruce rod; the blades
themselves may be made of some hard wood, like cherry, and bevelled at
the edges like a canoe-paddle. They should be a scant foot in width and
a few inches over two feet long, and cut out of three-quarter-inch
material. The spruce cross-bar is about one and a half inch in
diameter, the ends of which are thrust through a hole in the upper end
of each lee-board. A small hole is bored in the top of each lee-board,
down through the ends of the cross-board, and when a galvanized-iron
pin is pushed down through this hole, it will prevent the bar from
turning in its socket. A couple more galvanized-iron pins or bars fit
in holes in the spruce cross-bar, as shown in the diagram (Fig. 140).
At the top end of each of these metal bolts is a thumb-screw which runs
down over the thread of the bolt. The bottom or lower end is bent at
right angles that it may be fitted under the gunwale of the canoe, and
tightened by twisting the thumb-screws. The advantage of this sort of
arrangement is that the lee-boards may be slid backward or forward and
so adjusted that the canoe will sail in the direction in which it is
steered. The place where the lee-board is to be fastened can only be
found by experiment. When it is too far toward the bow, the boat will
show a desire to come up against the wind, thus making work for the
steersman to keep the wind in the sails. If the lee-board is fastened
too far toward the stern the canoe will show a decided determination to
swing around with its stern to the wind, which is a dangerous trick for
a well-trained craft to indulge in.

I have seen open canvas canoes at the outfitting stores marked as low
as seventeen dollars, but they usually cost twenty-five dollars or
more, and I would advise ambitious canoeists to build their own canoes,
and even to make their own lee-boards, although it would be cheaper to
buy the latter.


How to Rig and Sail Small Boats

To have the tiller in one's own hands and feel competent, under all
ordinary circumstances, to bring a boat safely into port, gives the
same zest and excitement to a sail (only in a far greater degree) that
the handling of the whip and reins over a lively trotter does to a
drive.

Knowing and feeling this, it was my intention to devote a couple of
chapters to telling how to sail a boat; but through the kind courtesy
of the editor of _The American Canoeist_, I am able to do much better
by giving my readers a talk on this subject by one whose theoretical
knowledge and practical experience renders him pre-eminently fit to
give reliable advice and counsel. The following is what Mr. Charles
Ledyard Norton, editor of the above-mentioned journal, says:

Very many persons seem to ignore the fact that a boy who knows how
to manage a gun is, upon the whole, less likely to be shot than one
who is a bungler through ignorance, or that a good swimmer is less
likely to be drowned than a poor one. Such, however, is the truth
beyond question. If a skilled sportsman is now and then shot, or an
expert swimmer drowned, the fault is not apt to be his own, and if
the one who is really to blame had received proper training, it is not
likely that the accident would have occurred at all. The same argument
holds good with regard to the management of boats, and the author is
confident that he merits the thanks of mothers, whether he receives
them or not, for giving their boys a few hints as to practical rigging
and sailing.

In general, there are three ways of learning how to sail boats. First,
from the light of nature, which is a poor way; second, from books,
which is better; and third, from another fellow who knows how, which
is best of all. I will try to make this article as much like the other
fellow and as little bookish as possible.

Of course, what I shall say in these few paragraphs will be of small
use to those who live within reach of the sea or some big lake and have
always been used to boats; but there are thousands and thousands of
boys and men who never saw the sea, nor even set eyes on a sail, and
who have not the least idea how to make the wind take them where they
want to go. I once knew some young men from the interior who went down
to the sea-side and hired a boat, with the idea that they had nothing
to do but hoist the sail and be blown wherever they liked. The result
was that they performed a remarkable set of manoeuvres within sight
of the boat-house, and at last went helplessly out to sea and had to be
sent after and brought back, when they were well laughed at for their
performances, and had reason to consider themselves lucky for having
gotten off so cheaply.

The general principles of sailing are as simple as the national game of
"one ole cat." That is to say, if the wind always blew moderately and
steadily, it would be as easy and as safe to sail a boat as it is to
drive a steady old family horse of good and regular habits. The fact,
however, is that winds and currents are variable in their moods, and as
capable of unexpected freaks as the most fiery of unbroken colts; but
when properly watched and humored they are tractable and fascinating
playmates and servants.

Now, let us come right down to first principles. Take a bit of pine
board, sharpen it at one end, set up a mast about a quarter of the
length of the whole piece from the bow, fit on a square piece of stiff
paper or card for a sail, and you are ready for action. Put this in the
water, with the sail set squarely across (A, Fig. 141), and she will
run off before the wind--which is supposed to be blowing as indicated
by the arrow--at a good rate of speed. If she does not steer herself,
put a small weight near the stern, or square end; or, if you like,
arrange a thin bit of wood for a rudder.

[Illustration: Fig. 141.

Lesson in sailing for beginners.]

Probably the first primeval man who was born with nautical instincts
discovered this fact, and, using a bush for a sail, greatly astonished
his fellow primevals by winning some prehistoric regatta. But that
was all he could do. He was as helpless as a balloonist is in midair.
He could go, but he could not get back, and we may be sure that
ages passed away before the possibility of sailing to windward was
discovered.

Now, put up or "step" another mast and sail like the first, about as
far from the stern as the first is from the bow. Turn the two sails at
an angle of forty-five degrees across the boat (B or C, Fig. 141) and
set her adrift. She will make considerable progress across the course
of the wind, although she will at the same time drift with it. If she
wholly refuses to go in the right direction, place a light weight on
her bow, so that she will be a little "down by the head," or move the
aftermost mast and sail a little nearer to the stern.

[Illustration: Fig. 142.--Tacking.]

The little rude affair thus used for experiment will not actually
make any progress to windward, because she is so light that she moves
sidewise almost as easily as she does forward. With a larger, deeper
boat, and with sails which can be set at any angle, the effect will
be different. So long as the wind presses against the after side of
the sail, the boat will move through the water in the direction of the
least resistance, which is forward. A square sail having the mast in
the middle was easiest to begin with for purposes of explanation; but
now we will change to a "fore-and-aft" rig--that is, one with the mast
at the forward edge or "luff" of the sail, as in Fig. 142. Suppose the
sail to be set at the angle shown, and the wind blowing as the arrow
points. The boat cannot readily move sidewise, because of the broadside
resistance; she does not move backward, because the wind is pressing on
the aftermost side of the sail. So she very naturally moves forward.
When she nears buoy No. 1, the helmsman moves the "tiller," or handle
of the rudder, toward the sail. This causes the boat to turn her head
toward buoy No. 2, the sail swings across to the other side of the
boat and fills on that side, which now in turn becomes the aftermost,
and she moves toward buoy No. 2 nearly at right angles to her former
course. Thus, through a series of zigzags, the wind is made to work
against itself. This operation is called "tacking," or "working to
windward," and the act of turning, as at the buoys No. 1 and No. 2, is
called "going about."

It will be seen, then, that the science of sailing lies in being able
to manage a boat with her head pointing at any possible angle to or
from the wind. Nothing but experience can teach one all the niceties
of the art, but a little aptitude and address will do to start with,
keeping near shore and carrying little sail.


Simplest Rig Possible

I will suppose that the reader has the use of a broad, flat-bottomed
boat without any rudder. (See Fig. 143.) She cannot be made to work
like a racing yacht under canvas, but lots of fun can be had out of her.

Do not go to any considerable expense at the outset. Procure an old
sheet, or an old hay cover, six or eight feet square, and experiment
with that before spending your money on new material. If it is a sheet,
and somewhat weakly in its texture, turn all the edges in and sew them,
so that it shall not give way at the hems. At each corner sew on a few
inches of strong twine, forming loops at the angles. Sew on, also,
eyelets or small loops along the edge which is intended for the luff of
the sail, so that it can be laced to the mast.

You are now ready for your spars, namely, a mast and a "sprit,"
the former a couple of feet longer than the luff of the sail, and
the latter to be cut off when you find how long you want it. Let
these spars be of pine, or spruce, or bamboo--as light as possible,
especially the sprit. An inch and a half diameter will do for the mast,
and an inch and a quarter for the sprit, tapering to an inch at the
top. To "step" the mast, bore a hole through one of the thwarts (seats)
near the bow and make a socket or step on the bottom of the boat, just
under the aforesaid hole--or if anything a trifle farther forward--to
receive the foot of the mast. This will hold the mast upright, or with
a slight "rake" aft.

[Illustration: Fig. 143.--A simple rig.]

Lace the luff of the sail to the mast so that its lower edge will swing
clear by a foot or so of the boat's sides. Make fast to the loop at D
a stout line, ten or twelve feet long. This is called the "sheet," and
gives control of the sail. The upper end of the sprit, C, E, is trimmed
so that the loop at C will fit over it but not slip down. The lower
end is simply notched to receive a short line called a "snotter," as
shown in the detailed drawing at the right of the cut (Fig. 143). It
will be readily understood that, when the sprit is pushed upward in the
direction of C, the sail will stand spread out. The line is placed in
the notch at E and pulled up until the sail sets properly, when it is
made fast to a cleat or to a cross-piece at F. This device is in common
use and has its advantages, but a simple loop for the foot of the sprit
to rest in is more easily made and will do nearly as well. H is an
oar for steering. Having thus described the simplest rig possible, we
may turn our attention to more elegant and elaborate but not always
preferable outfits.


Leg-of-Mutton Rig

One of the prettiest and most convenient rigs for a small boat is known
as the "leg-of-mutton sharpie rig" (Fig. 144). The sail is triangular,
and the sprit, instead of reaching to its upper corner, stands nearly
at right angles to the mast. It is held in position at the mast by the
devices already described. This rig has the advantage of keeping the
whole sail flatter than any other, for the end of the sprit cannot
"kick up," as the phrase goes, and so the sail holds all the wind it
receives.

[Illustration: Fig. 144.]

Fig. 145 shows a device, published for the first time in the _St.
Nicholas Magazine_ for September, 1880, which enables the sailor to
step and unstep his mast, and hoist or lower his sail without leaving
his seat--a matter of great importance when the boat is light and
tottlish, as in the case of that most beautiful of small craft, the
modern canoe, where the navigator sits habitually amidships. The lower
mast (A, B, Fig. 145) stands about two and a half feet above the deck.
It is fitted at the head with a metal ferrule and pin, and just above
the deck with two half-cleats or other similar devices (A). The topmast
(C, D) is fitted at F with a stout ring, and has double halyards (E)
rove through or around its foot. The lower mast being in position (see
lower part of Fig. 145), the canoeist desiring to make sail brings
the boat's head to the wind, takes the topmast with the sail loosely
furled in one hand and the halyards in the other. It is easy for him by
raising this mast, without leaving his seat, to pass the halyards one
on each side of the lower mast and let them fall into place close to
the deck under the half-cleats at A. Then, holding the halyards taut
enough to keep them in position, he will hook the topmast ring over the
pin in the lower mast-heat and haul away (see top part of Fig. 145).
The mast will rise into place, where it is made fast. A collar of
leather, or a knob of some kind, placed on the topmast just below the
ring, will act as a fulcrum when the halyards are hauled taut and keep
the mast from working to and fro.

[Illustration: Fig. 145.--A new device.]

The advantages of the rig are obvious. The mast can be raised without
standing up, and in case of necessity the halyards can be let go and
the mast and sail unshipped and stowed below with the greatest ease and
expedition, leaving only the short lower mast standing. A leg-of-mutton
sail with a common boom along the foot is shown in the cut as the most
easily illustrated application of the device, but there is no reason
why it may not be applied to a sail of different shape, with a sprit
instead of a boom, and a square instead of a pointed head.

[Illustration: Fig. 146.--The latteen rig.]


The Latteen Rig

is recommended only for boats which are "stiff"--not tottlish, that
is. The fact that a considerable portion of the sail projects forward
of the mast renders it awkward in case of a sudden shift of wind. Its
most convenient form is shown in Fig. 146. The arrangement for shipping
and unshipping the yard is precisely like that shown in Fig. 145--a
short lower mast with a pin at the top and a ring fitted to the yard.
It has a boom at the foot which is joined to the yard at C by means of
a hook or a simple lashing, having sufficient play to allow the two
spars to shut up together like a pair of dividers. The boom (C, E) has,
where it meets the short lower mast, a half-cleat, or jaw, shown in
detail at the bottom of the cut (Fig. 146), the circle representing a
cross-section of the mast. This should be lashed to the boom, as screws
or bolts would weaken it. To take in sail, the boatman brings the boat
to the wind, seizes the boom and draws it toward him. This disengages
it from the mast. He then shoves it forward, when the yard (C, D) falls
of its own weight into his hands and can be at once lifted clear of the
lower mast. To keep the sail flat, it is possible to arrange a collar
on the lower mast so that the boom, when once in position, cannot slip
upward and suffer the sail to bag.


The Cat-Rig

so popular on the North Atlantic coast, is indicated in Fig. 148. The
spar at the head of the sail is called a "gaff," and, like the boom, it
fits the mast with semicircular jaws. The sail is hoisted and lowered
by means of halyards rove through a block near the mast-head. The
mast is set in the bows--"Chock up in the eyes of her," as a sailor
would say. A single leg-of-mutton sail will not work in this position,
because the greater part of its area is too far forward of amidships.
No rig is handier or safer than this in working to windward; but off
the wind--running before, or nearly before it, that is--the weight
of mast and sail, and the pressure of the wind at one side and far
forward, make the boat very difficult and dangerous to steer. Prudent
boatmen often avoid doing so by keeping the wind on the quarter and, as
it were, tacking to leeward.

This suggests the question of "jibing," an operation always to be
avoided if possible. Suppose the wind to be astern, and the boat
running nearly before it, it becomes necessary to change your course
toward the side on which the sail is drawing. The safest way is to
turn at first in the opposite direction, put the helm "down" (toward
the sail), bring the boat up into the wind, turn her entirely around,
and stand off on the new tack. This, however, is not always possible.
Hauling in the sheet until the sail fills on the other side is
"jibing"; but when this happens it goes over with a rush that sometimes
carries mast and sheet or upsets the boat; hence the operation should
be first undertaken in a light wind. It is necessary to know how to do
it, for sometimes a sail insists upon jibing very unexpectedly, and it
is best to be prepared for such emergencies.


How to Make a Sail

For the sails of small boats there is no better material than
unbleached twilled cotton sheeting. It is to be had two and a half or
even three yards wide. In cutting out your sail, let the selvage be at
the "leech," or after-most edge. This, of course, makes it necessary to
cut the luff and foot "bias," and they are very likely to stretch in
the making, so that the sail will assume a different shape from what
was intended. To avoid this, baste the hem carefully before sewing, and
"hold in" a little to prevent fulling. It is a good plan to tack the
material on the floor before cutting, and mark the outline of the sail
with pencil. Stout tape stitched along the bias edges will make a sure
thing of it, and the material can be cut, making due allowance for the
hem. Better take feminine advice on this process. The hems should be
half an inch deep all around, selvage and all, and it will do no harm
to reinforce them with cord if you wish to make a thoroughly good piece
of work.

