The Age of Big Business Part 3

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The transit facilities of millions of Americans had merely become the instruments of a group of speculators who had made huge personal fortunes and had left, as a monument of their labors, street railway lines whose gross overcapitalization was apparent to all and whose physical dilapidation in many cases revealed the character of their management.

It seems perhaps an exaggeration to say that the enterprises which have resulted in equipping our American cities and suburbs with trolley lines and electric lighting facilities have followed the plan of campaign sketched above. Perhaps not all have repeated the worst excesses of the syndicate that so remorselessly exploited New York, Chicago, and Philadelphia. Yet in most cases these elaborate undertakings have been largely speculative in character. Huge issues of fict.i.tious stock, created purely for the benefit of inner rings, have been almost the prevailing rule. Stock speculation and munic.i.p.al corruption have constantly gone hand in hand everywhere with the development of the public utilities. The relation of franchise corporations to munic.i.p.alities is probably the thing which has chiefly opened the eyes of Americans to certain glaring defects in their democratic organization. The popular agitation which has resulted has led to great political reforms. The one satisfaction which we can derive from such a relation as that given above is that, after all, it is representative of a past era in our political and economic life. No new "Metropolitan syndicate" can ever repeat the operations of its predecessors.

Practically every State now has utility commissions which regulate the granting of franchises, the issue of securities, the details of construction and equipment and service. An awakened public conscience has effectively ended the alliance between politics and franchise corporations and the type of syndicate described in the foregoing pages belongs as much to our American past as that rude frontier civilization with which, after all, it had many characteristics in common.

CHAPTER VI. MAKING THE WORLD'S AGRICULTURAL MACHINERY

The Civil War in America did more than free the negro slave: it freed the white man as well. In the Civil War agriculture, for the first time in history, ceased to be exclusively a manual art. Up to that time the typical agricultural laborer had been a bent figure, tending his fields and garnering his crops with his own hands. Before the war had ended the American farmer had a.s.sumed an erect position; the sickle and the scythe had given way to a strange red chariot, which, with practically no expenditure of human labor, easily did the work of a dozen men. Many as have been America's contributions to civilization, hardly any have exerted greater influence in promoting human welfare than her gift of agricultural machinery. It seems astounding that, until McCormick invented his reaper, in 1831, agricultural methods, in both the New and the Old World, differed little from those that had prevailed in the days of the Babylonians. The New England farmer sowed his fields and reaped his crops with almost identically the same instruments as those which had been used by the Roman farmer in the time of the Gracchi. Only a comparatively few used the scythe; the great majority, with crooked backs and bended knees, cut the grain with little hand sickles precisely like those which are now dug up in Etruscan and Egyptian tombs.

Though McCormick had invented his reaper in 1831, and though many rival machines had appeared in the twenty years preceding the Civil War, only the farmers on the great western plains had used the new machinery to any considerable extent. The agricultural papers and agricultural fairs had not succeeded in popularizing these great laborsaving devices. Labor was so abundant and so cheap that the farmer had no need of them. But the Civil War took one man in three for the armies, and it was under this pressure that the farmers really discovered the value of machinery.

A small boy or girl could mount a McCormick reaper and cut a dozen acres of grain in a day. This circ.u.mstance made it possible to place millions of soldiers in the field and to feed the armies from farms on which mature men did very little work. But the reaper promoted the Northern cause in other ways. Its use extended so in the early years of the war that the products of the farms increased on an enormous scale, and the surplus, exported to Europe, furnished the liquid capital that made possible the financing of the war. Europe gazed in astonishment at a new spectacle in history; that of a nation fighting the greatest war which had been known up to that time, employing the greater part of her young and vigorous men in the armies, and yet growing infinitely richer in the process. The Civil War produced many new implements of warfare, such as the machine gun and the revolving turret for battles.h.i.+ps, but, so far as determining the result was concerned, perhaps the most important was the reaper.

