How to Get on in the World by Alfred Rochefort Calhoun (inspiring books for teens .TXT) π
It would be well for every young man, eager for success and anxious to form a character that will achieve it, to commit to memory the advice of Bishop Middleton:
Persevere against discouragements. Keep your temper. Employ leisure in study, and always have some work in hand. Be punctual and methodical in business, and never procrastinate. Never be in a hurry. Preserve self-possession, and do not be talked out of a conviction. Rise early, and be an economist of time. Maintain dignity without the appearance of pride; manner is something with everybody, and everything with some. Be guarded in discourse, attentive, and slow to speak. Never acquiesce in immoral or pernicious opinions.
Be not forward to assign reasons to those who have no right to ask. Think nothing in conduct unim
Read free book Β«How to Get on in the World by Alfred Rochefort Calhoun (inspiring books for teens .TXT) πΒ» - read online or download for free at americanlibrarybooks.com
- Author: Alfred Rochefort Calhoun
- Performer: -
Read book online Β«How to Get on in the World by Alfred Rochefort Calhoun (inspiring books for teens .TXT) πΒ». Author - Alfred Rochefort Calhoun
Stothard learnt the art of combining colors by closely studying butterflies' wings: he would often say that no one knew what he owed to those tiny insects. A burnt stick and a barn door served Wilkie in lieu of pencil and canvas. Bewiek first practiced drawing on the cottage walls of his native village, which he covered with his sketches in chalk; and Benjamin Watt made his first brushes out of the cat's tail. Ferguson laid himself down in the fields at night in a blanket, and made a map of the heavenly bodies by means of a thread with small beads on it stretched between his eye and the stars. Franklin first robbed the thundercloud of its lightning by means of a kite made with two cross-sticks and a silk handkerchief. Watt made his first model of the condensing steam-engine out of an old anatomist's syringe, used to inject the arteries previous to dissection. Gifford worked his first problems in mathematics, when a cobbler's apprentice, upon small scraps of leather, which he beat smooth for the purpose; whilst Rittenhouse, the astronomer, first calculated eclipses on his plow handle.
The most ordinary occasions will furnish a man with opportunities or suggestions for improvement, if he be but prompt to take advantage of them. Professor Lee was attracted to the study of Hebrew by finding a Bible in that tongue in a synagogue, while working as a common carpenter at the repair of the benches. He became possessed with a desire to read the book in the original, and, buying a cheap second- hand copy of a Hebrew grammar, he set to work and learned the language for himself. As Edmund Stone said to the Duke of Argyle, in answer to his grace's inquiry how he, a poor gardener's boy, had contrived to be able to read Newton's Principia in the Latin, "One needs only to know the twenty-four letters of the alphabet in order to learn everything else that one wishes." Application and perseverance, and the diligent improvement of opportunities, will do the rest.
The attention of Dr. Priestley, the discoverer of so many gases, was accidentally drawn to the subject of chemistry through his living in the neighborhood of a brewery. When visiting the place one day, he noted the peculiar appearances attending the extinction of lighted chips in the gas floating over the fermented liquor. He was forty years old at the time, and knew nothing of chemistry. He consulted books to ascertain the cause, but they told him little, for as yet nothing was known on the subject. Then he began to experiment, with some rude apparatus of his own contrivance. The curious results of his first experiments led to others, which in his hands shortly became the science of pneumatic chemistry. About the same time, Scheele was obscurely working in the same direction in a remote Swedish village; and he discovered several new gases, with no more effective apparatus at his command than a few apothecaries' vials and pigs' bladders.
Sir Humphry Davy, when an apothecary's apprentice, performed his first experiments with instruments of the rudest description. He extemporized the greater part of them himself, out of the motley materials which chance threw in his wayβto pots and pans of the kitchen, and the vials and vessels of his master's surgery. It happened that a French ship was wrecked off the Land's End, and the surgeon escaped, bearing with him his case of instruments, amongst which was an old-fashioned clyster apparatus; this article he presented to Davy, with whom he had become acquainted. The apothecary's apprentice received it with great exultation, and forthwith employed it as a part of a pneumatic apparatus which he contrived, afterward using it to perform the duties of an air-pump in one of his experiments on the nature and sources of heat.
In like manner, professor Faraday, Sir Humphry Davy's scientific successor, made his first experiments in electricity by means of an old bottle, while he was still a working bookbinder. And it is a curious fact, that Faraday was first attracted to the study of chemistry by hearing one of Sir Humphry Davy's lectures on the subject at the Royal Institution. A gentleman, who was a member, calling one day at the shop where Faraday was employed in binding books, found him pouring over the article "Electricity," in an encyclopedia placed in his hands to bind. The gentleman, having made inquiries, found that the young bookbinder was curious about such subjects, and gave him an order of admission to the Royal Institution, where he attended a course of four lectures delivered by Sir Humphry. He took notes of them, which he showed to the lecturer, who acknowledged their scientific accuracy, and was surprised when informed of the humble position of the reporter. Faraday then expressed his desire to devote himself to the prosecution of chemical studies, from which Sir Humphry at first endeavored to dissuade him: but the young man persisting, he was at length taken into the Royal Institution as an assistant; and eventually the mantle of the brilliant apothecary's boy fell upon the worthy shoulders of the equally brilliant bookbinder's apprentice.
