Self Help, Samuel Smiles [good romance books to read .txt] 📗
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be made by a bold venture, the common highway of steady industry
and application is the only safe road to travel. It is said of the
landscape painter Wilson, that when he had nearly finished a
picture in a tame, correct manner, he would step back from it, his
pencil fixed at the end of a long stick, and after gazing earnestly
on the work, he would suddenly walk up and by a few bold touches
give a brilliant finish to the painting. But it will not do for
every one who would produce an effect, to throw his brush at the
canvas in the hope of producing a picture. The capability of
putting in these last vital touches is acquired only by the labour
of a life; and the probability is, that the artist who has not
carefully trained himself beforehand, in attempting to produce a
brilliant effect at a dash, will only produce a blotch.
Sedulous attention and painstaking industry always mark the true
worker. The greatest men are not those who “despise the day of
small things,” but those who improve them the most carefully.
Michael Angelo was one day explaining to a visitor at his studio,
what he had been doing at a statue since his previous visit. “I
have retouched this part—polished that—softened this feature—
brought out that muscle—given some expression to this lip, and
more energy to that limb.” “But these are trifles,” remarked the
visitor. “It may be so,” replied the sculptor, “but recollect that
trifles make perfection, and perfection is no trifle.” So it was
said of Nicholas Poussin, the painter, that the rule of his conduct
was, that “whatever was worth doing at all was worth doing well;”
and when asked, late in life, by his friend Vigneul de Marville, by
what means he had gained so high a reputation among the painters of
Italy, Poussin emphatically answered, “Because I have neglected
nothing.”
Although there are discoveries which are said to have been made by
accident, if carefully inquired into, it will be found that there
has really been very little that was accidental about them. For
the most part, these so-called accidents have only been
opportunities, carefully improved by genius. The fall of the apple
at Newton’s feet has often been quoted in proof of the accidental
character of some discoveries. But Newton’s whole mind had already
been devoted for years to the laborious and patient investigation
of the subject of gravitation; and the circumstance of the apple
falling before his eyes was suddenly apprehended only as genius
could apprehend it, and served to flash upon him the brilliant
discovery then opening to his sight. In like manner, the
brilliantly-coloured soap-bubbles blown from a common tobacco pipe-
-though “trifles light as air” in most eyes—suggested to Dr. Young
his beautiful theory of “interferences,” and led to his discovery
relating to the diffraction of light. Although great men are
popularly supposed only to deal with great things, men such as
Newton and Young were ready to detect the significance of the most
familiar and simple facts; their greatness consisting mainly in
their wise interpretation of them.
The difference between men consists, in a great measure, in the
intelligence of their observation. The Russian proverb says of the
non-observant man, “He goes through the forest and sees no
firewood.” “The wise man’s eyes are in his head,” says Solomon,
“but the fool walketh in darkness.” “Sir,” said Johnson, on one
occasion, to a fine gentleman just returned from Italy, “some men
will learn more in the Hampstead stage than others in the tour of
Europe.” It is the mind that sees as well as the eye. Where
unthinking gazers observe nothing, men of intelligent vision
penetrate into the very fibre of the phenomena presented to them,
attentively noting differences, making comparisons, and recognizing
their underlying idea. Many before Galileo had seen a suspended
weight swing before their eyes with a measured beat; but he was the
first to detect the value of the fact. One of the vergers in the
cathedral at Pisa, after replenishing with oil a lamp which hung
from the roof, left it swinging to and fro; and Galileo, then a
youth of only eighteen, noting it attentively, conceived the idea
of applying it to the measurement of time. Fifty years of study
and labour, however, elapsed, before he completed the invention of
his Pendulum,—the importance of which, in the measurement of time
and in astronomical calculations, can scarcely be overrated. In
like manner, Galileo, having casually heard that one Lippershey, a
Dutch spectacle-maker, had presented to Count Maurice of Nassau an
instrument by means of which distant objects appeared nearer to the
beholder, addressed himself to the cause of such a phenomenon,
which led to the invention of the telescope, and proved the
beginning of the modern science of astronomy. Discoveries such as
these could never have been made by a negligent observer, or by a
mere passive listener.
While Captain (afterwards Sir Samuel) Brown was occupied in
studying the construction of bridges, with the view of contriving
one of a cheap description to be thrown across the Tweed, near
which he lived, he was walking in his garden one dewy autumn
morning, when he saw a tiny spider’s net suspended across his path.