Extensive as the use of agricultural machinery became in the Civil War, that period only faintly foreshadowed the development that has taken place since. The American farm is today like a huge factory; the use of the hands has almost entirely disappeared; there are only a few operations of husbandry that are not performed automatically. In Civil War days the reaper merely cut the grain; now machinery rakes it up and binds it into sheaves and threshes it. Similar mechanisms bind corn and rice. Machinery is now used to plant potatoes; grain, cotton, and other farm products are sown automatically. The husking bees that formed one of our social diversions in Civil War days have disappeared, for particular machines now rip the husks off the ears. Horse hay-forks and horse hayrakes have supplanted manual labor. The mere names of scores of modern instruments of farming, all unknown in Civil War days--hay carriers, hay loaders, hay stackers, manure spreaders, horse corn planters, corn drills, disk harrows, disk ploughs, steam ploughs, tractors, and the like--give some suggestion of the extent to which America has made mechanical the most ancient of occupations. In thus transforming agriculture, we have developed not only our own Western plains, but we have created new countries. Argentina could hardly exist today except for American agricultural machinery. Ex-President Loubet declared, a few years ago, that France would starve to death except for the farming machines that were turned out in Chicago. There is practically no part of the world where our self-binders are not used. In many places America is not known as the land of freedom and opportunity, but merely as "the place from which the reapers come." The traveler suddenly comes upon these familiar agents in every European country, in South America, in Egypt, China, Algiers, Siberia, India, Burma, and Australia. For agricultural machinery remains today, what it has always been, almost exclusively an American manufacture. It is practically the only native American product that our European compet.i.tors have not been able to imitate. Tariff walls, bounty systems, and all the other artificial aids to manufacturing have not developed this industry in foreign lands, and today the United States produces four-fifths of all the agricultural machinery used in the world. The International Harvester Company has its salesmen in more than fifty countries, and has established large American factories in many nations of Europe.

One day, a few years before his death, Prince Bismarck was driving on his estate, closely following a self-binder that had recently been put to work. The venerable statesman, bent and feeble, seemed to find a deep melancholy interest in the operation.

"Show me the thing that ties the knot," he said. It was taken to pieces and explained to him in detail. "Can these machines be made in Germany?"

he asked.

"No, your Excellency," came the reply. "They can be made only in America."

The old man gave a sigh. "Those Yankees are ingenious fellows," he said.

"This is a wonderful machine."

In this story of American success, four names stand out preeminently.

The men who made the greatest contributions were Cyrus H. McCormick, C. W. Marsh, Charles B. Withington, and John F. Appleby. The name that stands foremost, of course, is that of McCormick, but each of the others made additions to his invention that have produced the present finished machine. It seems like the stroke of an ironical fate which decreed that since it was the invention of a Northerner, Eli Whitney, that made inevitable the Civil War, so it was the invention of a Southerner, Cyrus McCormick, that made inevitable the ending of that war in favor of the North. McCormick was born in Rockbridge County, Virginia, on a farm about eighteen miles from Staunton. He was a child of that pioneering Scotch-Irish race which contributed so greatly to the settlement of this region and which afterward made such inestimable additions to American citizens.h.i.+p. The country in which he grew up was rough and, so far as the conventionalities go, uncivilized; the family homestead was little more than a log cabin; and existence meant a continual struggle with a not particularly fruitful soil. The most remarkable figure in the McCormick home circle, and the one whose every-day life exerted the greatest influence on the boy, was his father. The older McCormick had one obsessing idea that made him the favorite b.u.t.t of the local humorists. He believed that the labor spent in reaping grain was a useless expenditure of human effort and that machinery might be made to do the work. Other men, in this country and in Europe, had nourished similar notions. Several Englishmen had invented reaping machines, all of which had had only a single defect--they would not reap. An ingenious English actor had developed a contrivance which would cut imitation wheat on the stage, but no one had developed a machine that would work satisfactorily in real life. Robert McCormick spent the larger part of his days and nights tinkering at a practical machine. He finally produced a horrific contrivance, made up of whirling sickles, knives, and revolving rods, pushed from behind by two horses; when he tried this upon a grain-field, however, it made a humiliating failure.

Evidently Robert McCormick had ambitions far beyond his powers; yet without his absurd experiments the development of American agriculture might have waited many years. They became the favorite topics of conversation in the evening gatherings that took place about the family log fire. Robert McCormick had several sons, and one manifested a particular interest in his repeated failures. From the time he was seven years old Cyrus Hall McCormick became his father's closest companion.

Others might ridicule and revile, but this chubby, bright-eyed, intelligent little boy was always the keenest listener, the one comfort which the father had against his jeering neighbors. He also became his father's constant a.s.sociate in his rough workshop. Soon, however, the older man noticed a change in their relations. The boy was becoming the teacher, and the father was taught. By the time Cyrus was eighteen, indeed, he had advanced so far beyond his father that the latter had become merely a proud observer. Young McCormick threw into the discard all his father's ideas and struck out on entirely new lines. By the time he had reached his twenty-second birthday he had constructed a machine which, in all its essential details, is the one which we have today. He had introduced seven principles, all of which are an indispensable part of every reaper constructed now. One afternoon he drove his unlovely contraption upon his father's farm, with no witnesses except his own family. This group now witnessed the first successful attempt ever made to reap with machinery. A few days later young McCormick gave a public exhibition at Steele's Tavern, cutting six acres of oats in an afternoon. The popular ridicule soon changed into acclaim; the new invention was exhibited in a public square and Cyrus McCormick became a local celebrity. Perhaps the words that pleased him most, however, were those spoken by his father. "I am proud," said the old man, "to have a son who can do what I failed to do."