For running-rigging, nothing is better than laid or braided cotton
cord, such as is used for awnings and sash-cords. If this is not easily
procured, any stout twine will answer. It can be doubled and twisted
as often as necessary. The smallest manila rope is rather stiff and
unmanageable for such light sails as ours.

In fitting out a boat of any kind, iron, unless galvanized, is to be
avoided as much as possible, on account of its liability to rust. Use
brass or copper instead.


Hints to Beginners

Nothing has been said about reefing thus far, because small boats under
the management of beginners should not be afloat in a "reefing breeze."
Reefing is the operation of reducing the spread of sail when the wind
becomes too fresh. If you will look at Fig. 146 you will see rows of
short marks on the sail above the boom. These are "reef-points"--bits
of line about a foot long passing through holes in the sail and knotted
so that they will not slip. In reefing, the sail is lowered and
that portion of it between the boom and the reef-points is gathered
together, and the points are tied around both it and the boom. When the
lower row of points is used it is a single reef. Both rows together are
a double reef.

Make your first practical experiment _with a small sail and with the
wind blowing toward the shore_. Row out a little way, and then sail in
any direction in which you can make the boat go, straight back to shore
if you can, with the sail out nearly at right angles with the boat.
Then try running along shore with the sheet hauled in a little and
the sail on the side nearest the shore. You will soon learn what your
craft can do, and will probably find that she will make very little, if
any, headway to windward. This is partly because she slides sidewise
over the water. To prevent it you may use a "lee-board"--namely, a
broad board hung over the side of the boat (G, Fig. 143). This must be
held by stout lines, as the strain upon it is very heavy. It should be
placed a little forward of the middle of the boat.

[Illustration: Fig. 147.--Making port.]

It must be on the side away from the wind--the lee side--and must
be shifted when you go about. Keels and centreboards are permanent
contrivances for the same purpose, but a lee-board answers very well as
a makeshift, and is even used habitually by some canoeists and other
boatmen.

In small boats it is sometimes desirable to sit amidships, because
sitting in the stern raises the bow too high out of water; steering may
be done with an oar over the lee side, or with "yoke-lines" attached to
a cross-piece on the rudder-head, or even to the tiller. In this last
case the lines must be rove through rings or pulleys at the sides of
the boat opposite the end of the tiller. When the handle of the oar (H,
Fig. 143)--or the tiller (F, Fig. 146) if a rudder is used--is pushed
to the right, the boat will turn to the left, and _vice versa_. The
science of steering consists in knowing when to push and how much to
push--very simple, you see, in the statement, but not always so easy in
practice.

The sail should be so adjusted in relation to the rest of the boat
that, when the sheet is hauled close in and made fast, the boat, if
left to herself, will point her head to the wind like a weather-cock
and drift slowly astern. If it is found that the sail is so far forward
that she will not do this, the fault may be remedied by stepping the
mast further aft or by rigging a small sail near the stern. This is
called a "dandy" or "steering sail," and is especially convenient in a
boat whose size or arrangement necessitates sitting amidships. It may
be rigged like the mainsail, and when its sheet is once made fast will
ordinarily take care of itself in tacking.

Remember that, if the wind freshens or a squall strikes you, the
position of safety is with the boat's head to the wind. When in doubt
what to do, push the helm down (toward the sail) and haul in the slack
of the sheet as the boat comes up into the wind. If she is moving
astern, or will not mind her helm--and of course she will not if she is
not moving--pull her head around to the wind with an oar and experiment
cautiously until you find which way you can make her go.

In making a landing, always calculate to have the boat's head as near
the wind as possible when she ceases to move, this whether you lower
your sail or not.

Thus, if the wind is off shore, as shown at A, Fig. 147, land at F or
G, with the bow toward the shore. If the wind is from the direction of
B, land at E, with the bow toward B or at F; if at the latter, the boom
will swing away from the wharf and permit you to lie alongside. If the
wind is from D, reverse these positions. If the wind comes from the
direction of C, land either at F or G, with the bow pointing off shore.

If you have no one to tell you what to do, you will have to feel your
way slowly and learn by experience; but if you have nautical instincts
you will soon make your boat do what you wish her to do as far as she
is able. _But first learn to swim before you try to sail a boat._

Volumes have been written on the subject treated in these few pages,
and it is not yet exhausted. The hints here given are safe ones to
follow, and will, it is hoped, be of service to many a young sailor in
many a corner of the world.




CHAPTER X

MORE RIGS OF ALL KINDS FOR SMALL BOATS

    How to Distinguish between a Ship, Bark, Brig, and
    Schooner--Merits and Defects of Catboats--Advantages of
    the Sloop--Rigs for Canoes--Buckeyes and Sharpies


THE two principal rigs for vessels are the fore-and-aft and the square
rig.

=Square rigged= consists in having the principal sails extended by
yards suspended at the middle (Fig. 159).

=Fore-and-aft rigged= is having the principal sails extended by booms
and gaffs suspended by their ends (Figs. 148, 149, 150, 156, and 161).

Barks, brigs, and ships are all more or less square rigged, but
schooners, sloops, and catboats are all fore-and-aft rigged. In these
notes the larger forms of boats are mentioned only because of the
well-known interest boys take in all nautical matters, but no detailed
description of the larger craft will be given. All that is aimed at
here is to give the salient points, so that the youngsters will know
the name of the rig when they see it.


The Cat

There is a little snub-nosed American who, in spite of her short body
and broad waist, is deservedly popular among all our amateur sailors.

The appreciation of her charms is felt and acknowledged by all her
companions without envy, not because of her saucy looks, but on account
of her accommodating manners.

Possessing a rare ability for quick movement, and a wonderful
power to bore her way almost into the very eye of the wind, or with
double-reefed sail to dash through the storm or gently slide up
alongside of a wharf or dock as easily as a rowboat, the American
catboat, with her single mast "chock up in the eyes of her," has
made a permanent place for herself among our pleasure craft, and is
omnipresent in our crowded bays and harbors.

[Illustration: Fig. 148.--The snub-nosed American cat.]

[Illustration: Fig. 149.--Jib and mainsail.]

Knowing that there is little danger of the catboat losing its
well-earned popularity, and being somewhat familiar with many of her
peculiarities, I am free to say that this rig, notwithstanding its
numerous good points, has many serious defects as a school-ship, and
the beginner had better select some other rig with which to begin his
practice sailing.

[Illustration: Fig. 150.--Schooner rig for open boat. Boom on mainsail,
none on foresail.]

[Illustration: Fig. 151.--The balance lug.]

First, the great sail is very heavy and difficult to hoist and reef.
Second, in going before the wind there is constant danger of jibing,
with serious results. Third, the catboat has a very bad habit of
rolling when sailing before the wind, and each time the boat rolls
from side to side she is liable to dip the end of her heavy boom in
the water and "trip herself up." When a boat trips _up_ she does
not necessarily go _down_, but she is likely to upset, placing the
young sailors in an unenviable, if not a dangerous, position. Fourth,
when the craft begins to swagger before the wind she is liable to
"goose-neck"; that is, throw her boom up against the mast, which is
another accident fraught with the possibilities of serious mischief.

[Illustration: Fig. 152.--Standing lug.]

[Illustration: Fig. 153.--Leg-of-mutton sail. Jib and main sail rig.]

The catboat has no bowsprit, no jib, and no topsail (Fig. 148), but
that most graceful of all single-stickers,


The Sloop

possesses several jibs, a bowsprit, and topsail. Besides these, when
she is in racing trim, a number of additional sails are used. All our
great racers are sloops, and this rig is the most convenient for small
yachts and cutters.

Racing Sloops

A racing sloop (Fig. 161) carries a mainsail, A, a fore staysail, B, a
jib, C, a gaff topsail, D, a club topsail, E, a baby jib topsail, F, a
No. 2 jib topsail, G, a No. 1 jib topsail, H, a balloon jib topsail, J
(Fig. 157), and a spinnaker, K (Fig. 157).

[Illustration: Fig. 160. Fig. 161.

Figs. 154-161.--Rigs that we meet at sea.]


Jib and Mainsail

A small sloop's sails are a mainsail, jib, and topsail. A sloop rig
without topsail is called a jib and mainsail (Fig. 149).

While every small-boat sailor should know a catboat and a sloop when
he sees them, and even be able to give the proper name to their sails,
neither of these rigs is very well suited for canoes, sharpies, or
other boats of the mosquito fleet; but the


Schooner Rig

which is the form of boat generally used for the larger yachts, is
also very much used for open boats. As you can see, by referring to
Fig. 150, the schooner rig consists of a bowsprit, fore and main mast,
with their appropriate sails. Lately freight schooners have appeared
with four or more masts. For small boats two adjustable masts and an
adjustable bowsprit, as described in the Rough and Ready, Chapter
XIII, are best. The sails may be sprit sails, Figs. 164-169; balance
lug, Fig. 151; standing lug, Fig. 152; leg-of-mutton, Fig. 153, or the
sliding gunter, Fig. 163.

[Illustration: Fig. 162.--The buckeye.]

[Illustration: Fig. 163.--The sliding gunter.]

In the chapter on how to build the Rough and Ready, the sprit sail is
depicted and fully described.


The Balance Lug

comes as near the square sail of a ship as any canvas used on small
boats, but you can see, by referring to the diagram, Fig. 151, that
the leach and the luff are not parallel and that the gaff hangs at an
angle. To boom out the canvas and make it sit flat there are three
sticks extended across the sail from the front to the back, luff to
leach, called battens. This has caused some people to call this a
batten lug. Like the lateen sail, part of the balance lug hangs before
the mast and serves the purpose of a jib. This rig is said to be easily
managed and to possess good sailing qualities.

[Illustration: Fig. 164.--Sharpie with sprit and club leg-of-mutton
sails.]

[Illustration: Fig. 165.

Fig. 166.

Showing detail of sprit club sail.]


The Standing Lug

is another sail approaching the square in pattern (Fig. 152), and, as
any novice can see, is a good canvas with which to scud before the
wind. It is very convenient for open boats built to be propelled by
paddles. While the standing lug cannot point up to the eye of the wind
like a schooner or cat, it is very fast on the wind or when running
with the wind astern. Probably the safest form of sail used is the old
reliable


Leg-of-Mutton Sail

This is used by the fishermen on their stanch little dories away up on
the coast of Maine, and by the "tide-water" people in their "buckeyes"
on Chesapeake Bay. The latter boat is very little known outside of the
locality where it makes its home, but, like the New Haven sharpies, it
is very popular in its own waters.


The Buckeye

or "bugeye," as it is sometimes vulgarly called, has a great reputation
for speed and sea-going qualities. When it cannot climb a wave it goes
through it. This makes a wet boat in heavy weather, but when you travel
at a high rate of speed you can endure a wet jacket with no complaint,
especially when you feel that, in spite of the fast-sailing qualities
of this boat, it is considered a particularly safe craft.

[Illustration: Fig. 167.--Plain sprit leg-of-mutton.]

[Illustration: Fig. 168.

Fig. 169.

Another form of the sprit sail.]

The construction of a =buckeye= (Fig. 162) has been evolved from the
old dugout canoe of the Indians and the first white settlers. America
was originally covered with vast forests of immense trees. Remnants of
these forests still exist in a few localities. It was once possible to
make a canoe of almost any dimensions desired, but now in the thickly
settled regions big trees are scarce.

So the Chesapeake Bay boat-builders, while still adhering to the old
dugout, have overcome the disadvantage of small logs by using more than
one and bolting the pieces together. Masts and sails have been added,
and since the increased proportions made it impracticable to drag such
a craft on the beach when in port, anchors and cables are supplied.
Two holes bored, one on each side of the stem, for the cables to run
through, have given the boat the appearance of having eyes, and as the
eyes are large and round, the negroes called them buckeyes, and this is
now the name by which all such craft are known.

At first only two masts with leg-of-mutton sails were used, but now
they have a jib and two sails. With the greatest width or beam about
one-third the distance from bow to stern, sharp at both ends, its long,
narrow, and heavy hull is easily driven through the water and makes
both a fast and stiff boat.

The buckeye travels in shallow as well as deep waters, and hence is
a centreboard boat, but there is nothing unnecessary on the real
buckeye--no overhanging bow or stern, for that means additional labor;
no stays to the masts, for the same reason. The lack of stays to
stiffen the masts leaves them with "springiness," which in case of a
sudden squall helps to spill the wind and prevents what might otherwise
be a "knock-down."

[Illustration: Fig. 170.--Lug rig with jigger.]

[Illustration: Fig. 171.--Lug rig with jigger and jib.]

The foremast is longer than the mainmast and does not rake aft so much,
but the mainmast has a decided rake, which the colored sailors say
makes the boat faster on the wind. Sometimes in the smaller boats the
mainmast can be set upright when going before the wind.

Wealthy gentlemen on the Chesapeake are now building regularly equipped
yachts on the buckeye plan, and some of them are quite large boats. A
correspondent of the _Forest and Stream_, in speaking of the buckeye,
says:

"Last summer I cruised in company with a buckeye, forty-two feet long,
manned by two gentlemen of Baltimore city. She drew twenty inches
without the board. In sudden and heavy flaws she was rarely luffed. She
would lie over and appear to spill the wind out of her tall, sharp
sails and then right again. Her crew took pleasure in tackling every
sailing craft for a race; nothing under seventy feet in length ever
beat her. She steered under any two of her three sails. On one occasion
this craft, on her way from Cape May to Cape Charles, was driven out to
sea before a heavy north-west blow. Her crew, the aforesaid gentlemen,
worn out by fatigue, hove her to and went to sleep. She broke her
tiller lashing during the night, and when they awoke she was pegging
away on a south-east course under her jib. They put her about, and in
twenty hours were inside Cape Henry, pretty well tired out. Buckeyes
frequently run from Norfolk to New York with fruit. For shallow waters,
I am satisfied there is no better craft afloat. Built deep, with a
loaded keel, they would rival the English cutter in seaworthiness and
speed."

[Illustration: Fig. 172.--Jib.]

[Illustration: Fig. 173.--Sprit sail, schooner rig, with dandy.]