The idea immediately occurred to him, that a bridge of iron ropes
or chains might be constructed in like manner, and the result was
the invention of his Suspension Bridge. So James Watt, when
consulted about the mode of carrying water by pipes under the
Clyde, along the unequal bed of the river, turned his attention one
day to the shell of a lobster presented at table; and from that
model he invented an iron tube, which, when laid down, was found
effectually to answer the purpose. Sir Isambert Brunel took his
first lessons in forming the Thames Tunnel from the tiny shipworm:
he saw how the little creature perforated the wood with its well-armed head, first in one direction and then in another, till the
archway was complete, and then daubed over the roof and sides with
a kind of varnish; and by copying this work exactly on a large
scale, Brunel was at length enabled to construct his shield and
accomplish his great engineering work.
It is the intelligent eye of the careful observer which gives these
apparently trivial phenomena their value. So trifling a matter as
the sight of seaweed floating past his ship, enabled Columbus to
quell the mutiny which arose amongst his sailors at not discovering
land, and to assure them that the eagerly sought New World was not
far off. There is nothing so small that it should remain
forgotten; and no fact, however trivial, but may prove useful in
some way or other if carefully interpreted. Who could have
imagined that the famous “chalk cliffs of Albion” had been built up
by tiny insects—detected only by the help of the microscope—of
the same order of creatures that have gemmed the sea with islands
of coral! And who that contemplates such extraordinary results,
arising from infinitely minute operations, will venture to question
the power of little things?
It is the close observation of little things which is the secret of
success in business, in art, in science, and in every pursuit in
life. Human knowledge is but an accumulation of small facts, made
by successive generations of men, the little bits of knowledge and
experience carefully treasured up by them growing at length into a
mighty pyramid. Though many of these facts and observations seemed
in the first instance to have but slight significance, they are all
found to have their eventual uses, and to fit into their proper
places. Even many speculations seemingly remote, turn out to be
the basis of results the most obviously practical. In the case of
the conic sections discovered by Apollonius Pergaeus, twenty
centuries elapsed before they were made the basis of astronomy—a
science which enables the modern navigator to steer his way through
unknown seas and traces for him in the heavens an unerring path to
his appointed haven. And had not mathematicians toiled for so
long, and, to uninstructed observers, apparently so fruitlessly,
over the abstract relations of lines and surfaces, it is probable
that but few of our mechanical inventions would have seen the
light.
When Franklin made his discovery of the identity of lightning and
electricity, it was sneered at, and people asked, “Of what use is
it?” To which his reply was, “What is the use of a child? It may
become a man!” When Galvani discovered that a frog’s leg twitched
when placed in contact with different metals, it could scarcely
have been imagined that so apparently insignificant a fact could
have led to important results. Yet therein lay the germ of the
Electric Telegraph, which binds the intelligence of continents
together, and, probably before many years have elapsed, will “put a
girdle round the globe.” So too, little bits of stone and fossil,
dug out of the earth, intelligently interpreted, have issued in the
science of geology and the practical operations of mining, in which
large capitals are invested and vast numbers of persons profitably
employed.
The gigantic machinery employed in pumping our mines, working our
mills and manufactures, and driving our steam-ships and
locomotives, in like manner depends for its supply of power upon so
slight an agency as little drops of water expanded by heat,—that
familiar agency called steam, which we see issuing from that common
tea-kettle spout, but which, when put up within an ingeniously
contrived mechanism, displays a force equal to that of millions of
horses, and contains a power to rebuke the waves and set even the
hurricane at defiance. The same power at work within the bowels of
the earth has been the cause of those volcanoes and earthquakes
which have played so mighty a part in the history of the globe.
It is said that the Marquis of Worcester’s attention was first
accidentally directed to the subject of steam power, by the tight
cover of a vessel containing hot water having been blown off before
his eyes, when confined a prisoner in the Tower. He published the
result of his observations in his ‘Century of Inventions,’ which
formed a sort of text-book for inquirers into the powers of steam
for a time, until Savary, Newcomen, and others, applying it to
practical purposes, brought the steam-engine to the state in which
Watt found it when called upon to repair a model of Newcomen’s
engine, which belonged to the University of Glasgow. This
accidental circumstance was an opportunity for Watt, which he was
not slow to improve; and it was the labour of his life to bring the
steam-engine to perfection.
This art of seizing opportunities and turning even accidents to
account, bending them to some purpose is a great secret of success.
Dr. Johnson has defined genius to be “a mind of large general
powers accidentally determined in some particular direction.” Men
who are resolved to find a way for themselves, will always find
opportunities enough; and if they do not lie ready to their hand,
they will make them. It is not those who have enjoyed the
advantages of colleges, museums, and public galleries, that have
accomplished the most for science and art; nor have the greatest
mechanics and inventors been trained in mechanics’ institutes.
Necessity, oftener than facility, has been the mother of invention;
and the most prolific school of all has been the school of
difficulty. Some of the very best workmen have had the most
indifferent tools to work with. But it is not tools that make the
workman, but the trained skill and perseverance of the man himself.
Indeed it is proverbial that the bad workman never yet had a good
tool. Some one asked Opie by what wonderful process he mixed his
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