This McCormick reaper dates from 1831; but it represented merely the beginnings of the modern machine. It performed only a single function; it simply cut the crop. When its sliding blade had performed this task, the grain fell back upon a platform, and a farm hand, walking alongside, raked this off upon the ground. A number of human harvesters followed, picked up the bundles, and tied a few strips of grain around them, making the sheaf. The work was exceedingly wearying and particularly hard upon the women who were frequently impressed into service as farm-hands. About 1858 two farmers named Marsh, who lived near De Kalb, Illinois, solved this problem. They attached to their McCormick reaper a moving platform upon which the cut grain was deposited. A footboard was fixed to the machine upon which two men stood. As the grain came upon this moving platform these men seized it, bound it into sheaves, and threw it upon the field. Simple as this procedure seemed it really worked a revolution in agriculture; for the first time since the p.r.o.nouncement of the primal curse, the farmer abandoned his hunchback att.i.tude and did his work standing erect. Yet this device also had its disqualifications, the chief one being that it converted the human sheaf-binder into a sweat-shop worker. It was necessary to bind the grain as rapidly as the platform brought it up; the worker was therefore kept in constant motion; and the consequences were frequently distressing and nerve racking. Yet this "Marsh Harvester" remained the great favorite with farmers from about 1860 to 1874.

All this time, however, there was a growing feeling that even the Marsh harvester did not represent the final solution of the problem; the air was full of talk and prophecies about self-binders, something that would take the loose wheat from the platform and transform it into sheaves.

Hundreds of attempts failed until, in 1874, Charles B. Withington of Janesville, Wisconsin, brought to McCormick a mechanism composed of two steel arms which seized the grain, twisted a wire around it, cut the wire, and tossed the completed sheaf to the earth. In actual practice this contrivance worked with the utmost precision. Finally American farmers had a machine that cut the grain, raked it up, and bound it into sheaves ready for the mill. Human labor had apparently lost its usefulness; a solitary man or woman, perched upon a seat and driving a pair of horses, now performed all these operations of husbandry.

By this time, scores of manufacturers had entered the field in opposition to McCormick, but his acquisition of Withington's invention had apparently made his position secure. Indeed, for the next ten years he had everything his own way. Then suddenly an ex-keeper of a drygoods store in Maine crossed his path. This was William Deering, a character quite as energetic, forceful, and pugnacious as was McCormick himself.

Though McCormick had made and sold thousands of his selfbinders, farmers were already showing signs of discontent. The wire proved a continual annoyance. It mingled with the straw and killed the cattle--at least so the farmers complained; it cut their hands and even found its way, with disastrous results, into the flour mills. Deering now appeared as the owner of a startling invention by John F. Appleby. This did all that the Withington machine did and did it better and quicker; and it had the great advantage that it bound with twine instead of wire. The new machine immediately swept aside all compet.i.tors; McCormick, to save his reaper from disaster, presently perfected a twine binder of his own. The appearance of Appleby's improvement in 1884 completes the cycle of the McCormick reaper on its mechanical side The harvesting machine of fifty nations today is the one to which Appleby put the final touches in 1884.

Since then nothing of any great importance has been added.

This outline of invention, however, comprises only part of the story.

The development of the reaper business presents a narrative quite as adventurous as that of the reaper itself. Cyrus McCormick was not only a great inventor; he was also a great businessman. So great was his ability in this direction, indeed, that there has been a tendency to discredit his achievements as a creative genius and to attribute his success to his talents as an organizer and driver of industry. "I may make a million dollars from this reaper," said McCormick, in the full tide of enthusiasm over his invention; and these words indicate an indispensable part of his program. He had no miserly instinct but he had one overpowering ambition. It was McCormick's conviction, almost religious in its fervor, that the harvester business of the world belonged to him. As already indicated, plenty of other hardy spirits, many of them almost as commanding personalities as himself, disputed the empire. Not far from 12,000 patents on harvesting machines were granted in this country in the fifty years following McCormick's invention, and more than two hundred companies were formed to compete for the market.

McCormick always regarded these compet.i.tors as highwaymen who had invaded a field which had been almost divinely set apart for himself. A man of covenanting antecedents, heroic in his physical proportions, with a ma.s.sive, Jove-like head and beard, tirelessly devoted to his work, watching every detail with a microscopic eye, marshaling a huge force of workers who were as possessed by this one overruling idea as was McCormick himself, he certainly presented an almost una.s.sailable battlefront to his antagonists. The compet.i.tion that raged between McCormick and the makers of rival machines was probably the fiercest that has prevailed in any American industry. For marketing his machine McCormick developed a system almost as ingenious as the machine itself.