When the hardy, bold fishermen of our Eastern States and the brave
fishermen down South both use the leg-of-mutton sail, beginners cannot
object to using it while practising; knowing that even if it is a safe
sail, it cannot be called a "baby rig." Another safe rig, differing
little from the leg-of-mutton, is the


Sliding Gunter

In this rig the sail is laced to a yard which slides up or down the
mast by means of two iron hooks or travellers (Fig. 163). No sail with
a narrow-pointed top is very serviceable before the wind, and the
sliding gunter is no exception to the rule. But it is useful on the
wind, and can be reefed easily and quickly, qualities which make it
many friends.

In the smooth, shallow waters along the coast of North Carolina may be
seen the long, flat-bottomed


Sharpies

Without question they are to be ranked among the fastest boats we have.
These boats are rigged with a modification of the leg-of-mutton sail.
The ends of the sprit in the foresail project at the luff and leach.
At the luff it is fastened to the mast by a line like a snotter at the
leach. It is fastened to a stick sewed into the sail, called a club.
The sheet is attached to the end of the sprit (Figs. 164-168).

[Illustration: Fig. 174.--Sprit sail jib and dandy.]

[Illustration: Fig. 175.--The lateen rig with dandy.]


The Sprit Leg-of-Mutton Sail

has this advantage, that the clew of the sail is much higher than the
tack, thus avoiding the danger of dipping the clew in the water and
tripping the boat.


The Dandy Jigger, or Mizzen Rig

is named after the small sail aft, near the rudder-head. This jigger,
mizzen, or dandy may have a boom, a sprit, or be rigged as a lug.
(See Figs. 170, 171, 173, 174, 175, 178, 180, and 184, which show the
principal mizzen rigs in use.)

[Illustration: Fig. 176. Yawl Rig.

Fig. 177. Lug-headed Jib & Mainsail Rigged Punt

Fig. 180. The Burton when using only two blocks it is the most powerful
Tackle

Fig. 181. A "Lugeen."

Fig. 182. FAN SAIL under shortened sail. Fan Partly Folded

Fig. 179. Two battened Lug

Fig. 178. Three masted Bat Winged Canoe

Fig. 184. Two masted Bat Winged Canoe.

Fig. 183. Two Common Tackles A Gun Tackle Purchase Luff Tackle Purchase

ADDITIONAL RIGS FOR SMALL BOATS AND CANOES AND THREE USEFUL TACKLES

Figs. 176-184.--Hybrid rigs for small boats; also two useful tackles.]

In puffy wind and lumpy water the main and mizzen rig will be found to
work well. The little sail aft should be trimmed as flat as possible.
It will be found of great help in beating to the windward, and will
keep the nose of the boat facing the wind when the mainsail is down.
Different rigs are popular in different localities. For instance:


The Lateen Rig

is very popular in some parts of the Old World, yet it has only few
friends here. It may be because of my art training that I feel so
kindly toward this style of sail, or it may be from association in my
mind of some of the happiest days of my life with a little black canoe
rigged with lateen sails. At any rate, in spite of the undeniable
fact that the lateen is unpopular, I never see a small boat rigged in
this style without a feeling of pleasure. The handy little stumps of
masts end in a spike at the top and are adorned by the beautiful sails
lashed to slender spars, which, by means of metal rings, are lightly,
but securely, fastened to the mast by simply hooking the ring over the
spike. I freely acknowledge that when the sails are lowered and you
want to use your paddle the lateen sails are in your way. It is claimed
that they are awkward to reef, and this may be true. I never tried it.
When the wind was too strong for my sails I made port or took in either
the large or the small sail, as the occasion seemed to demand.


The Ship

When you are out sailing and see a vessel with three masts, all square
rigged, you are looking at a ship proper, though ship is a word often
used loosely for any sort of a boat (Fig. 159).

=The bark= is a vessel with square-rigged foremast and mainmast and a
fore-and-aft rigged mizzen-mast (Fig. 160).

=The brig= is a vessel with only two masts, both of which are square
rigged (Fig. 158).

=The brigantine= has two masts--foremast square rigged and mainmast
fore-and-aft rigged (Fig. 155).

=The barkentine= has three masts--mainmast and mizzen-mast fore-and-aft
rigged and foremast square rigged. (See Fig. 154.)




CHAPTER XI

KNOTS, BENDS, AND HITCHES


How to Tie Knots Useful on Both Land and Water

THE art of tying knots is an almost necessary adjunct to not a few
recreations. Especially is this true of summer sports, many of which
are nautical or in some manner connected with the water.

Any boy who has been aboard a yacht or a sail-boat must have realized
that the safety of the vessel and all aboard may be imperilled by
ignorance or negligence in the tying of a knot or fastening of a rope.

With some the knack of tying a good, strong knot in a heavy rope
or light cord seems to be a natural gift; it is certainly a very
convenient accomplishment, and one that with practice and a little
perseverance may be acquired even by those who at first make the most
awkward and bungling attempts.

A bulky, cumbersome knot is not only ungainly, but is generally
insecure.

As a rule, the strength of a knot is in direct proportion to its neat
and handsome appearance.

To my mind it is as necessary that the archer should know how to make
the proper loops at the end of his bow-string as it is that a hunter
should understand how to load his gun.

Every fisherman should be able to join two lines neatly and securely,
and should know the best and most expeditious method of attaching an
extra hook or fly; and any boy who rigs up a hammock or swing with a
"granny" or other insecure knot deserves the ugly tumble and sore bones
that are more than liable to result from his ignorance.

A knot, nautically speaking, is a "bend" that is more permanent than a
"hitch." A knot properly tied never slips, nor does it jam so that it
cannot be readily untied. A "hitch" might be termed a temporary bend,
as it is seldom relied upon for permanent service. The "hitch" is so
made that it can be cast off or unfastened more quickly than a knot.

It is impossible for the brightest boy to learn to make "knots, bends,
and hitches" by simply reading over a description of the methods; for,
although he may understand them at the time, five minutes after reading
the article the process will have escaped his memory. But if he take a
piece of cord or rope and sit down with the diagrams in front of him,
he will find little difficulty in managing the most complicated knots;
and he will not only acquire an accomplishment from which he can derive
infinite amusement for himself and a means of entertainment for others,
but the knowledge gained may, in case of accident by fire or flood, be
the means of saving both life and property.

The accompanying diagrams show a number of useful and important bends,
splices, etc. To simplify matters, let us commence with Fig. 57, and go
through the diagrams in the order in which they come:

The "English" or "common single fisherman's knot" (Fig. 185, I) is neat
and strong enough for any ordinary strain. The diagram shows the knots
before being tightened and drawn together.

When exceptional strength is required it can be obtained by joining the
lines in the ordinary single fisherman's knot (Fig. 185, I) and pulling
each of the half knots as tight as possible, then drawing them within
an eighth of an inch of each other and wrapping between with fine gut
that has been previously softened in water, or with light-colored silk.

An additional line or a sinker may be attached by tying a knot in the
end of the extra line and inserting it between the parts of the single
fisherman's knot before they are drawn together and tightened.

[Illustration: Fig. 185.--Some useful knots.]

The "fisherman's double half knot," Fig. 185 (II and III). After the
gut has been passed around the main line and through itself, it is
passed around the line once more and through the same loop again and
drawn close.

Fig. 185 (IV, V, and IX). Here are three methods of joining the ends of
two lines together; the diagrams explain them much better than words
can. Take a piece of string, try each one, and test their relative
strength.

Fig. 185 (VI). It often happens, while fishing, that a hook is caught
in a snag or by some other means lost. The diagram shows the most
expeditious manner of attaching another hook by what is known as the
"sinker hitch," described further on (Fig. 185, D, D, D, and Fig. 186,
XIV, XV, and XVI).

Fig. 185, VII is another and more secure method of attaching a hook by
knitting the line on with a succession of half-hitches.


How to Make a Horse-Hair Watch-Guard

The same hitches are used in the manufacture of horse-hair
watch-guards, much in vogue with the boys in some sections of the
country. As regularly as "kite-time," "top-time," or "ball-time," comes
"horse-hair watch-guard time."

About once a year the rage for making watch-guards used to seize the
boys of our school, and by some means or other almost every boy would
have a supply of horse-hair on hand. With the first tap of the bell for
recess, some fifty hands would dive into the mysterious depths of about
fifty pockets, and before the bell had stopped ringing about fifty
watch-guards, in a more or less incomplete state, would be produced.

Whenever a teamster's unlucky stars caused him to stop near the
school-house, a chorus of voices greeted him with "Mister, please let
us have some hair from your horses' tails."

The request was at first seldom refused, possibly because its nature
was not at the time properly understood; but lucky was the boy
considered who succeeded in pulling a supply of hair from the horses'
tails without being interrupted by the heels of the animals or by the
teamster, who, when he saw the swarm of boys tugging at his horses'
tails, generally repented his first good-natured assent, and with a
gruff, "Get out, you young rascals!" sent the lads scampering to the
school-yard fence.

Select a lot of long hair of the color desired; make it into a switch
about an eighth of an inch thick by tying one end in a simple knot.
Pick out a good, long hair and tie it around the switch close to the
knotted end; then take the free end of the single hair in your right
hand and pass it under the switch on one side, thus forming a loop
through which the end of the hair must pass after it is brought up and
over from the other side of the switch. Draw the knot tight by pulling
the free end of the hair as shown by Fig. 185, VII. Every time this
operation is repeated a wrap and a knot is produced. The knots follow
each other in a spiral around the switch, giving it a very pretty,
ornamented appearance. When one hair is used up select another and
commence knitting with it as you did with the first, being careful to
cover and conceal the short end of the first hair, and to make the
knots on the second commence where the former stop. A guard made of
white horse-hair looks as if it might be composed of spun glass, and
produces a very odd and pretty effect. A black one is very genteel in
appearance. These ornaments are much prized by cowboys, and I have seen
bridles for horses made of braided horsehair.


Miscellaneous

Fig. 185, VIII shows a simple and expeditous manner of attaching a
trolling-hook to a fish-line.

Fig. 185, F is a hitch used on shipboard, or wherever lines and cables
are used. It is called the Blackwall hitch.

Fig. 185, E is a fire-escape made of a double bow-line knot, useful
as a sling for hoisting persons up or letting them down from any high
place; the window of a burning building, for instance. Fig. 186, XVIII,
XIX, and XX show how this knot is made. It is described on page 77.

Fig. 185, A is a "bale hitch," made of a loop of rope. To make it, take
a piece of rope that has its two ends joined; lay the rope down and
place the bale on it; bring the loop opposite you up, on that side of
the bale, and the loop in front up, on the side of the bale next to
you; thrust the latter loop under and through the first and attach the
hoisting rope. The heavier the object to be lifted, the tighter the
hitch becomes. An excellent substitute for a shawl-strap can be made of
a cord by using the bale hitch, the loop at the top being a first-rate
handle.

Fig. 185, B is called a cask sling, and C (Fig. 185) is called a butt
sling. The manner of making these last two and their uses may be seen
by referring to the illustration. It will be noticed that a line is
attached to the bale hitch in a peculiar manner (_a_, Fig. 185). This
is called the "anchor bend." If while aboard a sail-boat you have
occasion to throw a bucket over for water, you will find the anchor
bend a very convenient and safe way to attach a line to the bucket
handle, but unless you are an expert you will need an anchor hitched to
your body or you will follow the bucket.

Fig. 186, I and II are loops showing the elements of the simplest knots.

Fig. 186, III is a simple knot commenced.

Fig. 186, IV shows the simple knot tightened.

Fig. 186, V and VI show how the Flemish knot looks when commenced and
finished.

Fig. 186, VII and VIII show a "rope knot" commenced and finished.

Fig. 186, IX is a double knot commenced.

Fig. 186, X is the same completed.

Fig. 186, XI shows a back view of the double knot.

Fig. 186, XII is the first loop of a "bow-line knot." One end of the
line is supposed to be made fast to some object. After the turn, or
loop (Fig. 186, XII), is made, hold it in position with your left hand
and pass the end of the line up through the loop, or turn, you have
just made, behind and over the line above, then down through the loop
again, as shown in the diagram (Fig. 186, XIII); pull it tight and the
knot is complete. The "sinker hitch" is a very handy one to know, and
the variety of uses it may be put to will be at once suggested by the
diagrams.

[Illustration: Fig. 186.]

Lines that have both ends made fast may have weights attached to them
by means of the sinker hitch (Fig. 185, D, D, D).

To accomplish this, first gather up some slack and make it in the form
of the loop (Fig. 186, XIV); bend the loop back on itself (Fig. 186,
XV) and slip the weight through the double loop thus formed (Fig. 186,
XVI); draw tight by pulling the two top lines, and the sinker hitch is
finished (Fig. 186, XVII).

The "fire-escape sling" previously mentioned, and illustrated by Fig.
185, E, is made with a double line.

Proceed at first as you would to make a simple bow-line knot (Fig. 186,
XVIII).

After you have run the end loop up through the turn (Fig. 186, XIX),
bend it downward and over the bottom loop and turn, then up again until
it is in the position shown in Fig. 186, XX; pull it downward until
the knot is tightened, as in Fig. 185, E, and it makes a safe sling in
which to lower a person from any height. The longer loop serves for a
seat, and the shorter one, coming under the arms, makes a rest for the
back.

Fig. 186½, XXI is called a "boat knot," and is made with the aid of
a stick. It is an excellent knot for holding weights which may want
instant detachment. To detach it, lift the weight slightly and push out
the stick, and instantly the knot is untied.

Fig. 186½, XXII. Commencement of a "six-fold knot."

Fig. 186½, XXIII. Six-fold knot completed by drawing the two ends with
equal force. A knot drawn in this manner is said to be "nipped."

Fig. 186½, XXIV. A simple hitch or "double" used in making loop knots.

Fig. 186½, XXV. "Loop knot."

Fig. 186½, XXVI shows how the loop knot is commenced.

Fig. 186½, XXVII is the "Dutch double knot," sometimes called the
"Flemish loop."

Fig. 186½, XXVIII shows a common "running knot."

Fig. 186½, XXIX. A running knot with a check knot to hold.

Fig. 186½, XXX. A running knot checked.

[Illustration: Fig. 186½.]

Fig. 186½, XXXI. The right-hand part of the rope shows how to make the
double loop for the "twist knot." The left-hand part of the same rope
shows a finished twist knot. It is made by taking a half turn on both
the right-hand and left-hand lines of the double loop and passing the
end through the "bight" (loop) so made.


Whiplashes

Fig. 186½, XXXII is called the "chain knot," which is often used in
braiding leather whiplashes. To make a "chain knot," fasten one end of
the thong, or line; make a simple loop and pass it over the left hand;
retain hold of the free end with the right hand; with the left hand
seize the line above the right hand and draw a loop through the loop
already formed; finish the knot by drawing it tight with the left hand.
Repeat the operation until the braid is of the required length, then
secure it by passing the free end through the last loop.

