![]() ![]() In the 1760s, Scottish engineer James Watt began tinkering with one of Newcomen’s models, adding a separate water condenser that made it far more efficient. Called the “atmospheric steam engine,” Newcomen’s invention was originally applied to power the machines used to pump water out of mine shafts. Impact of Steam PowerĪn icon of the Industrial Revolution broke onto the scene in the early 1700s, when Thomas Newcomen designed the prototype for the first modern steam engine. This method was both cheaper and produced higher-quality material, enabling Britain’s iron and steel production to expand in response to demand created by the Napoleonic Wars (1803-15) and the later growth of the railroad industry. In addition to textiles, the British iron industry also adopted new innovations.Ĭhief among the new techniques was the smelting of iron ore with coke (a material made by heating coal) instead of the traditional charcoal. More efficient, mechanized production meant Britain’s new textile factories could meet the growing demand for cloth both at home and abroad, where the British Empire’s many overseas colonies provided a captive market for its goods. ![]() Producing cloth became faster and required less time and far less human labor. ![]() Starting in the mid-18th century, innovations like the spinning jenny (a wooden frame with multiple spindles), the flying shuttle, the water frame and the power loom made weaving cloth and spinning yarn and thread much easier. But prior to the Industrial Revolution, the British textile business was a true “cottage industry,” with the work performed in small workshops or even homes by individual spinners, weavers and dyers. Thanks in part to its damp climate, ideal for raising sheep, Britain had a long history of producing textiles like wool, linen and cotton. ![]()
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