Part 10 (1/2)

After the peace of 1815, however, political agitation began again. The Whig party seemed inclined to resume the effort to carry certain moderate reforms which had been postponed on account of the war, and down below this movement there was a more radical agitation for universal suffrage and for a more democratic type of government generally. On the other hand, the Tory government, which had been in power during almost the whole war period, was determined to oppose everything in the nature of reform or change, on the ground that the outrages accompanying the French Revolution arose from just such efforts to make reforming alterations in the government. The radical agitation was supported by the discontented ma.s.ses of the people who were suffering under heavy taxes, high prices, irregular employment, and many other evils which they felt to be due to their exclusion from any share in the government. The years intervening between 1815 and 1830 were therefore a period of constant bitterness and contention between the higher and the lower cla.s.ses. Ma.s.s meetings which were called by the popular leaders were dissolved by the government, radical writers were prosecuted by the government for libel, the habeas corpus act was suspended repeatedly, and threatened rioting was met with severe measures. The actions of the ministers, while upheld by the higher cla.s.ses, were bitterly attacked by others as being unconst.i.tutional and tyrannical.

In 1800 the union of the group of British Islands under one government was completed, at least in form. Scotland had come under the same crown as England in 1603, and the two Parliaments had been united in 1707, the t.i.tle Great Britain having been adopted for the combined nations. The king of England had held the t.i.tle of Lord of Ireland from the time of the first conquest, and of King of Ireland since the adoption of the t.i.tle by Henry VIII. The union which now took place consisted in the abolition of the separate Irish Parliament and the election of Irish members to the combined or ”Imperial” Parliament of the three kingdoms sitting at Westminster. The official t.i.tle of the united countries has since been ”The United Kingdom of Great Britain and Ireland.”

*56. The Great Mechanical Inventions.*--As the eighteenth century progressed one form of economic growth seems to have been pressing on the general economic organization. This was the constant expansion of commerce, the steadily increasing demand for English manufactured goods for export.

[Ill.u.s.tration: Distribution of Population According to the Hearth-tax of 1750. Engraved by Bormay & Co., N.Y.]

The great quant.i.ties of goods which were every year sent abroad in English s.h.i.+ps to the colonies, to Ireland, to the Continent, to Asia and Africa, as well as those used at home, continued to be manufactured in most cases by methods, with instruments, under an organization of labor the same as that which had been in existence for centuries. The cotton and woollen goods which were sold in the West Indies and America were still carded, spun, and woven in the scattered cottages of domestic weavers and weaver-farmers in the rural districts of the west and north of England, by the hand cards, the spinning-wheel, the c.u.mbrous, old-fas.h.i.+oned loom. The pieces of goods were slowly gathered from the hamlets to the towns, from the towns to the seaports, over the poorest of roads, and by the most primitive of conveyances. And these antiquated methods of manufacture and transportation were all the more at variance with the needs and possibilities of the time because there had been, as already pointed out, a steady acc.u.mulation of capital, and much of it was not remuneratively employed. The time had certainly come for some improvement in the methods of manufacture.

A closer examination into the process of production in England's princ.i.p.al industry, cloth-making, shows that this pressure on old methods was already felt. The raw material for such uses, as it comes from the back of the sheep, the boll of the cotton plant, or the crushed stems of the flax, is a tangled ma.s.s of fibre. The first necessary step is to straighten out the threads of this fibre, which is done in the case of wool by combing, in the others by carding, both being done at that time by hand implements. The next step is spinning, that is drawing out the fibres, which have been made parallel by carding, into a slender cord, and at the same time twisting this sufficiently to cause the individual fibres to take hold one of another and thus make a thread of some strength. This was sometimes done on the old high wheel, which was whirled around by hand and then allowed to come to rest while another section of the cotton, wool, or flax was drawn from the carded ma.s.s by hand, then whirled again, twisting this thread and winding it up on the spindle, and so on. Or it was done by the low wheel, which was kept whirling continuously by the use of a treadle worked by the foot, while the material was being drawn out all the time by the two hands, and twisted and wound continuously by the horseshoe-shaped device known as the ”flyer.” When the thread had been spun it was placed upon the loom; strong, firmly spun material being necessary for the ”warp” of upright threads, softer and less tightly spun material for the ”woof” or ”weft,” which was wrapped on the shuttle and thrown horizontally by hand between the two diverging lines of warp threads. After weaving, the fabric was subjected to a number of processes of finis.h.i.+ng, fulling, shearing, dyeing, if that had not been done earlier, and others, according to the nature of the cloth or the kind of surface desired.