Fig. 186½, XXXIII shows a double chain knot.

Fig. 186½, XXXIV is a double chain knot pulled out. It shows how the
free end is thrust through the last loop.

Fig. 186½, XXXV. Knotted loop for end of rope, used to prevent the end
of the rope from slipping, and for various other purposes.


Splices, Timber-Hitches, etc.

Although splices may not be as useful to boys as knots and hitches,
for the benefit of those among my readers who are interested in the
subject, I have introduced a few bands and splices on the cables partly
surrounding Fig. 186½.

Fig. 186½, _a_ shows the knot and upper side of a "simple band."

Fig. 186½, _b_ shows under side of the same.

Fig. 186½, _c_ and _d_ show a tie with cross-ends. To hold the ends of
the cords, a turn is taken under the strands.

[Illustration: Fig. 187.]

Fig. 186½, _e_ and _f_: Bend with cross-strands, one end looped over
the other.

Fig. 186½, _g_ shows the upper side of the "necklace tie."

Fig. 186½, _h_ shows the under side of the same. The advantage of this
tie is that the greater the strain on the cords, the tighter it draws
the knot.

Fig. 186½, _i_ and _j_ are slight modifications of _g_ and _h_.

Fig. 186½, _p_ shows the first position of the end of the ropes for
making the splice _k_. Untwist the strands and put the ends of two
ropes together as close as possible, and place the strands of the one
between the strands of the other alternately, so as to interlace, as in
_k_. This splice should only be used when there is not time to make the
"long splice," as the short one is not very strong.

From _l_ to _m_ is a long splice, made by underlaying the strands of
each of the ropes joined about half the length of the splice, and
putting each strand of the one between two of the other; _q_ shows the
strands arranged for the long splice.

Fig. 186½, _n_ is a simple mode of making a hitch on a rope.

Fig. 186½, _o_ is a "shroud knot."

Fig. 186½, _r_ shows a very convenient way to make a handle on a rope,
and is used upon large ropes when it is necessary for several persons
to take hold to pull.

Fig. 187, A. Combination of half-hitch and timber-hitch.

Fig. 187, B. Ordinary half-hitch.

Fig. 187, C. Ordinary timber-hitch.

Fig. 187, D. Another timber-hitch, called the "clove-hitch."

Fig. 187, E. "Hammock-hitch," used for binding bales of goods or cloth.

Fig. 187, F. "Lark-head knot," used by sailors and boatmen for mooring
their crafts.

Fig. 187, P shows a lark-head fastening to a running knot.

Fig. 187, G is a double-looped lark-head.

Fig. 187, H shows a double-looped lark-head knot fastened to the ring
of a boat.

[Illustration: Fig. 187½.--Timber-hitches, etc.]

Fig. 187, I is a "treble lark-head." To make it you must first tie
a single lark-head, then divide the two heads and use each singly, as
shown in the diagram.

Fig. 187, J shows a simple boat knot with one turn.

Fig. 187, K. "Crossed running knot." It is a strong and handy tie, not
as difficult to make as it appears to be.

Fig. 187, L is the bow-line knot, described by the diagrams XII and
XIII (Fig. 186). The free end of the knot is made fast by binding it to
the "bight," or the loop. It makes a secure sling for a man to sit in
at his work among the rigging.

Fig. 187, M, N, and O. "Slip clinches," or "sailors' knots."

Fig. 187½, Q shows a rope fastened by the chain-hitch. The knot at the
left-hand end explains a simple way to prevent a rope from unravelling.

Fig. 187½, R. A timber-hitch; when tightened the line binds around the
timber so that it will not slip.

Fig. 187½, S. Commencement of simple lashing knot.

Fig. 187½, T. Simple lashing knot finished.

Fig. 187½, U. "Infallible loop;" not properly a timber-hitch, but
useful in a variety of ways, and well adapted for use in archery.

Fig. 187½, V. Same as R, reversed. It looks like it might give way
under a heavy strain, but it will not.

Fig. 187½, W. Running knot with two ends.

Fig. 187½, X. Running knot with a check knot that can only be opened
with a marline-spike.

Fig. 187½, Y. A two-ended running knot with a check to the running
loops. This knot can be untied by drawing both ends of the cord.

Fig. 187½, Z. Running knot with two ends, fixed by a double Flemish
knot. When you wish to encircle a timber with this tie, pass the ends
on which the check knot is to be through the cords before they are
drawn tight. This will require considerable practice.

Fig. 187½, _a_ shows an ordinary twist knot.

Fig. 187½, _a_^{1} shows the form of loop for builder's knot.

Fig. 187½, _b_. Double twist knot.

Fig. 187½, _c_. Builder's knot finished.

Fig. 187½, _d_ represents a double builder's knot.

Fig. 187½, _e_. "Weaver's knot," same as described under the head of
Becket hitch (Fig. 185, V).

Fig. 187½, _f_. Weaver's knot drawn tight.

Fig. 187½, _g_ shows how to commence a reef knot. This is useful for
small ropes; with ropes unequal in size the knot is likely to draw out
of shape, as _m_.

Fig. 187½, _h_ shows a reef knot completed.

Of all knots, avoid the "granny"; it is next to useless under a strain,
and marks the tier as a "landlubber."

Fig. 187½, _i_ shows a granny knot; _n_ shows a granny under strain.

Fig. 187½, _j_ shows the commencement of a common "rough knot."

Fig. 187½, _k_. The front view of finished knot.

Fig. 187½, _l_. The back view of finished knot. Although this knot
will not untie nor slip, the rope is likely to part at one side if the
strain is great. Awkward as it looks, this tie is very useful at times
on account of the rapidity with which it can be made.

Fig. 187½, _o_ and _p_. Knot commenced and finished, used for the same
purposes as the Flemish knot.

Fig. 187½, _q_ and _q_^{1}. An ordinary knot with ends used separately.

Fig. 187½, _s_. Sheep-shank, or dog-shank as it is sometimes called,
is very useful in shortening a line. Suppose, for instance, a swing is
much longer than necessary, and you wish to shorten it without climbing
aloft to do so, it can be done with a sheep-shank.

Fig. 187½, _r_ shows the first position of the two loops. Take two half
hitches, and you have a bend of the form shown by _s_. Pull tightly
from above and below the shank, and you will find that the rope is
shortened securely enough for ordinary strain.

Fig. 187½, _t_. Shortening by loop and turns made where the end of the
rope is free.

Fig. 187½, _u_. A shortened knot that can be used when either end is
free.

Fig. 187½, _v_, _w_, and _x_. Shortening knots.

Fig. 187½, _y_ and _z_. A "true lover's knot," and the last one that
you need to practise on, for one of these knots is as much as most
persons can attend to, and ought to last a lifetime.

[Illustration]




CHAPTER XII

HOW TO BUILD A CHEAP BOAT


The Yankee Pine

FROM the saw-mills away up among the tributaries of the Ohio River
come floating down to the towns along the shore great rafts of pine
lumber. These rafts are always objects of interest to the boys, for
the youngsters know that when moored to the shore the solidly packed
planks make a splendid platform to swim from. Fine springing-boards
can be made of the projecting blades of the gigantic sweeps which are
used to guide the mammoth rafts, and, somewhere aboard, there is always
to be found a "Yankee pine." Just when or why this style of skiff was
dubbed with such a peculiar name I am unable to state; but this I know,
that when a raft is to be broken up and carted away to the lumber yards
there is, or always used to be, a good, light skiff to be had cheap.

However, all boys do not live on the bank of the river, and if they did
there would hardly be "Yankee pines" enough to go round; so we will at
once proceed to see how to build one for ourselves. Although my readers
may find the "Yankee pine" a little more difficult to build than the
blunt-ended, flat-bottomed scow, it really is a comparatively simple
piece of work for boys familiar with the use of carpenters' tools.

For the side-pieces select two straight-grained pine boards free from
knots. These boards should be about 13 or 14 feet long, a couple
of inches over a foot in width, and as nearly alike as possible in
texture. Besides these there should be in the neighborhood of a dozen
other ¾-inch planks, an inch or two over a half foot in width. A small
piece of 2-inch plank for the stern-piece is also necessary. Upon the
bottom edge of the side-board measure off from each end toward the
centre 4 inches, mark the points, and saw off the corners shown by the
dotted line in Fig. 188. Next take a piece of board 4 feet long and a
foot wide, saw off the corners as you did on the side-board, making it
4 feet on the top and 3 feet 4 inches on the bottom. This board is to
be used only as a centre brace while modelling the boat.

[Illustration: Fig. 188.--Side-board.]

[Illustration: Fig. 189.--Frame.]

Out of the 2-inch plank make a stern-piece of the same shape as the
centre brace; let it be 1 foot wide, 14 inches long on the bottom,
and 20 inches long on top. Set the side-boards on their shorter or
bottom edges and place the centre brace in the middle, as shown by
Fig. 189; nail the side-boards to it, using only enough nails to hold
temporarily. Draw the side-boards together at the bow and against the
stern-board at the stern (Fig. 189). Hold the side-pieces in position
by the means of ropes. A stem should be ready to fix in the bow (Fig.
190). This had better be a few inches longer than the sides are broad,
as it is a simple matter to saw off the top after it is fitted. Make
the stem of a triangular piece of timber, by planing off the front
edge until a flat surface about ½ inch broad is obtained; 2 inches
from the front, upon each side, cut a groove just the thickness of the
side-boards (¾ inch). Trim the stem so that the side-pieces at the bow
fit the grooves snugly, and nail the side-boards to the stem and to the
stern-piece (Fig. 189).

[Illustration: Fig. 190.--Stem-piece.]

[Illustration: Fig. 191.--Finished skiff.]

Turn the boat upside down, and it will be discovered that the outlines
of the bottom form an arch from stem to stern. If left in this shape
the boat will sink too deep amidship. Remedy the defect by planing the
bottom edge of both side pieces, reducing the convex form to straight
lines in the middle. This will allow the bow and stern to sheer, but
at the same time will make the central part of the bottom flat, and,
by having less to drag through the water, make it easier to row. Nail
the bottom-boards on crosswise, and as, on account of the form of the
boat, no two boards will be of the same size, they must be first nailed
on and the projecting ends sawed off afterward. The centre brace may
now be taken out and a long bottom-board nailed to the centre of the
bottom upon the inside of the boat (Fig. 191). Cut a small cross-piece
(B, Fig. 191) so that it will fit across the bow 3 inches below the
top of the side-boards. Nail it in place, driving the nails from the
outside of the side-board through and into the end of the stick B. Saw
out a bow seat, and, allowing the broad end to rest on the cross-stick
B, fit the seat in and secure it with nails (Fig. 191); 3 inches below
the top of the stern-piece nail a cleat across. At the same distance
below the side-board put a cross-stick similar to the one in the bow.
This and the cleat on the stern-piece form rests for the stern seat.
Five feet from the stern saw a notch 2 inches deep and 1½ inch long in
each side-board (A, A^{1}, Fig. 191). Saw two more notches of the same
size 3 inches from the first; these will make the rowlock when the side
strips have been fastened on.

[Illustration: Fig. 192.--Keel board or skeg.]

These strips should each be made of 1-inch plank, 2 inches wide and
an inch or two longer than the side-boards. Nail the strips on the
outside of the boat flush with the top of the side-boards, making a
neat joint at the stern-piece, as shown in the illustration (Fig. 191).
Cut two short strips to fit upon the inside at the rowlocks and fasten
them firmly on with screws (Fig. 191, A). Next cut two cleats for the
oarsman's seat to rest upon. Nail them to the side-boards amidship a
little nearer the bottom than the top, so that the seat, when resting
upon the cleats, will be about half the distance from the top edge to
the bottom of the side-boards. Let the aft end of the cleats be about 6
feet 2 inches from the stern. Make thole-pins of some hard wood to fit
in the rowlocks, like those described and illustrated by Figs. 203 and
204.

[Illustration: Top view of "Man Friday."]

The Yankee pine now only needs a skeg to complete it. This must be
placed exactly in the centre, and is fastened on by a couple of screws
at the thin end and nails from the inside of the boat. It is also
fastened to the upright stick at the stern by screws (Fig. 192).

If the joints have been carefully made, your Yankee pine is now ready
for launching. Being made of rough lumber it needs no paint or
varnish, but is a sort of rough-and-ready affair, light to row; and it
ought to float four people with ease. By using planed pine or cedar
lumber, and with hard-wood stem and stern, a very pretty row-boat
can be made upon the same plan as a Yankee pine, or by putting in a
centreboard and "stepping" a mast in the bow, the Yankee pine can be
transformed into a sail-boat. But before experimenting in this line of
boat-building, the beginner had better read carefully the chapter on
how to rig and sail small boats.

[Illustration: Fig. 193.--The side-boards.]


How to Build a Better Finished Boat

The old-time raftsmen formerly built their "Yankee pines" of the rough,
unplaned boards fresh from the saw-mills on the river banks, and these
raw, wooden skiffs were stanch, light, and tight boats, but to-day
smooth lumber is as cheap as the rough boards, so select enough planed
pine lumber for a 12½-foot boat, and you may calculate the exact amount
by reference to the accompanying diagrams, which are all drawn as near
as may be to a regular scale.

By reference to Fig. 193 you will see that A, A represent the two


Side-Boards

These should be of sufficient dimensions to produce two side-pieces
each 13 feet long, 17 inches wide, and 7/8 inch thick (A, Fig. 194).
You will also need a piece for a


Spreader

[Illustration: Fig. 194.--A, the side. B, the spreader. C, the
stern-piece.]

54 inches long, 18 inches wide, and about 1½ inch thick, but as this
is a temporary affair almost any old piece of proper dimensions will
answer (B, Fig. 194), and another piece of good 1½-inch plank (C, Fig.
194) 36 inches long by 15 inches wide, for a stern-piece. Besides the
above there must be enough 1-inch lumber to make seats and to cover the
bottom. At a point on one end, 6½ inches from the edge of the A plank,
mark the point _c_ (Fig. 194), then measure 37 inches back along the
edge of the plank and mark the point _b_ (Fig. 194). Rule a pencil line
(_b_, _c_) between these two points and starting at _c_ saw off the
triangle _b_, _c_, _d_. Make the second side-board an exact duplicate
of the one just described and prepare the spreader by sawing off the
triangle with 9-inch bases at each end of B (Fig. 194). This will leave
you a board (_h_, _k_, _o_, _n_) that will be 36 inches long on its
lower edge and 54 inches long on its top edge.