The popularization of so ungainly and expensive a contrivance as the harvester proved a slow and difficult task. McCormick at first attempted to build his product on his Virginia farm and for many years it was known as the Virginia Reaper. Nearly ten years pa.s.sed, however, before he sold his first machine. The farmer first refused to take it seriously. "It's a great invention," he would say, "but I'm running a farm, not a circus." About 1847 McCormick decided that the Western prairies offered the finest field for its activities, and established his factory at Chicago, then an ugly little town on the borders of a swamp. This selection proved to be a stroke of genius, for it placed the harvesting factory right at the door of its largest market.

The price of the harvester, however, seemed an insurmountable obstacle to its extensive use. The early settlers of the Western plains had little more than their brawny hands as capital, and the homestead law furnished them their land practically free. In the eyes of a large-seeing pioneer like McCormick this was capital enough. He determined that his reaper should develop this extensive domain, and that the crops themselves should pay the cost. Selling expensive articles on the installment plan now seems a commonplace of business, but in those days it was practically unknown. McCormick was the first to see its possibilities. He established an agent, usually the general storekeeper, in every agricultural center. Any farmer who had a modic.u.m of cash and who bore a reputation for thrift and honesty could purchase a reaper. In payment he gave a series of notes, so timed that they fell due at the end of harvesting seasons. Thus, as the money came in from successive harvests, the pioneer paid off the notes, taking two, three, or four years in the process. In the sixties and seventies immigrants from the Eastern States and from Europe poured into the Mississippi Valley by the hundreds of thousands. Almost the first person who greeted the astonished Dane, German, or Swede was an agent of the harvester company, offering to let him have one of these strange machines on these terms. Thus the harvester, under McCormick's comprehensive selling plans, did as much as the homestead act in opening up this great farming region.

McCormick covered the whole agricultural United States with these agents. In this his numerous compet.i.tors followed suit, and the liveliest times ensued. From that day to this the agents of harvesting implements have lent much animation and color to rural life in this country. Half a dozen men were usually tugging away at one farmer at the same time. The mere fact that the farmer had closed a contract did not end his troubles, for "busting up compet.i.tors' sales" was part of the agent's business. The situation frequently reached a point where there was only one way to settle rival claims and that was by a field contest.

At a stated time two or three or four rival harvesters would suddenly appear on the farmer's soil, each prepared to show, by actual test, its superiority over the enemy. Farmers and idlers for miles around would gather to witness the Homeric struggle. At a given signal the small army of machines would spring savagely at a field of wheat. The one that could cut the allotted area in the shortest time was regarded as the winner. The harvester would rush on all kinds of fields, flat and hilly, dry and wet, and would cut all kinds of crops, and even stubble. All manner of tests were devised to prove one machine stronger than its rival; a favorite idea was to chain two back to back, and have them pulled apart by frantic careering horses; the one that suffered the fewest breakdowns would be generally acclaimed from town to town.

Sometimes these field tests were the most exciting and spectacular events at country fairs.

Thus the harvesting machine "pushed the frontier westward at the rate of thirty miles a year," according to William H. Seward. It made American and Canadian agriculture the most efficient in the world. The German brags that his agriculture is superior to American, quoting as proof the more bushels of wheat or potatoes he grows to an acre. But the comparison is fallacious. The real test of efficiency is, not the crops that are grown per acre, but the crops that are grown per man employed. German efficiency gets its results by impressing women as cultivators--depressing bent figures that are in themselves a sufficient criticism upon any civilization. America gets its results by using a minimum of human labor and letting machinery do the work. Thus America's methods are superior not only from the standpoint of economics but of social progress. All nations, including Germany, use our machinery, but none to the extent that prevails on the North American Continent.

Perhaps McCormick's greatest achievement is that his machine has banished famine wherever it is extensively used, at least in peace times. Before the reaper appeared existence, even in the United States, was primarily a primitive struggle for bread. The greatest service of the harvester has been that it has freed the world--unless it is a world distracted by disintegrating war--from a constant anxiety concerning its food supply. The hundreds of thousands of binders, active in the fields of every country, have made it certain that humankind shall not want for its daily bread. When McCormick exhibited his harvester at the London Exposition of 1851, the London Times ridiculed it as "a cross between an Astley chariot, a wheel barrow, and a flying machine." Yet this same grotesque object, widely used in Canada, Argentina, Australia, South Africa, and India, becomes an engine that really holds the British Empire together.

For the forty years succeeding the Civil War the manufacture of harvesting machinery was a business in which many engaged, but in which few survived. The wildest compet.i.tion ruthlessly destroyed all but half a dozen powerful firms. Cyrus McCormick died in 1884, but his sons proved worthy successors; the McCormick factory still headed the list, manufacturing, in 1900, one-third of all the self-binders used in the world. The William Deering Company came next and then D. M. Osborne, J.