In these successive stages of manufacture it was the spinning that was apt to interpose the greatest obstacle, as it took the most time. From time immemorial spinning had been done, as explained, on some form of the spinning-wheel, and by women. One weaver continuously at work could easily use up the product of five or six spinners. In the domestic industry the weaving was of course carried on in the dwelling-house by the father of the family with the grown sons or journeymen, while the spinning was done for the most part by the women and younger children of the family. As it could hardly be expected that there would always be as large a proportion as six of the latter cla.s.s to one of the former, outside help must be obtained and much delay often submitted to. Many a small master who had agreed to weave up the raw material sent him by the master clothier within a given time, or a cloth weaver who had planned to complete a piece by next market day, was obliged to leave his loom and search through the neighborhood for some disengaged laborer's wife or other person who would spin the weft for which he was waiting. One of the very few inventions of the early part of the century intensified this difficulty. Kay's drop box and flying shuttle, invented in 1738, made it possible for a man to sit still and by pulling two cords alternately throw the shuttle to and fro. One man could therefore weave broadcloth instead of its requiring two as before, and consequently weaving was more rapid, while no corresponding change had been introduced into the process of spinning.

[Ill.u.s.tration: Spinning-Jenny. (Byrn, _Invention in the Nineteenth Century_. Published by the Scientific American Company.)]

Indeed, this particular difficulty was so clearly recognized that the Royal Society offered a prize for the invention of a machine that would spin several threads at the same time.

[Ill.u.s.tration: Arkwright's First Spinning-machine. (Ure: _History of the Cotton Manufacture_.)]

No one claimed this reward, but the spirit of invention was nevertheless awake, and experiments in more than one mechanical device were being made about the middle of the century. The first to be brought to actual completion was Hargreaves' spinning-jenny, invented in 1764. According to the traditional story James Hargreaves, a small master weaver living near Blackburn, on coming suddenly into the house caused his wife, who was spinning with the old high wheel, to spring up with a start and overset the wheel, which still continued whirling, but horizontally, and with its spindle in a vertical position. He was at once struck with the idea of using one wheel to cause a number of spindles to revolve by means of a continuous band, and by the device of subst.i.tuting for the human hand a pair of bars which could be successively separated and closed, and which could be brought closer to or removed from the spindles on wheels, to spin several threads at the same time. On the basis of this idea and with the help of a neighboring mechanic he constructed a machine by which a man could spin eight threads at the same time. In honor of his wife he named it the ”Spinning-jenny.” The secret of this device soon came out and jennies spinning twenty or thirty or more threads at a time came into use here and there through the old spinning districts. At the same time a much more effective method was being brought to perfection by Richard Arkwright, who followed out some old experiments of Wyatt of Northampton. According to this plan the carded material was carried through successive pairs of rollers, each pair running more rapidly than the previous pair, thus stretching it out, while it was spun after leaving the last pair by flyers adapted from the old low or treadle spinning-wheel. Arkwright's first patent was taken out in 1769, and from that time forward he invented, patented, and manufactured a series of machines which made possible the spinning of a number of threads at the same time very much more rapidly than even the spinning-jenny. Great numbers of Arkwright's spinning-machines were manufactured and sold by him and his partners. He made others for use in cotton mills carried on by himself with various partners in different parts of the country. His patent was eventually set aside as having been unfairly obtained, and the machines were soon generally manufactured and used. Improvements followed. An ingenious weaver named Samuel Crompton, perceiving that the roller spinning was more rapid but that the jennies would spin the finer thread, combined the two devices into one machine, known from its hybrid origin as the ”mule.” This was invented in 1779, and as it was not patented it soon came into general use. These inventions in spinning reacted on the earlier processes and led to a rapid development of carding and combing machines. A carding cylinder had been invented by Paul as far back as 1748, and now came into general use, while several wool-combing machines were invented in 1792 and 1793.

[Ill.u.s.tration: Sir Richard Arkwright. (Portrait by Wright.)]

So far all these inventions had been in the earlier textile processes.

Use for the spun thread was found in giving fuller employment to the old hand looms, in the stocking manufacture, and for export; but no corresponding improvement had taken place in weaving. From 1784 onward a clergyman from the south of England, Dr. Edward Cartwright, was gradually bringing to perfection a power loom which by the beginning of the nineteenth century began to come into general use. The value put upon Cartwright's invention may be judged from the fact that Parliament voted him a gift of 10,000 in 1809. Arkwright had already won a large fortune by his invention, and in 1786 was knighted in recognition of his services to the national industry.

[Ill.u.s.tration: Rev. Edmund Cartwright. (Portrait by Robert Fulton.)]

While Cartwright was experimenting on the power loom, an invention was made far from England which was in reality an essential part of the improvement in the manufacture of cotton goods. This was the American cotton gin, for the removal of the seeds from the fibre of the boll, invented by Eli Whitney in 1792. Cotton had been introduced into the Southern states during the Revolutionary war. Its cultivation and export now became profitable, and a source of supply became available at the very time that the inventions for its manufacture were being perfected.