Next saw off the corners of the stern-piece C (Fig. 194) along the
lines _f_, _g_, the _g_ points being each 6½ inches from the corners;
and a board (_ff_, _gg_) 18 inches wide and 30 inches top measurement,
with 23 inches at the bottom. Now fit the edge of the stern-piece
along the line _e_, _d_ (Fig. 194), or at a slant to please your
fancy. In Fig. 195, upper C, the slant makes the base of the triangle
about 4½ inches, which is sufficient. Be careful that both side-boards
are fitted exactly alike, and to do this nail the port side with
nails driven only partly in, as shown at D (Fig. 195); then nail the
starboard side and, if they are both seen to be even and of the right
slant, drive the nails home; if not correct, the nails may be pulled
out by using a small block under the hammer (D, Fig. 195), without
bending the nails or injuring the wood. Leave the stern-ends of the
side-boards protruding, as in the upper C, until you have the spreader
and stem in place.

[Illustration: Fig. 195.--Details of the boat.]

We are now ready for the spreader (_h_, _k_, _o_, _n_) (B, Fig. 194)
amidship, or, more accurately speaking, 6 feet 9 inches from the bow
(B, Fig. 195). Nail this as shown by D (Fig. 195), so that the nails
may be removed at pleasure. Bring the bow ends of the A boards together
and secure them by a strip nailed temporarily across, as shown in the
diagram E (Fig. 195).


The Stem-piece

may be made of two pieces, as is shown at G and F (Fig. 195) or if you
are more skilful than the ordinary non-professional, the stem may be
made of one piece, as shown by the lower diagram at F (Fig. 195). It
is desirable to have oak for the stem, but any hard wood will answer
the purpose, and even pine may be used when no better is to be had.
Take a piece of cardboard or an old shingle on which to draw a pattern
for the end of the stem and make the outline with a lead-pencil by
placing the shingle over the apex _c_ of diagram E (Fig. 195); from the
inside trace the line of the sides thus, =V=. Trim your stem down to
correspond to these lines and let the stick be somewhat longer than the
width of the sides A, A.

[Illustration: Fig. 196.--Put on a bottom of 1-inch boards.]

When this is done to your satisfaction, fit the stem in place and nail
the side boards to the stem.

Turn the boat over and nail on a bottom of 1-inch boards as shown by
Fig. 196.


Don't

use tongue and grooved or any sort of fancy cabinet or floor joining
when wet--such matched lumber warps up in waves--but use boards with
smooth, flat edges; if these are true and fitted snugly together in
workmanlike manner the first wetting will swell them in a very short
time, until not a drop of water will leak through the cracks, for the
reason that there will be none. Fit the bottom-boards on regardless of
their protruding ends, as these may be sawed off after the boards are
nailed in place.

[Illustration: Fig. 197.--Details of bow, stern, seats, and finished
boat.]


The Seats

consist of a triangular one at the bow (J), the oarsman's seat (L), and
the stern seat (K, Fig. 197). The bow seat is made of 1-inch boards
nailed to two cleats shown at M (Fig. 197). N shows the bench for the
stern seat and O explains the arrangement of the oarsman's seat a
little forward amidship. As may be seen, it rests upon the cleats _x_
(diagram O, Fig. 197), which are fitted between two upright cleats on
each side of the boat; this makes a seat which will not slip out of
place, and the cleats serve to strengthen the sides of the otherwise
ribless boat. Make the cleats of 1 by 2 inch lumber and let the seat
be about 12 inches wide. The stern seat may be wider, 1½ feet at K and
4 or 5 inches more at the long sides of the two boards each side of K
(Fig. 197). Of course, it is not necessary to fit a board in against
the stern-piece, for a cleat will answer the purpose, but a good, heavy
stern-piece is often desirable and the board shown in diagram N (Fig.
197) will serve to add strength to the stern as well as to furnish a
firm rest for the stern seat, but it will also add weight.

[Illustration: Fig. 198.

Fig. 199.--Fitting the skeg.]


The Keel-Board

is an advisable addition to the boat, but may also be omitted without
serious results (H, Fig. 197).

The keel-board should be 4½ inches wide, 1 inch thick, and should be
cut pointed, to fit snugly in the bow, and nailed in place along the
centre of the floor, before the seats are put in the boat. A similar
board along the bottom, joining the two cleats each side of the skeg
at _y_ (Fig. 199) and extending to the bow will prevent the danger of
loosening the bottom-planks when bumping over rifts, shallow places, or
when the boat needs to be hauled on a stony shore; this bottom-board
may also be omitted to save time and lumber and is not shown in the
diagram.


The Skeg

is a triangular board (Figs. 198 and 199), roughly speaking, of the
same dimensions as the pieces sawed from the side-board _b_, _c_, _d_
(Fig. 196). The stern-end will be about 7 inches wide and it will taper
off to nothing at _y_ (Fig. 198). The skeg is held in place by cleats
of 1-inch lumber, 2 inches wide, nailed to the bottom on each side
of the skeg. To get the proper dimensions experiment with the pieces
sawed from the A boards and cut your skeg board so that its bottom edge
will be level with the bottom at _y_ (Fig. 198); the diagonal line, to
correspond with the slant of the stern, can be accurately drawn if the
skeg is left untrimmed until it is fastened in place.

[Illustration: Fig. 200.

Fig. 201

Fig. 202

Rowlocks.]


To Fasten on the Skeg

rule a line from the centre of the stern to the centre of the bow and
toe-nail the skeg on along this line. This must be accurately done
or you will make a boat which will have an uncomfortable tendency to
move in circles. After toe-nailing the skeg to the bottom, nail the
two cleats, one on each side of the skeg, and let them fit as closely
as may be to the keel. Now saw off the stern-ends of the cleats and
lay a rule along the stern, as the stick is placed in Fig. 198, where
the boy has his finger; rule a pencil line across the protruding end
of the keel and saw off the end along the diagonal line, so that the
stern-cleat _z_ (Fig. 198) may be nailed in place to finish the work.

You can buy rowlocks of galvanized iron for about a quarter of a dollar
a pair; the brass ones are not expensive, but even when the store
furnishes the hardware there must be a firm support of some sort to
hold the rowlock.

If you use the manufactured article, to be found at any hardware store,
the merchant will supply you with the screws, plates, and rowlocks,
but he will not furnish you with the blocks for the holes in which the
spindles of the rowlocks fit. Fig. 202 shows a rude, but serviceable,
support for the lock made of short oaken posts much in vogue in
Pennsylvania, but Fig. 201 is much better, and if it is made of oak and
bolted to the sides of the boat it will last as long as the boat. Fig.
201 may be put upon either the outside or inside of the boat, according
to the width amidship.


A Guard Rail

or fender, of 1 by 2 inch lumber, alongside of and even with the top of
the side-boards, from bow to stern, gives finish and strength to the
craft; but in a cheap boat, or a hastily constructed one, this may be
omitted, as it is in these diagrams.

If you are building your boat out of the convenient reach of the
hardware shop, you must make your own rowlocks. Fig. 200 shows the
crude ones formerly used by the raftsmen for the Yankee pines, and
Figs. 203 and 204 show rowlocks made with the oaken or hard-wood
thole-pins fitting in holes cut for that purpose in the form of notches
(U, Fig. 204) in the side of the boat, or as spaces left between the
blocks, as shown by R (Fig. 203). When the side-boards A, A of the boat
are notched a cleat of hard wood 5 or 6 inches wide, and extending some
distance each side of the side-boards, must be used, as is shown by
diagram V (Fig. 204) and Fig. 203. The diagram R (Fig. 203) explains
itself; there is a centre block nailed to the side-board and two more
each side, leaving spaces for the thole-pins T (Fig. 203) to fit and
guarded by another piece (R) bolted through to the sides.

If bolts are out of your reach, nails and screws may act as
substitutes, and Fig. 204 will then be the best form of rowlock to
adopt.

To fix the place for rowlocks, seat yourself in the oarsman's seat,
grasp the oars as in rowing, and mark the place which best fits the
reach of your arms and oars as in rowing. It will probably be about 13
inches aft from the centre of the seat.


To Transform an Ordinary Skiff or Scow Into a Sailing-Boat

[Illustration: Fig. 203. Thole-pins.]

[Illustration: Fig. 204. Thole-pins.]

[Illustration: Fig. 205.]

It is necessary to build the centreboard box and cut a hole through the
bottom of the boat. For the average row-boat or skiff, you can make
the centreboard box about 48 inches long and not higher, of course,
than the gunwales of the boat. Make the box of 2-inch plank, and before
nailing the sides together coat the seams thoroughly with white lead so
as to prevent it from leaking. The centreboard should be made of 2-inch
plank, which when planed down and smoothed will be about 1-7/8 of an
inch thick, and the space in the box should be wide enough to allow
it to move freely up and down, with no danger of its jamming. A hole
should be cut in the bottom of the boat to correspond with the opening
in the centreboard box, which, with a 48-inch box, will probably be an
opening of 40 inches long and 1 inch wide. The centreboard is hinged
to the box by a bolt run through at the point marked A on Fig. 205.
The centreboard should move freely on the bolt, but the bolt itself
should fit tightly in the sides of the box, otherwise the water will
leak through. There will be no danger of the bolt's turning in its
socket if the hole through the centreboard through which the bolt is
thrust is made large enough. The centreboard box should be generously
painted with white lead on the bottom edges where it fits on the floor
of the boat around the centreboard hole. The bottom of the boat floor
should also be coated with white lead and over this a strip of muslin
spread before the box is securely nailed to the floor of the boat from
the bottom or under side of the boat. When this is done the muslin
covering the hole can be cut away with a sharp knife. A rope may then
be fastened to the loose end of the centreboard with a cross-stick
attached to the end of the rope to prevent it from slipping down the
hole in the box. With this rope the centreboard may be raised or
lowered to suit the pleasure of the sailor. (Fig. 205.)




CHAPTER XIII

A "ROUGH-AND-READY" BOAT

Just What One Must Do to Build It--Detailed Instructions as to How to
Make the Boat and How to Rig It


GOOD straight-grained pine wood is, without doubt, the best
"all-around" wood for general use. It is easily whittled with a
pocket-knife; it works smoothly under a plane; can be sawed without
fatiguing the amateur carpenter; it is elastic and pliable; therefore
use pine lumber to build your boat.

Examine the lumber pile carefully and select four boards nearly alike.
Do not allow the dealer or his men to talk you into taking lumber with
blemishes. The side pieces should be of straight-grained wood, with no
large knots and no "checks" (cracks) in them, and must not be "wind
shaken."

Measure the wood and see that it is over twenty-two feet long by one
foot four or five inches wide and one inch thick. Trim two of the
side-pieces until they are exact duplicates (Fig. 206). The stem-piece
(or bow-piece) should be made from a triangular piece of oak (Fig.
212), and it is wise to make it a few inches longer than will be
necessary, so that there may be no danger of finding, after all your
labor, that the stick is too short; much better too long, for it is a
simple matter to saw it off. Make a second stem-piece (Fig. 213) of oak
about one inch thick and the same length as the first, and two or three
inches wide, or twice as wide as the thickness of the side-boards.


The Stern-piece

The stern-piece can be fashioned out of two-inch pine boards, and
may be made as wide or narrow as you choose. A narrow stern makes a
trim-looking craft. With your saw cut off the corner of the tail-piece,
so that it will be in the form of a blunted triangle (Fig. 214),
measuring three feet ten and one-half inches across the base, three
feet four inches on each side, and nine and one-half inches at the
apex. The base of the triangle will be the top and the apex will be the
bottom of the stern-board of your boat.

[Illustration: Fig. 206.

Fig. 207.

Fig. 208.

Fig. 209.

Fig. 210.

Diagrams showing the construction of the rough-and-ready.]

Now make a brace on which to model your boat. Let it be of two-inch
pine wood, two and one-half feet wide and seven and one-half feet long
(Fig. 207). Measure twelve inches on one edge of this board from each
end toward the centre and mark the points; then rule lines from these
points diagonally across the width of the board (A, B and C, D--Fig.
207), and saw off the corners, as shown by the dotted line in Fig. 207.

Lay the boards selected for the lower side-boards on a level floor
and measure off one and one-half foot on the bottom edge, then in a
line with the end of the board mark a point on the floor that would
be the top edge of the board if the board were two and one-half feet
wide; rule a line from the point on the floor to the point marked on
the board and saw off the corner as marked; make the other side-piece
correspond exactly with the first (Fig. 206).


Use Rope for Binding

Set the side-pieces upon their bottoms or shorter edges and place the
brace between the sides. Now bind the stern ends with a rope and bring
the bow-pieces together until they touch; rope them in this position,
and when all is fast push the brace up until it rests at a point nine
feet from the bow; fasten it here with a couple of nails driven in,
but leaving their heads far enough from the wood to render it easy to
draw them out. Now adjust the bow-piece, and use the greatest of care
in making the sides exactly alike, otherwise you will wonder how you
happened to have such an unaccountable twist in your craft. When the
stem is properly adjusted fasten on the side-boards with screws. Do
not try to hammer the screws in place, but bore holes first and use a
screwdriver.

Take your stern-piece and measure the exact width of the stern end
of the bottom-boards and mark it at the bottom of the stern-piece;
or, better still, since the stern-board will set at an angle, put it
temporarily in place, bind it fast with the ropes, and mark with a
pencil just where the side-boards cross the ends of the stern-board.
Remove the stern-board and saw out a piece one inch wide, the thickness
of the bottom-board, from the place marked to the bottom of the
stern-board. Because the top side-board overlaps the bottom one at the
stern, there must be either a large crack left there or the stern-board
notched to fit the side-boards (Fig. 214). Replace the stern-board and
nail side-boards fast to it; now loosen the ropes which have held your
boat in shape, and fit on the upper side-boards so that at the stern
they will overlap the lower side-boards an inch. Hold in place with
your rope, then bring the bow end up against the stern-piece over the
top of the lower side-board and fasten it in place with a rope. With
your carpenter's pencil mark the overlap, and with a plane made for
that purpose, called a rabbet, trim down your board so that it will
have a shoulder and an overlap to rest on the bottom-board, running out
to nothing at the bow. When the boards fit all right over the lower
ones bind them in place and then nail them there (Fig. 208). If you can
obtain two good boards of the requisite size, you need have but one
board for each side of your boat; this will obviate the necessity of
using the rabbet, and be very much easier; but with single boards of
the required dimensions there is great danger of splitting or cracking
while bending the boards.

[Illustration: Fig. 215.

Fig. 211.

Figs. 212, 213, and 214.

The rough-and-ready.]