J. Glessner, and W. H. Jones, established factories that made existence exceedingly uncomfortable for the pioneers. Whatever one may think of the motives which caused so many combinations in the early years of the twentieth century, there is no question that irresistible economic forces compelled these great harvester companies to get together.

Quick profits in the shape of watered stock had nothing to do with the formation of the International Harvester Company. All the men who controlled these enterprises were individualists, with a natural loathing for trusts, combinations, and pools. They wished for nothing better than to continue fighting the Spartan battle that had made existence such an exciting pastime for more than half a century. But the simple fact was that these several concerns were destroying one another; it was a question of joining hands, ending the compet.i.tion that was eating so deeply into their financial resources, or reducing the whole business to chaos. When Mr. George W. Perkins, of J. P. Morgan and Company, first attempted to combine these great companies, the antagonisms which had been acc.u.mulated in many years of warfare constantly threatened to defeat his end. He early discovered that the only way to bring these men together was to keep them apart. The usual way of creating such combinations is to collect the representative leaders, place them around a table, and persuade them to talk the thing over. Such an amicable situation, however, was impossible in the present instance. Even when the four big men--McCormick, Deering, Glessner, and Jones--were finally brought for the final treaty of peace to J. P.

Morgan's office, Mr. Perkins had to station them in four separate rooms and flit from one to another arranging terms. Had these four men been brought face to face, the Harvester Company would probably never have been formed.

Having once signed their names, however, these once antagonistic interests had little difficulty in forming a strong combination. The company thus brought together manufactured 85 per cent of all the farm machinery used in this country. It owned its own coal-fields and iron mines and its own forests, and it produces most of the implements used by 10,000,000 farmers. In 1847 Cyrus McCormick made 100 reapers and sold them for $10,000; by 1902 the annual production of the corporation amounted to hundreds of thousands of harvesters--besides an almost endless a.s.sortment of other agricultural tools, ploughs, drills, rakes, gasoline engines, tractors, threshers, cream separators, and the like--and the sales had grown to about $75,000,000. This is merely the financial measure of progress; the genuine achievements of McCormick's invention are millions of acres of productive land and a farming population which is without parallel elsewhere for its prosperity, intelligence, manfulness, and general contentment.

CHAPTER VII. THE DEMOCRATIZATION OF THE AUTOMOBILE

In many manufacturing lines, American genius for organization and large scale production has developed mammoth industries. In nearly all the tendency to combination and concentration has exercised a predominating influence. In the early years of the twentieth century the public realized, for the first time, that one corporation, the American Sugar Refining Company, controlled ninety-eight per cent of the business of refining sugar. Six large interests--Armour, Swift, Morris, the National Packing Company, Cudahy, and Schwarzschild and Sulzberger--had so concentrated the packing business that, by 1905, they slaughtered practically all the cattle s.h.i.+pped to Western centers and furnished most of the beef consumed in the large cities east of Pittsburgh. The "Tobacco Trust" had largely monopolized both the wholesale and retail trade in this article of luxury and had also made extensive inroads into the English market. The textile industry had not only transformed great centers of New England into an American Lancas.h.i.+re, but the Southern States, recovering from the demoralization of the Civil War, had begun to spin their own cotton and to send the finished product to all parts of the world. American shoe manufacturers had developed their art to a point where "American shoes" had acquired a distinctive standing in practically every European country.

It is hardly necessary to describe in detail each of these industries.

In their broad outlines they merely repeat the story of steel, of oil, of agricultural machinery; they are the product of the same methods, the same initiative. There is one branch of American manufacture, however, that merits more detailed attention. If we scan the manufacturing statistics of 1917, one amazing fact stares us in the face. There are only three American industries whose product has attained the billion mark; one of these is steel, the other food products, while the third is an industry that was practically unknown in the United States fifteen years ago. Superlatives come naturally to mind in discussing American progress, but hardly any extravagant phrases could do justice to the development of American automobiles. In 1899 the United States produced 3700 motor vehicles; in 1916 we made 1,500,000. The man who now makes a personal profit of not far from $50,000,000 a year in this industry was a puttering mechanic when the twentieth century came in. If we capitalized Henry Ford's income, he is probably a richer man than Rockefeller; yet, as recently as 1905 his possessions consisted of a little shed of a factory which employed a dozen workmen. Dazzling as is this personal success, its really important aspects are the things for which it stands. The American automobile has had its wildcat days; for the larger part, however, its leaders have paid little attention to Wall Street, but have limited their activities exclusively to manufacturing.