The words which Davy entered in his notebook, when about twenty years of age, working in Dr. Beddoes' laboratory at Bristol, were eminently characteristic of him: "I have neither riches, nor power, nor birth to recommend me; yet if I live I trust I shall not be of less service to mankind and my friends, than if I had been born with all these advantages." Davy possessed the capability, as Faraday did, of devoting the whole power of his mind to the practical and experimental investigation of a subject in all its bearings; and such a mind will rarely fail, by dint of mere industry and patient thinking, in producing results of the highest order. Coleridge said of Davy: "There is an energy and elasticity in his mind, which enables him to seize on and analyze all questions, pushing them to their legitimate consequences. Every subject in Davy's mind has the principle of vitality. Living thoughts spring up like turf under his feet." Davy, on his part said of Coleridge, whose abilities he greatly admired: "With the most exalted genius, enlarged views, sensitive heart, and enlightened mind, he will be the victim of a want of order, precision, and regularity."
It is not accident, then, that helps a man in the world so much as purpose and persistent industry. To the feeble, the sluggish and purposeless, the happiest accidents will avail nothingβthey pass them by, seeing no meaning in them. But it is astonishing how much can be accomplished if we are prompt to seize and improve the opportunities for action and effort which are constantly presenting themselves. Watt taught himself chemistry and mechanics while working at his trade of a mathematical instrument maker, at the same time that he was learning German from a Swiss dyer. Stephenson taught himself arithmetic and mensuration while working as an engine-man, during the night shifts; and when he could snatch a few moments in the intervals allowed for meals during the day, he worked his sums with a bit of chalk upon the sides of the colliery wagons. Dalton's industry was the habit of his life. He began from his boyhood, for he taught a little village school when he was only about twelve years oldβkeeping the school in winter, and working upon his father's farm in summer. He would sometimes urge himself and companions to study by the stimulus of a bet, though bred a Quaker; and on one occasion by his satisfactory solution of a problem, he won as much as enabled him to buy a winter's store of candles. He continued his meteorological observations until a day or two before he diedβhaving made and recorded upward of 200,000 in the course of his life.
With perseverance, the very odds, and ends of time may be worked up into results of the greatest value. An hour in every day withdrawn from frivolous pursuits would, if profitably employed, enable a person of ordinary capacity to go far toward mastering a science. It would make an ignorant man a well-informed one in less than ten years. Time should not be allowed to pass without yielding fruits, in the form of something learnt worthy of being known, some good principle cultivated, or some good habit strengthened. Dr. Mason Good translated Lucretuis while riding in his carriage in the streets of London, going the round of his patients. Dr. Darwin composed nearly all his works in the same way while driving about in his "sulky" from house to house in the country ==writing down his thoughts on little scraps of paper, which he carried about with him for the purpose. Hale wrote his "Contemplations" while traveling on circuit. Dr. Burney learnt French and Italian while traveling on horseback from one musical pupil to another in the course of his profession. Kirke White learnt Greek while walking to and fro from a lawyer's office; and we personally know a man of eminent position who learnt Latin and French while going messages as an errand-boy.
Hugh Miller was a busy man of observant faculties, who studied literature as well as science, with zeal and success. The book in which he has told the story of his life("My Schools and Schoolmasters"), is extremely interesting, and calculated to be eminently useful. It is the history of the formation of a truly noble character in the humblest condition of life, and inculcates most powerfully the lessons of self-help, self-respect, and self- dependence. While Hugh was but a child, his father, who was a sailor, was drowned at sea, and he was brought up by his widowed mother. He had a school training after a sort, but his best teachers were the boys with whom he played, the men amongst whom he lived. He read much and miscellaneously, and picked up odd sorts of knowledge from many quartersβfrom workmen, carpenters, fishermen and sailors, and above all, from the old boulders strewed along the shores of the Cromarty Firth. With a big hammer which had belonged to his great-grandfather, an old buccaneer, the boy went about chipping the stones, and accumulating specimens of mica, porphyry, garnet, and such like. Sometimes he had a day in the woods, and there, too, the boy's attention was excited by the peculiar geological curiosities which came in his way. While searching among the rocks on the beach, he was sometimes asked, in irony, by the farm-servants who came to load their carts with sea-weed, whether he "was gettin' siller in the stanes," but was so unlucky as never to be able to answer in the affirmative. When of a suitable age he was apprenticed to the trade of his choiceβthat of a working stone-mason; and he began his laboring career in a quarry looking out upon the Cromarty Firth. This quarry proved one of his best schools. The remarkable geological formations which it displayed awakened his curiosity. The bar of deep-red stone beneath, and the bar of pale-red clay above, were noted by the young quarryman, who even in such unpromising subjects, found matter of observation and reflection. Where other men saw nothing, he detected analogies, differences, and peculiarities which set him a-thinking. He simply kept his eyes and his mind open; was sober, diligent and persevering; and this was the secret of his intellectual growth.
His curiosity was excited and kept alive by the curious organic remains, principally of old and extinct species of fishes, ferns, and ammonites, which were revealed along the coast by the washings of the waves, or were exposed by the stroke of his mason's hammer. He never lost sight of the subject, but went on accumulating observations and comparing formations, until at length, many years afterward, when no longer a working mason, he gave to the world his highly interesting work on the "Old Red Sandstone," which at once established his reputation as a scientific geologist. But this work was the fruit of long years of patient observation and research. As he modestly states in his autobiography, "The only merit to which I lay claim in the case is that of patient researchβa merit in which whoever wills may rival or surpass me; and this humble faculty of patience, when rightly developed, may lead to more extraordinary development of ideas than even genius itself."
"Chance," said an old Vermont farmer, "is like going into a field with a pail, and waiting for a cow to come to
Comments (0)