Planing the Bottom

Turn the boat upside down and you will see that there is a decided arch
extending from stem to stern. This would cause the boat to sink too
deep amidship, and must be remedied to some extent by cutting away the
middle of the arch, so that the sides in the exact centre will measure
at least four inches less in width than at the bow and stern, and
reducing the convex or curved form to a straight line in the middle,
which will give a sheer to the bow and stern. A good plane is the best
tool to use for this purpose, as with it there is no danger of cutting
too deep or of splitting the side-boards. Saw off the projecting ends
of the side-boards at the stern.

Make the bottom of three-quarter-inch boards, they may be bevelled like
Fig. 231. Lay the boards crosswise, nail them in place, leaving the
irregular ends projecting on each side. The reason for this is obvious.
When you look at the bottom of the boat you will at once see that
on account of the form no two boards can be the same shape, and the
easiest way is to treat the boat bottom as if it were a square-sided
scow. Fit the planks closely together, nail them on securely, and then
neatly saw off the projecting ends (Fig. 210).


The Deck

The brace may now be removed by carefully drawing the nails, so that
a bottom plank trimmed to fit the bow and the stern can be securely
nailed in place (Fig. 216). Cut a notch in your brace to fit tightly
over the bottom plank just laid. Plane off the top of the brace so that
when in the boat the top of the brace will be four inches below the top
of the side-boards. Replace the brace and securely nail it. Next cut
two small cross-pieces (F, G, Fig. 209) and place them near the bow,
four inches below the top of the sides of the boat. Drive the nails
from the outside through the side-boards into the end of F and G, the
cross-brace. Cut out a bow-piece to fit from the middle of G to the bow
and nail it in place, driving the nails from the outside into the edge
of the bow-piece. Fasten a small cleat along the boat from the solid
board brace to F on each side and deck the space over with light lumber.

Of the same material make a trap door to fit in between the braces F
and G. This door should be big enough for a boy to reach through, for
this compartment is intended as a safe place to store cooking utensils,
foods, etc., as well as a water-tight compartment. At a point five feet
from the stern put another cross-brace, similar to the ones in the bow,
four inches below the top of the sides. At the same level nail a cleat
on the stern-piece and make a stern seat by boarding over between the
cross-piece and the cleat. When your boat is resting securely on the
floor or level ground rig a temporary seat, then take an oar and by
experiment find just where the rowlock will be most convenient and mark
the spot. Also mark the spot best suited for the seat. On each side of
the spot marked for the rowlock cut two notches in the side-boards two
inches deep, one and a half inch wide, and three inches apart. Saw two
more notches exactly like these upon the opposite side of your boat.
These will make the rowlocks when the side-strips are nailed on (Fig.
216).

[Illustration: Fig. 216.--Top view of rough-and-ready, with tiller
stick.]

The side-strips should each be made of one-inch plank three inches wide
and a few inches longer than the side-boards. Nail the strips on the
outside of the boat flush with the top of the side-boards. Make your
thole-pins of some hard wood, and make two sets of them while you are
about it, "one set to use and one set to lose." Screw a hard-wood cleat
on the inside of your boat over each pair of rowlocks, as shown in Fig.
216.


Ready for the Water

Fasten the remaining bow-piece securely over the ends of your
side-boards, and the nose of your craft is finished.

Put a good, heavy keel on your boat by screwing it tightly in the stern
to the hard-wood rudder-post that is fastened to the centre of the
stern; bolt your keel with four iron bolts (Fig. 211) to the bottom
of the boat, and the ship is ready to launch, after which she can be
equipped with sails and oars.

Of course, you understand that all nail-holes and crevices should be
puttied up, and if paint is used, it must be applied before wetting the
boat. But if you have done your work well, there will be little need
of paint or putty to make it tight after the wood has swelled in the
water. Fasten your rudder on with hooks and screw-eyes, and make it as
shown in the diagram (Fig. 211). Step your mainmast in the bow through
a round hole in the deck and a square hole in the step, which must, of
course, be screwed tightly to the bottom before the bow is decked over.

Step your jigger or dandy mast in the stern after the same manner.
These masts should neither of them be very large, and are intended to
be removed at pleasure by unstepping them, that is, simply pulling them
out of their sockets. An outrigger will be found necessary for your
dandy-sail, and since the deck aft is below the sides of the boat, a
block of wood will have to be nailed to the deck to the starboard, or
right-hand, side of the rudder-post. If the builder chooses, he can
make the decks flush with the sides of the boat and thus avoid blocks.
A couple of staples for the out-rigger to slip through are next in
order. They must be fastened firmly in the block or stick of wood just
nailed to the deck. A similar arrangement can be made for the bowsprit,
but as it is a movable bowsprit, and the stem of the boat is in the
way, put it to the port, or left-hand, side of the stem of the craft
(Fig. 216).


How to Make the Sail

Secure for a sail material as strong as you can find, but it need not
be heavy. Unbleached muslin is cheap and will make good sails. Turn
over the edges and sew or hem them, as in the diagram. Make eyelets
like button-holes in the luff of the sail--that is, the edge of the
sail nearest the mast. Sew a small loop of rope in each corner of the
sail. Through the eyelets lace the luff of the sail to the mast.

From spruce or pine make a sprit two inches in diameter. For a
"sheet"--that is, the rope or line that you manage the sail with--tie a
good stout line about a dozen feet long to the loop in the loose corner
of the sail. Trim the upper end of the sprit to fit the loop in the top
of the sail and make a simple notch in the other end to hold the line
called the "snotter."

[Illustration: Fig. 217, with tiller.--Rudder lines.]

Now, as you can readily see by referring to Fig. 211, when the sprit
is pushed into the loop at the top of the sail the sail is spread. To
hold it in place make a cleat like the one in the diagram and bind it
firmly with a cord to the sprit; pass the snotter, or line, fastened to
the mast through the notch in the sprit up to the cleat and make fast,
and the sail is set. The jigger, or dandy, is exactly like the mainsail
except in size, and the sheet rope is run through a block or pulley at
the end of the outrigger and then made fast to a cleat near the man at
the rudder or helm. The jib is a simple affair hooked on a screw-eye
in the end of the bowsprit. The jib halyard, or line for hoisting the
jib, runs from the top of the jib through a screw-eye in the top of the
mast, down the port side of the mast to a cleat, where it is made fast.
When the jib is set the jib-sheets are fastened to a loop sewed in the
jib at the lower or loose end. There are two jib-sheets, one for each
side of the boat, so that one may be made fast and the other loosened,
according to the wind. The remaining details you must study out from
the diagrams or learn by experiment.


How to Reef Her

When the wind is high reef your sails by letting go the snotter and
pulling out the sprit. This will drop your peak and leave you with a
simple leg-of-mutton sail. Only use the jib in light weather.

In this boat, with a little knowledge of sailing, you may cruise for
weeks, lowering your sails at night and making a tent over the cock-pit
for a sleeping-room. Sails with boom and gaffs may be used if desired.




CHAPTER XIV

HOW TO BUILD CHEAP AND SUBSTANTIAL HOUSE-BOATS

Plans for a House-Boat that May Be a Camp or Built as Large as a Hotel


WHEN the great West of the United States began to attract immigrants
from the Eastern coast settlements, the Ohio River rolled between banks
literally teeming with all sorts of wild game and wilder men: then it
was that the American house-boat had its birth.

The Mississippi, Ohio, and their tributaries furnished highways for
easy travel, of which the daring pioneers soon availed themselves.

Lumber was to be had for the labor of felling the trees. From the
borders of the Eastern plantations to the prairies, and below the Ohio
to the Mississippi, and from the Great Lakes to the Gulf of Mexico, was
one vast forest of trees; trees whose trunks were unscarred by the axe,
and whose tall tops reached an altitude which would hardly be believed
by those of this generation, who have only seen second, third, or
fourth growth timber.

When the settlement of this new part of the country began it was not
long before each stream poured out, with its own flood of water,


A Unique Navy

There were keel-boats, built something like a modern canal-boat, only
of much greater dimensions; there were broad-horns, looking like Noak's
arks from some giant's toy-shop, and there were flat-boats and rafts,
the latter with houses built on them, all recklessly drifting, or
being propelled by long sweeps down the current into the great solemn,
unknown wilderness.

Every island, had it a tongue, could tell of wrecks; every point or
headland, of adventure.

The perils were great and the forest solemn, but the immigrants were
merry, and the squeaking fiddle made the red man rise up from his
hiding-place and look with wonder upon the "long knives" and their
squaws dancing on the decks of their rude crafts, as they swept by into
the unknown.

The advent of the steam-boat gradually drove the flat-boat, broad-horn,
keel-boat, and all the primitive sweep-propelled craft from the rivers,
but many of the old boatmen were loath to give up so pleasant a mode of
existence, and they built themselves house-boats, and, still clinging
to their nomadic habits, took their wives, and went to house-keeping on
the bosom of the waters they loved so well.

Their descendants now form what might well be called a race of
river-dwellers, and to this day their quaint little arks line the
shores of the Mississippi and its tributaries.


Some of These House-Boats

are as crudely made as the Italian huts we see built along the
railroads, but others are neatly painted, and the interiors are like
the proverbial New England homes, where everything is spick-and-span.

Like the driftwood, these boats come down the stream with every
freshet, and whenever it happens that the waters are particularly high
they land at some promising spot and earn a livelihood on the adjacent
water, by fishing and working aboard the other river-craft, or they
land at some farming district, and as the waters recede they prop up
and level their boats, on the bank, with stones or blocks of wood
placed under the lower corners of their homes.

The muddy waters, as they retire, leave a long stretch of fertile land
between the stranded house and the river, and this space is utilized
as a farm, where ducks, chickens, goats and pigs are raised and where
garden-truck grows luxuriantly.

From a boat their home has been transformed to a farm-house; but sooner
or later there will be another big freshet, and when the waters reach
the late farm-house, lo! it is a boat again, and goes drifting in its
happy-go-lucky way down the current. If it escapes the perils of snags
and the monster battering-rams, which the rapid current makes of the
drifting trees in the flood, it will land again, somewhere, down-stream.

Lately, while on a sketching trip through Kentucky, I was greatly
interested in these boats, and on the Ohio River I saw several making
good headway against the four-mile-an-hour current. This they did by
the aid of


Big Square Sails

spread on a mast planted near their bows, thus demonstrating the
practicability of the use of sails for house-boats.

The house-boats to be described in this article are much better adapted
for sailing than any of the craft used by the water-gypsies of the
Western rivers.

For open and exposed waters, like the large lakes which dot many of our
inland States, or the Long Island Sound on our coast, the following
plans of the American boy's house-boat will have to be altered, but the
alterations will be all in the hull. If you make the hull three feet
deep it will have the effect of lowering the cabin, while the head-room
inside will remain the same. Such a craft can carry a good-sized sail,
and weather any gale you are liable to encounter, even on the Sound,
during the summer months.

Since the passing away of the glorious old flat-boat days, idle people
in England have introduced the


House-Boat as a Fashionable Fad

which has spread to this country, and the boys now have a new source of
fun, as a result of this English fad.

There are still some nooks and corners left in every State in the
Union which the greedy pot-hunter and the devouring saw-mill have as
yet left undisturbed, and at such places the boy boatmen may "wind
their horns," as their ancestors did of old, and have almost as good
a time. But first of all they must have a boat, and for convenience
the American boy's house-boat will probably be found to excel either a
broad-horn or a flat-boat model, it being a link between the two.

The simplest possible house-boat is a Crusoe raft,[A] with a cabin near
the stern and a sand-box for a camp-fire at the bow. A good time can
be had aboard even this primitive craft. The next step in evolution is
the long open scow, with a cabin formed by stretching canvas over hoops
that reach from side to side of the boat (see Fig. 218).

[Illustration: Fig. 218.--A primitive house-boat.]

Every boy knows how to build


A Flat-Bottomed Scow

or at least every boy should know how to make as simple a craft as the
scow, but for fear some lad among my readers has neglected this part of
his education, I will give a few hints which he may follow.


Building Material

Select lumber that is free from large knots and other blemishes. Keep
the two best boards for the sides of your boat. With your saw cut
the side boards into the form of Fig. 219; see that they are exact
duplicates. Set the two pieces parallel to each other upon their
straight or top edges, as the first two pieces shown in Fig. 220. Nail
on an end-piece at the bow and stern, as the bumper is nailed in Figs.
221 and 222; put the bottom on as shown in Figs. 196 and 210, and you
have a simple scow.


Centrepiece

In Fig. 219 you will notice that there are two sides and a centrepiece,
but this centrepiece is not necessary for the ordinary open boat, shown
by Fig. 218. Here you have one of the simple forms of house-boat, and
you can make it of dimensions to suit your convenience. I will not
occupy space with the details of this boat, because they may be seen by
a glance at the diagrams, and my purpose is to tell you how to build
the American boy's house-boat, which is a more elegant craft than the
rude open scow, with a canvas-covered cabin, shown by Fig. 218.

[Illustration: Fig. 219.--Unfinished.]


The Sides of the House-Boat

are 16 feet long, and to make them you need some sound two-inch planks.
After selecting the lumber plane it off and make the edges true and
straight. Each side and the centrepiece should now measure exactly 16
feet in length by 14 inches in width, and about 2 inches thick. Cut off
from each end of each piece a triangle, as shown by the dotted lines
at G, H, I (Fig. 220); from H to G is 1 foot, and from H to I is 7
inches. Measure from H to I 7 inches, and mark the point. Then measure
from H to G, 12 inches, and mark the point. Then, with a carpenter's
pencil, draw a line from G to I, and saw along this line. Keep the two
best planks for the sides of your boat, and use the one that is left
for the centrepiece. Measure 2 feet on the top or straight edge of your
centrepiece, and mark the point A (Fig. 220). From A measure 8 feet 10
inches, and mark the point C (Fig. 220).

With a carpenter's square rule the lines A, B and C, D, and make them
each 10 inches long, then rule the line B, D (Fig. 220). The piece A,
B, C, D must now be carefully cut out: this can be done by using the
saw to cut A, B and D, C. Then, about 6 inches from A, saw another line
of the same length, and with a chisel cut the block out. You then have
room to insert a rip-saw, at B, and can saw along the line B, D until
you reach D, when the piece may be removed, leaving the space A, B, D,
C for the cabin of the boat (see Figs. 221 and 222.)

At a point 9 inches from the bow of the boat make a mark on the
centrepiece, and another mark 5 inches farther away, at F (Fig. 220).
With the saw cut a slit at each mark, 1 inch deep, and with a chisel
cut out, as shown by the dotted lines; do the same at E, leaving a
space of 1½ feet between the two notches, which are made to allow
the two planks shown in the plan (Fig. 221) to rest on. These planks
support the deck and the hatch, at the locker in the bow. The notches
at E and F are not on the side-boards, the planks being supported at
the sides by uprights, Figs. 221 and 222.