Moreover, the automobile ill.u.s.trates more completely than any other industry the technical qualities that so largely explain our industrial progress. Above all, American manufacturing has developed three characteristics. These are quant.i.ty production, standardization, and the use of labor-saving machinery. It is because Ford and other manufacturers adapted these principles to making the automobile that the American motor industry has reached such gigantic proportions.

A few years ago an English manufacturer, seeking the explanation of America's ability to produce an excellent car so cheaply, made an interesting experiment. He obtained three American automobiles, all of the same "standardized" make, and gave them a long and racking tour over English highways. Workmen then took apart the three cars and threw the disjointed remains into a promiscuous heap. Every bolt, bar, gas tank, motor, wheel, and tire was taken from its accustomed place and piled up, a hideous ma.s.s of rubbish. Workmen then painstakingly put together three cars from these disordered elements. Three chauffeurs jumped on these cars, and they immediately started down the road and made a long journey just as acceptably as before. The Englishman had learned the secret of American success with automobiles. The one word "standardization"

explained the mystery.

Yet when, a few years before, the English referred to the American automobile as a "glorified perambulator," the characterization was not unjust. This new method of transportation was slow in finding favor on our side of the Atlantic. America was sentimentally and practically devoted to the horse as the motive power for vehicles; and the fact that we had so few good roads also worked against the introduction of the automobile. Yet here, as in Europe, the mechanically propelled wagon made its appearance in early times. This vehicle, like the bicycle, is not essentially a modern invention; the reason any one can manufacture it is that practically all the basic ideas antedate 1840. Indeed, the automobile is really older than the railroad. In the twenties and thirties, steam stage coaches made regular trips between certain cities in England and occasionally a much resounding power-driven carriage would come careering through New York and Philadelphia, scaring all the horses and precipitating the intervention of the authorities. The hardy spirits who devised these engines, all of whose names are recorded in the encyclopedias, deservedly rank as the "fathers" of the automobile.

The responsibility as the actual "inventor" can probably be no more definitely placed. However, had it not been for two developments, neither of them immediately related to the motor car, we should never have had this efficient method of transportation. The real "fathers"

of the automobile are Gottlieb Daimler, the German who made the first successful gasoline engine, and Charles Goodyear, the American who discovered the secret of vulcanized rubber. Without this engine to form the motive power and the pneumatic tire to give it four air cus.h.i.+ons to run on, the automobile would never have progressed beyond the steam carriage stage. It is true that Charles Baldwin Selden, of Rochester, has been pictured as the "inventor of the modern automobile" because, as long ago as 1879, he applied for a patent on the idea of using a gasoline engine as motive power, securing this basic patent in 1895, but this, it must be admitted, forms a flimsy basis for such a pretentious claim.

The French apparently led all nations in the manufacture of motor vehicles, and in the early nineties their products began to make occasional appearances on American roads. The type of American who owned this imported machine was the same that owned steam yachts and a box at the opera. Hardly any new development has aroused greater hostility. It not only frightened horses, and so disturbed the popular traffic of the time, but its speed, its glamour, its arrogance, and the haughty behavior of its proprietor, had apparently transformed it into a new badge of social cleavage. It thus immediately took its place as a new gewgaw of the rich; that it had any other purpose to serve had occurred to few people. Yet the French and English machines created an entirely different reaction in the mind of an imaginative mechanic in Detroit.

Probably American annals contain no finer story than that of this simple American workman. Yet from the beginning it seemed inevitable that Henry Ford should play this appointed part in the world. Born in Michigan in 1863, the son of an English farmer who had emigrated to Michigan and a Dutch mother, Ford had always demonstrated an interest in things far removed from his farm. Only mechanical devices interested him. He liked getting in the crops, because McCormick harvesters did most of the work; it was only the machinery of the dairy that held him enthralled. He developed destructive tendencies as a boy; he had to take everything to pieces. He horrified a rich playmate by resolving his new watch into its component parts--and promptly quieted him by putting it together again.

"Every clock in the house shuddered when it saw me coming," he recently said. He constructed a small working forge in his school-yard, and built a small steam engine that could make ten miles an hour. He spent his winter evenings reading mechanical and scientific journals; he cared little for general literature, but machinery in any form was almost a pathological obsession. Some boys run away from the farm to join the circus or to go to sea; Henry Ford at the age of sixteen ran away to get a job in a machine shop. Here one anomaly immediately impressed him. No two machines were made exactly alike; each was regarded as a separate job. With his savings from his weekly wage of $2.50, young Ford purchased a three dollar watch, and immediately dissected it. If several thousand of these watches could be made, each one exactly alike, they would cost only thirty-seven cents apiece. "Then," said Ford to himself, "everybody could have one." He had fairly elaborated his plans to start a factory on this basis when his father's illness called him back to the farm.

