![]() Perhaps it was the reason for the ensuing boom in rail travel.Power looms at the Boott Cotton Mills at Lowell, Massachusetts. That landmark trip, a 150-mile journey from New York to Albany on a ship called The Clermont, took 32 hours to complete. The United States was the pioneer in shipping, putting a passenger steamship on the water in 1807. ![]() For the first time in history, goods were transported over land by something other than the muscle of man or animal. By the early 1800s, high-pressure steam engines had become compact enough to move beyond the factory, prompting the first steam-powered locomotive to hit the rails in Britain in 1804. Transportation was one of those important beneficiaries. Together, they tailored Watt's steam engine to any company that could use it, amassing great fortunes for themselves but also sharing research over vast distances. Those factories benefited from one of the world's greatest partnerships - that of Watt and Matthew Boulton, a British manufacturer. The world was becoming an industrialized place before the advent of steam power, but would never have progressed so quickly without it, they argue.įactories that still relied on wind or water power to drive their machines during the Industrial Revolution were confined to certain locales steam meant that factories could be built anywhere, not just along fast-flowing rivers. The simultaneous perfection of the steam engine and the beginning of the Industrial Revolution is a chicken and egg scenario that historians have long debated. The technology was improved with pistons and cylinders by Thomas Newcomen, a blacksmith, and again by Watt in the mid-18th century.īy that time, the speedy engine's reputation was gaining steam well beyond mining circles, moving indoors to other areas of industry from metalworking to textiles, where it was adapted to the rotating wheel system common in European mills.Ī savvy businessman, Watt marketed his machine by calculating the number of horses his engine would replace, coining the term "horsepower" in the process. In 1698, British inventor Thomas Savery patented a steam-powered pump, which he described as an "engine to raise water by fire." Savery's very basic engine relied on steam to create a vacuum and pull water upwards through a pipe - a theory that had been around for several centuries but never successfully applied. Scientists began tinkering seriously with steam in the early 1600s and, like most inventions of the day, it was a team effort that ultimately led to the first working steam engine. The horse-pulley system used to drain coal mines proved inadequately slow in keeping up with the glassmakers' need for the fossil fuel, and there were lucrative rewards for anyone who could develop a better way to drain the mines. Yet beasts of burden may have remained the mechanism of choice had it not been for the 17th-century British glassmakers that required enormous amounts of coal to keep their hot furnaces burning. ![]() Horses were also used to lug buckets of water out of flooded mines, but needed frequent breaks and lots of care to keep them in good shape. ![]() The packhorses or mules that transported goods between them were expensive and slowed down by the weight of their load. Textile production, for example, was a bustling trade, but had to deal with the geographic separation of the grazing sheep that provided the wool, the water-powered mills built along mountain streams and the cities where the cloth was purchased at market. The Middle Ages aren't usually associated with industry, but societies across Europe, the Middle East, and parts of Asia and Africa did indeed have factories and manufacturing plants, albeit slow-working ones.
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