All that now remains to be done with the centrepiece is to saw some
three-cornered notches on bottom edge, one at bow, one at stern, and
one or two amidship; this is to allow the water which may leak in to
flow freely over the whole bottom, and to prevent it from gathering at
one side and causing your craft to rest upon an uneven keel.

[Illustration: Fig. 220.--Center board of house boat.]

[Illustration: Fig. 221.--Plan of house boat.]

Next select a level piece of ground near by and arrange the three
pieces upon some supports, as shown in Fig. 219, so that from outside
to outside of side-pieces it will measure just 8 feet across the bow
and stern. Of 1-inch board


Make Four End-Pieces

for the bow and stern (see A, A´, Fig. 219), to fit between the sides
and centrepiece. Make them each a trifle wider than H, I, Fig. 220,
so that after they have been fitted they can be trimmed down with a
plane, and bevelled on the same slant as the bottom at G, I, Fig. 220.
It being 8 feet between the outside of each centrepiece, and the sides
and the centrepiece being each 2 inches thick, that gives us 8 feet 6
inches, or 7½ feet as the combined length of A and A´ (Fig. 219). In
other words, each end-piece will be half of 7½ feet long--that is, 3
feet 9 inches long. After making the four end-pieces, each 3 feet 9,
by 9 inches, fit the ends in place so that there is an inch protruding
above and below. See that your bow and stern are perfectly square, and
nail with wire nails through the sides into A and A´; toe-nail at the
centrepiece--that is, drive the nails from the broad side of A and A´
slantingly, into the centrepiece, after which trim down with your plane
the projecting inch on bottom, to agree with the slant of the bottom of
the boat.


Now for the Bottom

This is simple work. All that is necessary is to have straight, true
edges to your one-inch planks, fit them together, and nail them in
place. Of course, when you come to the slant at bow and stern the
bottom-boards at each end will have to have a bevelled edge, to fit
snugly against the boards on the flat part of the bottom of the boat;
but any boy who is accustomed to shake the gray matter in his brain can
do this. Remember, scientists say that thought is the agitation of the
gray matter of the brain, and if you are going to build a boat or play
a good game of football you must shake up that gray stuff, or the other
boys will put you down as a "stuff." No boy can expect to be successful
in building a boat, of even the crudest type, unless he keeps his wits
about him, so I shall take it for granted that there are no "stuffs"
among my readers.

After the boards are all snugly nailed on the bottom, and fitted
together so that there are no cracks to calk up; the hull is ready to
have


The Bumpers

nailed in place, at bow and stern. See the plan, Fig. 221, and the
elevation, Fig. 222. The bumpers must be made of 2-inch plank, 8 feet
long by about 9 inches wide; wide enough to cover A and A´ of Fig. 219,
and to leave room for a bevel at the bottom edge to meet the slant of
the bow and stern, and still have room at the top to cover the edge of
the deck to the hull (see Fig. 222).

[Illustration: Fig. 222.--Cross-section of boat]


The Hull May Now Be Painted

with two coats of good paint, and after it is dry may be turned over
and allowed to rest on a number of round sticks, called rollers.

If you will examine Fig. 221 you will see there


Twenty-Odd Ribs

These are what are called two-by-fours-that is, 2 inches thick by 4
inches wide. They support the floor of the cabin and forward locker, at
the same time adding strength to the hull.

The ribs are each the same length as the end-board. A and A´ of Fig.
219, are nailed in place in the same manner. Each bottom-rib must
have a notch 2 inches deep cut in the bottom edge to allow the free
passage of water, so as to enable you to pump dry. Commencing at the
stern, the distance between the inside of the bumper and the first rib
is 1 foot 6 inches. This is a deck-rib, as may be seen by reference to
Figs. 221 and 222. After measuring 1½ foot from the bumper, on inside
of side-board, mark the point with a carpenter's pencil. Measure the
same distance on the centrepiece, and mark the point as before; then
carefully fit your rib in flush or even with the top of the side-piece,
and fasten it in place by nails driven through the side-board into the
end of the rib, and toe-nailed to centrepiece. Do the same with its
mate on the other side of centrepiece.


The Cabin of this House-Boat

is to fit in the space, A, B, D, C of the centrepiece, Fig. 220. There
is to be a one-inch plank at each end (see Fig. 222), next to which the
side-supports at each end of cabin fit. The supports are two-by-twos;
so, allowing 1 inch for the plank and 2 inches for the upright support,
the next pair of ribs will be just 3 inches from A B, Fig. 220, of the
centrepiece (see Figs. 221 and 222). The twin ribs at the forward end
of the cabin will be the same distance from D C, Fig. 220, as shown in
the plan and elevation, Figs. 221 and 222. This leaves five pairs of
ribs to be distributed between the front and back end of the cabin.
From the outside of each end-support to the inside of the nearest
middle-support is 2 feet 6 inches. Allowing 2 inches for the supports,
this will place the adjoining ribs 2 feet 8 inches from the outside of
the end-supports. The other ribs are placed midway between, as may be
seen by the elevation, Fig. 222.

There is another pair of


Deck-Ribs

at the forward end of the cabin, which are placed flush with the line
D, C, Fig. 220 (see Figs. 221 and 222). The two pairs of ribs in the
bow are spaced, as shown in the diagram. This description may appear
as if it was a complicated affair; but you will find it a simple thing
to work out if you will remember to allow space for your pump in the
stern, space for the end-planks at after and forward end of cabin, and
space for your uprights. The planks at after and forward end of cabin
are to box in the cabin floor.


The Boat May Now Be Launched

by sliding it over the rollers, which will not be found a difficult
operation.


The Plans Show Three Lockers

--two in the bow under the hatch and one under the rear bunk--but if it
is deemed necessary the space between-decks, at each side of the cabin,
may be utilized as lockers. In this space you can store enough truck
to last for months. A couple of doors in the plank at the front of the
cabin opening, under the deck, will be found very convenient to reach
the forward locker in wet weather.


The Keel

is a triangular piece of 2-inch board, made to fit exactly in the
middle of the stern, and had best be nailed in place before the boat
is launched (see Fig. 222). The keel must have its bottom edge flush
with the bottom of the boat, and a strip of hard-wood nailed on the
stern-end of the keel and bumper, as shown in the diagram. A couple of
strong screw-eyes will support the rudder.

After the boat is launched the


Side-Supports for the Cabin May Be Erected

These are "two-by-twos" and eight in number, and each 5 feet 9 inches
long. Nail them securely at their lower ends to the adjoining ribs. See
that they are plumb, and fasten them temporarily with diagonal pieces,
to hold the top ends in place, while you nail down the lower deck or
flooring.

Now fit and nail the two 1-inch planks in place, at the bow and
stern-end of the cabin, each of which has its top one inch above the
sides, even with the proposed deck (see dotted lines in Fig. 222).


Use Ordinary Flooring

or if that is not obtainable use ¾-inch pine boards, and run them
lengthwise from the bow to the front end of the cabin and along the
sides of the cabin. Then floor the cabin lengthwise from bow to stern.
This gives you a dry cabin floor, for there are 4 inches of space
underneath for bilge-water, which unless your boat is badly made and
very leaky, is plenty of room for what little water may leak in from
above or below. The two side-boards of the cabin floor must, of course,
have square places neatly cut out to fit the uprights of the cabin.
This may be done by slipping the floor-board up against the uprights
and carefully marking the places with a pencil where they will come
through the board, and then at each mark sawing two inches in the floor
plank, and cutting out the blocks with a chisel.


The Hatch

Now take a "four-by-four" and saw off eight short supports for the two
1-inch planks which support the hatch, Figs. 221 and 222. Toe-nail
the middle four-by-four to the floor in such a position that the two
cross-planks (which are made to fit in the notches E and F, Fig.
220) will rest on the supports. Nail the four other supports to the
side-boards of your boat, and on top of these nail the cross-planks, as
shown in the diagrams.

The boat is now ready for its


Upper Deck

of 1-inch pine boards. These are to be nailed on lengthwise, bow and
stern and at sides of cabin, leaving, of course, the cabin open, as
shown by the position of the boys in Fig. 222, and an opening, 3 feet
by 2, for the hatch (Fig. 221). The two floors will act as benches for
the uprights of the cabin, and hold them stiff and plumb.

To further stiffen the frame, make two diagonals for the stern-end, as
shown in Fig. 223, and nail them in place.


The Rafters

or roof-rods, should extend a foot each way beyond the cabin, hence cut
them two feet longer than the cabin, and after testing your uprights,
to see that they are exactly plumb, nail the two side roof-rods in
place (see dotted lines in Fig. 222). The cross-pieces at the ends, as
they support no great weight, may be fitted between the two side-rods,
and nailed there.

[Illustration: Fig. 223.--End view.]

The roof is to be made of ½-inch boards bent into a curve, and the
ridge-pole, or centre roof-rod, must needs have some support. This is
obtained by two short pieces of 2 by 4, each 6 inches long, which are
toe-nailed to the centre of each cross-rod, and the ridge-pole nailed
to their tops. At 3 feet from the upper deck the side frame-pieces
are toe-nailed to the uprights. As may be seen, there are three
two-by-fours on each side (Fig. 222).

The space between the side frame-pieces, the two middle uprights, and
side roof-rods, is where the windows are to be placed.

Use ½-inch (tongue and groove preferred) pine boards for sidings, and


Box In Your Cabin

neatly, allowing space for windows on each side, as indicated. Leave
the front open. Of the same kind of boards make your roof; the boards
being light you can bend them down upon each side and nail them to
the side roof-rods, forming a pretty curve, as may be seen in the
illustration of the American boy's house-boat.


This Roof

to be finished neatly and made entirely water-proof, should be covered
with tent-cloth or light canvas, smoothly stretched over and tacked
upon the under side of the projecting edges. Three good coats of paint
will make it water-proof and pleasant to look upon.

The description, so far, has been for a neatly finished craft, but I
have seen very serviceable and comfortable house-boats built of rough
lumber, in which case the curved roof, when they had one, had narrow
strips nailed over the boards where they joined each other or was
covered with tar-paper.

[Illustration: Fig. 224.--End view.]


To Contrive a Movable Front

to your cabin, make two doors to fit and close the front opening,
but in place of hanging the doors on hinges, set them in place. Each
door should have a good strong strap nailed securely on the inside,
for a handle, and a batten or cross-piece at top and bottom of inside
surface. A 1½ by 4, run parallel to the front top cross-frame and
nailed there, just a sufficient distance from it to allow the top
of the door to be inserted between, will hold the top of the door
securely. A two-by-four, with bolt-holes near either end to correspond
with bolt-holes in the floor, will hold the bottom when the door is
pushed in place, the movable bottom-piece shoved against it and the
bolts thrust in (see Fig. 225, view from inside of cabin. Fig. 226,
side view). It will be far less work to break in the side of the cabin
than to burst in such doors, if they are well made. These doors possess
this advantage: they can be removed and used as table-tops, leaving
the whole front open to the summer breeze, or one may be removed, and
still allow plenty of ventilation. A moulding on deck around the cabin
is not necessary, but it will add finish and prevent the rain-water
from leaking in.

To lock up the boat you must set the doors from the inside, and if you
wish to leave the craft locked you must crawl out of the window and
fasten the latter with a lock.

[Illustration: Fig. 225.--Inside view of door.]

[Illustration: Fig 226--Side view of door.]

Fig. 227 shows the construction of


The Rudder

and also an arrangement by which it may be worked from the front of the
boat, which, when the boat is towed, will be found most convenient.

The hatch should be made of 1-inch boards, to fit snugly flush with the
deck, as in the illustration, or made of 2-inch plank, and a moulding
fitted around the opening, as shown in Fig. 222.


A Pair of Rowlocks

made of two round oak sticks with an iron rod in their upper ends,
may be placed in holes in the deck near the bow, and the boat can be
propelled by two oarsmen using long "sweeps," which have holes at the
proper places to fit over the iron rods projecting from the oaken
rowlocks. These rowlocks may be removed when not in use, and the holes
closed by wooden plugs, while the sweeps can be hung at the side of the
cabin, under its eaves, or lashed fast to the roof.

[Illustration: Fig. 227.--Side elevation.]


Two or More Ash Poles

for pushing or poling the boat over shallow water or other difficult
places for navigation are handy, and should not be left out of the
equipment. The window-sashes may be hung on hinges and supplied with
hooks and screw-eyes to fasten them open by hooking them to the eaves
when it is desired to let in the fresh air. All window openings should
be protected by wire netting to keep out insects.

Two bunks can be fitted at the rear end of the cabin, one above the
other, the bottom bunk being the lid to a locker (see Fig. 222).


The Locker

is simply a box, the top of which is just below the deck-line and
extending the full width of the cabin. It has hinges at the back, and
may be opened for the storage of luggage.

Over the lid blankets are folded, making a divan during the day and a
bed at night.

The top bunk is made like the frame of a cheap cot, but in place of
being upholstered it has a strong piece of canvas stretched across it.
This bunk is also hinged to the back of the cabin, so that when not in
use it can be swung up against the roof and fastened there as the top
berth in a sleeping-car is fastened. Four 4 by 4 posts can be bolted
to the side-support at each corner of the bottom bunk; they will amply
support the top bunk, as the legs do a table-top when the frame is
allowed to rest upon their upper ends. This makes accommodation for
two boys, and there is still room for upper and lower side bunks, the
cabin being but six feet wide. If you put bunks on both sides you will
be rather crowded, it is true, but by allowing a 1-foot passage in the
middle, you can have two side bunks and plenty of head room. This will
accommodate four boys, and that is a full crew for a boat of this size.

On board a yacht I have often seen four full-grown men crowded into a
smaller space in the cabin, while the sailormen in the fo'-castle had
not near that amount of room.


A More Simple Set of Plans

Here the cabin is built on top of the upper deck, and there are no
bottom-ribs, the uprights being held in place by blocks nailed to the
bottom of the boat, and by the deck of the boat. This is secure enough
for well-protected waters, small lakes, and small streams. Upon the
inland streams of New York State I have seen two-story house-boats, the
cabin, or house, being only a framework covered with canvas. One such
craft I saw in central New York, drifting downstream over a shallow
riff, and as it bumped along over the stones it presented a strange
sight. The night was intensely dark, and the boat brightly lighted. The
lights shone through the canvas covering, and this big, luminous house
went bobbing over the shallow water, while shouts of laughter and the
"plinky-plunk" of a banjo told in an unmistakable manner of the jolly
time the crew were having.