This was about 1880; Ford's next conspicuous appearance in Detroit was about 1892. This appearance was not only conspicuous; it was exceedingly noisy. Detroit now knew him as the pilot of a queer affair that whirled and lurched through her thoroughfares, making as much disturbance as a freight train. In reading his technical journals Ford had met many descriptions of horseless carriages; the consequence was that he had again broken away from the farm, taken a job at $45 a month in a Detroit machine shop, and devoted his evenings to the production of a gasoline engine. His young wife was exceedingly concerned about his health; the neighbors' snap judgment was that he was insane. Only two other Americans, Charles B. Duryea and Ellwood Haynes, were attempting to construct an automobile at that time. Long before Ford was ready with his machine, others had begun to appear. Duryea turned out his first one in 1892; and foreign makes began to appear in considerable numbers. But the Detroit mechanic had a more comprehensive inspiration. He was not working to make one of the finely upholstered and beautifully painted vehicles that came from overseas. "Anything that isn't good for everybody is no good at all," he said. Precisely as it was Vail's ambition to make every American a user of the telephone and McCormick's to make every farmer a user of his harvester, so it was Ford's determination that every family should have an automobile. He was apparently the only man in those times who saw that this new machine was not primarily a luxury but a convenience. Yet all manufacturers, here and in Europe, laughed at his idea. Why not give every poor man a Fifth Avenue house? Frenchmen and Englishmen scouted the idea that any one could make a cheap automobile. Its machinery was particularly refined and called for the highest grade of steel; the clever Americans might use their labor-saving devices on many products, but only skillful hand work could turn out a motor car. European manufacturers regarded each car as a separate problem; they individualized its manufacture almost as scrupulously as a painter paints his portrait or a poet writes his poem. The result was that only a man with several thousand dollars could purchase one. But Henry Ford--and afterward other American makers--had quite a different conception.

Henry Ford's earliest banker was the proprietor of a quick-lunch wagon at which the inventor used to eat his midnight meal after his hard evening's work in the shed. "Coffee Jim," to whom Ford confided his hopes and aspirations on these occasions, was the only man with available cash who had any faith in his ideas. Capital in more substantial form, however, came in about 1902. With money advanced by "Coffee Jim," Ford had built a machine which he entered in the Grosse Point races that year. It was a hideous-looking affair, but it ran like the wind and outdistanced all compet.i.tors. From that day Ford's career has been an uninterrupted triumph. But he rejected the earliest offers of capital because the millionaires would not agree to his terms. They were looking for high prices and quick profits, while Ford's plans were for low prices, large sales, and use of profits to extend the business and reduce the cost of his machine. Henry Ford's greatness as a manufacturer consists in the tenacity with which he has clung to this conception. Contrary to general belief in the automobile industry he maintained that a high sale price was not necessary for large profits; indeed he declared that the lower the price, the larger the net earnings would be. Nor did he believe that low wages meant prosperity. The most efficient labor, no matter what the nominal cost might be, was the most economical. The secret of success was the rapid production of a serviceable article in large quant.i.ties. When Ford first talked of turning out 10,000 automobiles a year, his a.s.sociates asked him where he was going to sell them. Ford's answer was that that was no problem at all; the machines would sell themselves. He called attention to the fact that there were millions of people in this country whose incomes exceeded $1800 a year; all in that cla.s.s would become prospective purchasers of a low-priced automobile. There were 6,000,000 farmers; what more receptive market could one ask? His only problem was the technical one--how to produce his machine in sufficient quant.i.ties.

The bicycle business in this country had pa.s.sed through a similar experience. When first placed on the market bicycles were expensive; it took $100 or $150 to buy one. In a few years, however, an excellent machine was selling for $25 or $30. What explained this drop in price?

The answer is that the manufacturers learned to standardize their product. Bicycle factories became not so much places where the articles were manufactured as a.s.sembling rooms for putting them together.

The several parts were made in different places, each establishment specializing in a particular part; they were then s.h.i.+pped to centers where they were transformed into completed machines. The result was that the United States, despite the high wages paid here, led the world in bicycle making and flooded all countries with this utilitarian article.

Our great locomotive factories had developed on similar lines. Europeans had always marveled that Americans could build these costly articles so cheaply that they could undersell European makers. When they obtained a glimpse of an American locomotive factory, the reason became plain. In Europe each locomotive was a separate problem; no two, even in the same shop, were exactly alike. But here locomotives are built in parts, all duplicates of one another; the parts are then sent by machinery to a.s.sembling rooms and rapidly put together. American harvesting machines are built in the same way; whenever a farmer loses a part, he can go to the country store and buy its duplicate, for the parts of the same machine do not vary to the thousandth of an inch. The same principle applies to hundreds of other articles.