Spinning-jennies could be used in the household of the weaver; but the later spinning-machines were so large and c.u.mbrous that they could not be used in a dwelling-house, and required so much power and rapidity of motion that human strength was scarcely available. Horse power was used to some extent, but water power was soon applied and special buildings came to be put up along streams where water power was available. The next stage was the application of steam power. Although the possibility of using steam for the production of force had long been familiar, and indeed used to some extent in the pumping out of mines, it did not become available for general uses until the improvements of James Watt, patented in 1769 and succeeding years. In partners.h.i.+p with a man named Boulton, Watt began the manufacture of steam-engines in 1781. In 1785 the first steam-engine was used for power in a cotton mill. After that time the use of steam became more and more general and by the end of the century steam power was evidently superseding water power.

*57. The Factory System.*--But other things were needed to make this new machinery available. It was much too expensive for the old cottage weavers to buy and use. Capital had, therefore, to be brought into manufacturing which had been previously used in trade or other employments. Capital was in reality abundant relatively to existing opportunities for investment, and the early machine spinners and weavers drew into partners.h.i.+p moneyed men from the towns who had previously no connection with manufacturing. Again, the new industry required bodies of laborers working regular hours under the control of their employers and in the buildings where the machines were placed and the power provided. Such groups of laborers or ”mill hands”

were gradually collected where the new kind of manufacturing was going on. Thus factories, in the modern sense, came into existence--a new phenomenon in the world.

[Ill.u.s.tration: Mule-spinning in 1835.]

[Ill.u.s.tration: Power-loom Weaving in 1835. (Baines: _History of Cotton Manufacture_.)]

These changes in manufacturing and in the organization of labor came about earliest in the manufacture of cotton goods, but the new machinery and its resulting changes were soon introduced into the woollen manufacture, then other textile lines, and ultimately into still other branches of manufacturing, such as the production of metal, wooden, and leather goods, and, indeed, into nearly all forms of production. Manufacturing since the last decades of the eighteenth century is therefore usually described as being done by the ”factory system,” as contrasted with the domestic system and the gild system of earlier times.

The introduction of the factory system involved many changes: the adoption of machinery and artificial power, the use of a vastly greater amount of capital, and the collection of scattered laborers into great strictly regulated establishments. It was, comparatively speaking, sudden, all its main features having been developed within the period between 1760 and 1800; and it resulted in the raising of many new and difficult social problems. For these reasons the term ”Industrial Revolution,” so generally applied to it, is not an exaggerated nor an unsuitable term. Almost all other forms of economic occupation have subsequently taken on the main characteristics of the factory system, in utilizing improved machinery, in the extensive scale on which they are administered, in the use of large capital, and in the organization of employees in large bodies. The industrial revolution may therefore be regarded as the chief characteristic distinguis.h.i.+ng this period and the times since from all earlier ages.

[Ill.u.s.tration: A Ca.n.a.l and Factory Town in 1827.]

*58. Iron, Coal, and Transportation.*--A vast increase in the production of iron and coal was going on concurrently with the rise of the factory system. The smelting of iron ore was one of the oldest industries of England, but it was a declining rather than an advancing industry. This was due to the exhaustion of the woods and forests that provided fuel, or to their retention for the future needs of s.h.i.+p-building and for pleasure parks. In 1760, however, Mr. Roebuck introduced at the Carron iron-works a new kind of blast furnace by which iron ore could be smelted with coal as fuel. In 1790 the steam-engine was introduced to cause the blast. Production had already begun to advance before the latter date, and it now increased by thousands of tons a year till far into the present century.

Improvements were introduced in puddling, rolling, and other processes of the manufacture of iron at about the same time. The production of coal increased more than proportionately. New devices in mining were introduced, such as steam pumps, the custom of supporting the roofs of the veins with timber instead of pillars of coal, and Sir Humphry Davy's safety lamp of 1815. The smelting of iron and the use of the steam-engine made such a demand for coal that capital was applied in large quant.i.ties to its production, and more than ten million tons a year were mined before the century closed.

[Ill.u.s.tration: ”The Rocket” Locomotive, 1825. (Smiles: _Life of George Stephenson_.)]

Some slight improvements in roads and ca.n.a.ls had been made and others projected during the seventeenth and early eighteenth centuries; but in the last quarter of the century the work of Telford, Macadam, and other engineers, and of the private turnpike companies or public authorities who engaged them, covered England with good roads. The first ca.n.a.l was that from Worsley to Manchester, built by Brindley for the duke of Bridgewater in 1761. Within a few years a system of ca.n.a.ls had been constructed which gave ready transportation for goods through all parts of the country. The continuance of this development of transportation and its fundamental modification by the introduction of railways and steamboats has been one of the most striking characteristics of the nineteenth century.