Canvas-Cabined House-Boat

If you take an ordinary open scow and erect a frame of uprights and
cross-pieces, and cover it with canvas, you will have just such a boat
as the one seen in central New York. This boat may be propelled by
oars, the rowers sitting under cover, and the canvas being lifted at
the sides to allow the sweeps to work; but of course it will not be as
snug as the well-made American boy's house-boat, neither can it stand
the same amount of rough usage, wind, and rain as the latter boat.

In the frontispiece the reader will notice a stove-pipe at the stern;
there is room for a small stove back of the cabin, and in fair weather
it is much better to cook outside than inside the cabin. When you tie
up to the shore for any length of time, a rude shelter of boughs and
bark will make a good kitchen on the land, in which the stove may be
placed, and you will enjoy all the fun of a camp, with the advantage of
a snug house to sleep in.

For the benefit of boys who doubt their ability to build a boat of
this description, it may be well to state that other lads have used
these directions and plans with successful results, and their boats now
gracefully float on many waters, a source of satisfaction and pride to
their owners.


Information for Old Boys

On all the Western rivers small flat-boats or scows are to be had at
prices which vary in accordance with the mercantile instincts of the
purchaser, and with the desire of the seller to dispose of his craft.
Such boats are propelled by "sweeps," a name used to designate the long
poles with boards on their outer edges that serve as blades and form
the oars. These boats are often supplied with a deck-house, extending
almost from end to end, and if such a house is lacking one may be
built with little expense. The cabin may be divided into rooms and the
sleeping apartments supplied with cheaply made bunks. It is not the
material of the bunk which makes it comfortable--it is the mattress
in the bunk upon which your comfort will depend. The kitchen and
dining-room may be all in one. An awning spread over the roof will make
a delightful place in which to lounge and catch the river breezes.


The Cost of House-Boats

The cost of a ready-made flat-bottomed house-boat is anywhere from
thirty dollars to one or more thousands. In Florida such a boat, 40
by 20 feet, built for the quiet waters of the St. John's River or its
tributaries, or the placid lagoons, will cost eight hundred dollars.
This boat is well painted outside and rubbed down to a fine oil finish
inside; it has one deck, and the hull is used for toilet apartments
and state-rooms; the hull is well calked and all is in good trim. Such
expense is, however, altogether unnecessary--there need be no paint or
polish. All you need is a well-calked hull and a water-tight roof of
boards or canvas overhead; cots or bunks to sleep in; chairs, stools,
boxes or benches to sit on; hammocks to loll in, and a good supply of
provisions in the larder.

House-boats for the open waters are necessarily more expensive. As a
rule they need round bottoms that stand well out of the water, and
are built like the hull of a ship. These boats cost as much to build
as a small yacht. From twelve to fifteen hundred dollars will build a
good house-boat, with comfortable sleeping-berths, toilet-rooms and
store-rooms below; a kitchen, dining-room, and living-rooms on the
cabin deck, with wide, breezy passageways separating them.

If a bargain can be found in an old schooner with a good hull, for two
or three hundred dollars, a first-class house-boat can be made by the
expenditure of as much more for a cabin. The roofs of all house-boats
should extend a foot or more beyond the sides of the cabin.


For People of Limited Means

For people with little money to spend, these expensive boats are as
much out of reach as a yacht, but they may often be rented for prices
within the means of people in moderate circumstances. At New York I
have known a good schooner-yacht, 84 feet over all, to be chartered for
two weeks, with crew of skipper and two men, the larder plentifully
supplied with provisions and luxuries for six people and the crew,
making nine in all, at a cost of thirty-six dollars apiece for each of
the six passengers. An equally good house-boat should not cost over
twelve dollars a week per passenger for a party of ten. In inland
waters, if a boat could be rented, the cost should not exceed seven or
eight dollars a week per passenger.

A canal-boat is a most excellent house-boat for a pleasure party,
either on inland streams or along our coast.


Street-Car Cabins

Since the introduction of cable and trolley-cars the street-car
companies have been selling their old horse-cars, in some instances at
figures below the cost of the window-glass in them; so cheap, in fact,
that poor people buy them to use as woodsheds and chicken-coops.

One of these cars will make an ideal cabin for a house-boat, and can be
adapted for that purpose with little or no alterations. All it needs is
a good flat-boat to rest in, and you have a palatial house-boat.

FOOTNOTE:

[A] See p. 10.




CHAPTER XV

A CHEAP AND SPEEDY MOTOR-BOAT

    How To Build the Jackson Glider--A Very Simple Form of
    Motor-Boat, Which Will Hold Its Own in Speed With Even
    Expensive Boats of Double Horse-Power


THIS boat is intended to slide over the top of the water and not
through it, consequently it is built in the form of a flat-bottom scow.
Order your wood dressed on both sides, otherwise it will come with one
side rough. For the side-boards we need two pine, or cedar boards, to
measure, when trimmed, 14 feet (Fig. 228), and to be 16 or 18 inches
wide.


The Stern-Board

when trimmed, will be 2½ feet long by 1 foot, 8½ inches wide. It may
even be a little wider, because the protruding part can be planed down
after the boat is built (Fig. 229).

To make the bow measure from the point E (Fig. 228) 1 foot 8½ inches
and mark the point C. Measure along the same line 13½ inches and mark
the point D. Next measure from B down along the edge of the boat one
inch and mark the point F. Again measure down from B, 5¾ inches and
mark the point G. With a carpenter's pencil draw the lines F D and G C
and saw these pieces off along the dotted line (Fig. 232). The bow can
then be rounded at the points A and B with a sharp knife or jackplane.

To get the proper slant on the stern, measure from H 4½ inches to L and
saw off the triangle LHK. Make the other side board an exact duplicate
of the first one, as in Fig. 228. Next set these two boards on edge,
like sledge runners (Fig. 230), and let them be 2 feet, 6 inches apart
(the boat will be safer if made six inches wider, and its speed will
be almost as great), which can be tested by fitting the stern-boards
between them before nailing the temporary boards on, which are to hold
them in place (Fig. 230). Do not drive the nails home, but leave the
heads protruding on all temporary braces, so that they may be easily
removed when necessary.

[Illustration]

[Illustration: Fig. 228.]

[Illustration: Fig. 229.]

[Illustration: Fig. 230.--Parts of motor-boat.]

Now turn the boat bottom side up and nail the bottom on, as already
described in previous chapters (Fig. 232). The bottom-boards are to
be so planed upon their edges that they leave V-shaped grooves on the
inside of the boat to be calked with candlewick and putty (Fig. 231).
Next make a shaft-log by cutting a board in a triangular piece, as
shown in Fig. 233, and nailing two other pieces of board on it, and
leaving a space for the shaft-rod, over which is nailed a duplicate
of the bottom-board, as shown in Fig. 234. Make the shaft-log of three
thicknesses of 1-inch plank. To make it more secure there should be a
board nailed on the inside bottom of the boat, as shown in Fig. 235 by
the dotted lines.

This board is put there to strengthen the bottom and allow us to cut a
slot through for the admission of a shaft (Fig. 236) which is drawn on
a scale shown below it. With the engine comes a stuffing box, through
which the shaft passes and which prevents the water from coming up
through the shaft-hole. The stuffing boxes, which are furnished to fit
upon the inside of the boat, are expensive, but one to fit upon the
stern of the shaft-log costs but little, and will answer all purposes.

[Illustration: Fig. 231.]

Of course, when attaching the shaft-log to the bottom, it must be in
the exact centre of the boat. Find the centre of the boat at the bow
and stern, mark the points and snap a chalk-line between them. Now
place the shaft-log in position on this line and while holding that
there firmly, mark around it with a carpenter's pencil. Next lay the
shaft-log flat on its side with its edge along this line and with
your pencil mark on the bottom of the boat the exact place where the
shaft-hole must be cut to correspond with the one in the shaft-log.
As may be seen by Fig. 236, the shaft runs through at an acute angle;
hence the hole must be bored on a slant, or better still a slot cut
through the floor long enough to allow for the slant.

[Illustration: Fig. 232.

Fig. 233.

Fig. 234.

Fig. 239.

Fig. 235.

Fig. 236.

Fig. 237.

Fig. 238.

Details of motor-boat.]

The leak, which would naturally occur here is prevented by the stuffing
box which is fastened on to the stern-end of the shaft-log where the
latter protrudes for the propeller. To set the engine in the boat it is
necessary to have an engine-bed. This is made of two pieces of board
cut diagonally, upon which the engine rests.

Fig. 237 shows a piece of 2-inch board and a method of sawing it to
make the duplicate pieces to form the engine-bed. The dimension of
these pieces must be obtained by measuring the width of the engine
rest, which is to be installed. The angle, of course, must correspond
to the angle of the shaft.

Make your own rudder of any shape that suits your fancy, square or
paddle-shaped, of a piece of galvanized iron or of wood, as shown in
the diagram; or you can simply fasten the rudder-stem to the transom
(stern-board), as is often done on row-boats and sail-boats. If you
desire to make your rudder like the one shown here, use two pieces
of galvanized pipes for your rudder-posts, one of which fits loosely
inside of the other. Make the rudder-posts of what is known as 3/8-inch
(which means literally a 3/8-inch opening) and for its jacket use a
¾-inch pipe, or any two kinds of pipe, which will allow one to turn
loosely inside the other. The smaller pipe can be bent easily by hand
to suit your convenience, after it has been thrust through the larger
pipe.

First bend the lower end of the small pipe to fit your proposed rudder,
then remove the larger pipe and flatten the lower end of the small one
by beating it with the hammer. To bore the screw-holes in the flattened
end you will use a small tool for drilling metal. One of these drills,
which will fit any carpenter's brace, can be procured for the cost of a
few cents.

Drill holes through the flattened end of your pipe for the reception of
your screws, which are to secure it to the rudder. It is now necessary
to fasten a block of 2-inch plank securely to the bottom of the boat
upon the inside where the rudder-post is to be set. This block might
best be secured on with four bolts. A hole is then bored through the
block and the bottom of the boat a trifle smaller than the largest
piece of pipe; the latter is supposed to have screw threads upon its
lower end (Fig. 238) so that it may be screwed into the wood, but
before doing so coat the threads with white lead and also the inside of
the hole in the block with the same substance.

When the larger pipe is now screwed into the block until its lower end
is flushed with the outside bottom of the boat, the white lead will not
only make the process easier, but will tend to keep out the moisture
and water from the joint.

From the outside thrust the upper end of the small pipe through the
hole in the bottom until it protrudes the proper distance above the
larger pipe, and with the point of a nail scratch a mark on the surface
of the small pipe where it issues from the big one. At this point drill
a hole through the small pipe to admit a nail which is to act as a peg
to keep the helm from sliding down and jamming in its bearings.

If you choose, a small seat or deck may be inserted in the stern,
through which the helm extends and which will help to steady it. The
top of the helm, or protruding ends of the small pipe may now be bent
over toward the bow, as shown in the diagram, and by holding some hard
substance under it, the end may be flattened with a hammer and two
holes drilled through the flattened end for the rudder-line, as in Fig.
239. These lines work the rudder and extend on each side of the boat
through some clothes-lines pulleys, as shown in Fig. 239.

If you slice off the ring from a common rubber hose and slip it
over the inside pipe before you fasten it in place, it will prevent
the water from spurting up through the rudder pipe when the boat is
speeding.

Any boat will leak if not carefully built and the simplest kind of a
craft carefully put together is as water-tight as the most finished and
expensive boat.

For a gasoline tank any good galvanized iron vessel will answer if
it holds five gallons or more of gasoline. It can be placed in the
bow on a rest made for it. Of course the bottom of the tank must be
on a level or higher than the carburetor of the engine; the tank is
connected by a small copper, or block-tin pipe, which you procure with
the engine.

This boat, if built according to plans, should cost ten dollars or
less, not counting the cost of the engine. The cost of the latter will
vary according to the style of one you use, and whether you get it
first or second hand.

A ten-horse power engine drove a boat of this kind at the rate of
eighteen miles an hour.

For beginners, this is as far as it is safe to go in boat-building, but
thus far any one with a rudimentary knowledge of the use of tools can
go, and, if one has followed the book through from chapter to chapter
he should be a good boat-builder at

    The End




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[Illustration]


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    present at Christmas, on a birthday, or indeed at any
    time."--_The Outlook._


THE BOY PIONEERS. Sons of Daniel Boone

    _Illustrated by the author_

    "How to become a member of the 'Sons of Daniel
    Boone' and take part in all the old pioneer
    games, and many other things in which boys are
    interested."--_Philadelphia Press._


THE BLACK WOLF-PACK

    "A genuine thriller of mystery and red-blooded
    conflicts, well calculated to hold the mind and the
    heart of its boy and, for that matter, its adult
    reader."--_Philadelphia North American._




THE BEARD BOOKS FOR GIRLS

_By_ LINA BEARD _and_ ADELIA B. BEARD

[Illustration]


THE AMERICAN GIRL'S HANDY BOOK. How to Amuse Yourself and Others

    _With nearly 500 illustrations_

    "It is a treasure which, once possessed, no practical
    girl would willingly part with."--GRACE GREENWOOD.


THINGS WORTH DOING AND HOW TO DO THEM

    _With some 600 drawings by the authors that show exactly how they
    should be done_

    "The book will tell you how to do nearly anything that
    any live girl really wants to do."--_The World To-day._


HANDICRAFT AND RECREATION FOR GIRLS

    _With over 700 illustrations by the authors_

    "It teaches how to make serviceable and useful things
    of all kinds out of every kind of material. It also
    tells how to play and how to make things to play
    with."--_Chicago Evening Post._


WHAT A GIRL CAN MAKE AND DO. New Ideas for Work and Play

    _With more than 300 illustrations by the authors_

    "It would be a dull girl who could not make herself
    busy and happy following its precepts. . . . A most
    inspiring book for an active-minded girl."--_Chicago
    Record-Herald._

ON THE TRAIL

    _Illustrated by the authors_

    This volume tells how a girl can live outdoors, camping
    in the woods, and learning to know its wild inhabitants.


MOTHER NATURE'S TOY SHOP

    _Profusely illustrated by the authors_

    How children can make toys easily and economically from
    wild flowers, grasses, green leaves, seed-vessels,
    fruits, etc.


LITTLE FOLKS' HANDY BOOK

    _With many illustrations_

    Contains a wealth of devices for entertaining children
    by means of paper building-cards, wooden berry-baskets,
    straw and paper furniture, paper jewelry, etc.

    CHARLES SCRIBNER'S SONS, NEW YORK




       *       *       *       *       *




Transcriber's note:

Punctuation errors were corrected.

Inconsistent hyphenation was retained.

Page 42, "staps" changed to "straps" (straps with your hand)

Page 58, "mechancial" changed to "mechanical" (with mechanical aid)