Thus Henry Ford did not invent standardization; he merely applied this great American idea to a product to which, because of the delicate labor required, it seemed at first unadapted. He soon found that it was cheaper to s.h.i.+p the parts of ten cars to a central point than to s.h.i.+p ten completed cars. There would therefore be large savings in making his parts in particular factories and s.h.i.+pping them to a.s.sembling establishments. In this way the completed cars would always be near their markets. Large production would mean that he could purchase his raw materials at very low prices; high wages meant that he could get the efficient labor which was demanded by his rapid fire method of campaign.

It was necessary to plan the making of every part to the minutest detail, to have each part machined to its exact size, and to have every screw, bolt, and bar precisely interchangeable. About the year 1907 the Ford factory was systematized on this basis. In that twelvemonth it produced 10,000 machines, each one the absolute counterpart of the other 9999. American manufacturers until then had been content with a few hundred a year! From that date the Ford production has rapidly increased; until, in 1916, there were nearly 4,000,000 automobiles in the United States--more than in all the rest of the world put together--of which one-sixth were the output of the Ford factories. Many other American manufacturers followed the Ford plan, with the result that American automobiles are duplicating the story of American bicycles; because of their cheapness and serviceability, they are rapidly dominating the markets of the world. In the Great War American machines have surpa.s.sed all in the work done under particularly exacting circ.u.mstances.

A glimpse of a Ford a.s.sembling room--and we can see the same process in other American factories--makes clear the reasons for this success. In these rooms no fitting is done; the fragments of automobiles come in automatically and are simply bolted together. First of all the units are a.s.sembled in their several departments. The rear axles, the front axles, the frames, the radiators, and the motors are all put together with the same precision and exactness that marks the operation of the completed car. Thus the wheels come from one part of the factory and are rolled on an inclined plane to a particular spot. The tires are propelled by some mysterious force to the same spot; as the two elements coincide, workmen quickly put them together. In a long room the bodies are slowly advanced on moving platforms at the rate of about a foot per minute. At the side stand groups of men, each prepared to do his bit, their materials being delivered at convenient points by chutes. As the tops pa.s.s by these men quickly bolt them into place, and the completed body is sent to a place where it awaits the cha.s.sis. This important section, comprising all the machinery, starts at one end of a moving platform as a front and rear axle bolted together with the frame. As this slowly advances, it pa.s.ses under a bridge containing a gasoline tank, which is quickly adjusted.

Farther on the motor is swung over by a small hoist and lowered into position on the frame. Presently the dash slides down and is placed in position behind the motor. As the rapidly acc.u.mulating mechanism pa.s.ses on, different workmen adjust the m.u.f.flers, exhaust pipes, the radiator, and the wheels which, as already indicated, arrive on the scene completely tired. Then a workman seats himself on the gasoline tank, which contains a small quant.i.ty of its indispensable fuel, starts the engine, and the thing moves out the door under its own power. It stops for a moment outside; the completed body drops down from the second floor, and a few bolts quickly put it securely in place. The workman drives the now finished Ford to a loading platform, it is stored away in a box car, and is started on its way to market. At the present time about 2000 cars are daily turned out in this fas.h.i.+on. The nation demands them at a more rapid rate than they can be made.

Herein we have what is probably America's greatest manufacturing exploit. And this democratization of the automobile comprises more than the acme of efficiency in the manufacturing art. The career of Henry Ford has a symbolic significance as well. It may be taken as signalizing the new ideals that have gained the upper hand in American industry. We began this review of American business with Cornelius Vanderbilt as the typical figure. It is a happy augury that it closes with Henry Ford in the foreground. Vanderbilt, valuable as were many of his achievements, represented that spirit of egotism that was rampant for the larger part of the fifty years following the war. He was always seeking his own advantage, and he never regarded the public interest as anything worth a moment's consideration. With Ford, however, the spirit of service has been the predominating motive. His earnings have been immeasurably greater than Vanderbilt's; his income for two years amounts to nearly Vanderbilt's total fortune at his death; but the piling up of riches has been by no means his exclusive purpose. He has recognized that his workmen are his partners and has liberally shared with them his increasing profits. His money is not the product of speculation; Ford is a stranger to Wall Street and has built his business independently of the great banking interest. He has enjoyed no monopoly, as have the Rockefellers; there are more than three hundred makers of automobiles in the United States alone. He has spurned all solicitations to join combinations. Far from asking tariff favors he has entered European markets and undersold English, French, and German makers on their own ground. Instead of taking advantage of a great public demand to increase his prices, Ford has continuously lowered them. Though his idealism may have led him into an occasional personal absurdity, as a business man he may be taken as the full flower of American manufacturing genius.

The Age of Big Business Part 3

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