What were two important inventions created during the industrial revolution describe their impact

The inventions and innovations of the Industrial Revolution transformed the U.S. and Great Britain in the 18th and 19th centuries. Tremendous gains in science and technology helped Britain become the world's dominant economic and political power, while in the U.S. it fueled a young nation's westward expansion and built vast fortunes. 

British innovations harnessed the power of water, steam, and coal, helping the U.K. dominate the global textile market of the mid-1770s. Other advancements made in chemistry, manufacturing, and transportation allowed the nation to expand and fund its empire around the globe.

The American Industrial Revolution began after the Civil War as the U.S. rebuilt its infrastructure. New forms of transportation such as the steamboat and the railroad helped the nation expand trade. Meanwhile, innovations such as the modern assembly line and electric light bulb revolutionized both business and personal life.

Water had long been used to power simple machines such as grain mills and textile spinners, but Scottish inventor James Watt's refinements to the steam engine in 1775 launched the revolution in earnest. Up until that point, such engines were crude, inefficient, and unreliable. Watt's first engines were used primarily to pump water and air into and out of mines.

With the development of more powerful, efficient engines which would operate under higher pressure and increased output, came newer, better forms of transportation. ​Robert Fulton was an engineer and inventor who had become fascinated with Watt's engine while living in France at the turn of the 19th century. After several years of experimenting in Paris, he returned to the U.S. and launched the Clermont in 1807 on the Hudson River in New York. It was the first commercially viable steamboat line in the nation. ​​

As the nation's rivers began opening to navigation, commerce expanded along with the population. Another new form of transportation, the railroad, also relied on steam power to drive the locomotives. First in Britain and then in the U.S., rail lines began appearing in the 1820s. By 1869, the first transcontinental rail line linked the coasts.

If the 19th century belonged to steam, the 20th century belonged to the internal combustion engine. American inventor George Brayton, working on earlier innovations, developed the first liquid-fueled internal combustion engine in 1872. During the next two decades, German engineers including Karl Benz and Rudolf Diesel would make further innovations. By the time Henry Ford unveiled his Model T car in 1908, the internal combustion engine was poised to transform not just the nation's transportation system but also spur 20th-century industries like petroleum and aviation.

As the populations of both the U.K. and the U.S. expanded in the 1800s and America's boundaries pushed westward, new forms of communication that could cover great distances were invented to keep pace with this growth. One of the first significant inventions was the telegraph, perfected by Samuel Morse. He developed a series of dots and dashes that could be transmitted electrically in 1836; they came to be known as Morse Code, though it wouldn't be until 1844 that the first telegraph service opened, between Baltimore and Washington, D.C.

As the rail system expanded in the U.S., the telegraph followed along, literally. Rail depots doubled as telegraph stations, bringing news to the far-flung frontier. Telegraph signals began flowing between the U.S. and the U.K. in 1866 with Cyrus Field's first permanent transatlantic telegraph line. The following decade, Scottish inventor Alexander Graham Bell, working in the U.S. with Thomas Watson, patented the telephone in 1876. 

Thomas Edison, who made a number of discoveries and innovations during the 1800s, contributed to the communications revolution by inventing the phonograph in 1876. The device used paper cylinders coated with wax to record sound. Records were first made of metal and later shellac. In Italy, Enrico Marconi made his first successful radio wave transmission in 1895, paving the way for the radio to be invented in the next century.

In 1794, the American industrialist Eli Whitney invented the cotton gin. This device mechanized the process of removing seeds from cotton, something that had previously been done largely by hand. But what made Whitney's invention particularly special was its use of interchangeable parts. If one part broke, it could be easily replaced by another inexpensive, mass-produced copy. This made processing cotton cheaper, in turn creating new markets and wealth. Elijah McCoy, a mechanical engineer, filed more than 50 patents for various industrial inventions.

Although he did not invent the sewing machine, Elias Howe's refinements and patent in 1844 perfected the device. Working with Isaac Singer, Howe marketed the device to manufacturers and later consumers. The machine allowed for the mass production of clothing, expanding the nation's textile industry. It also made housework easier and allowed the growing middle class to indulge in hobbies like fashion.

But factory work—and home life—still were dependent upon sunlight and lamplight. It wasn't until electricity began being harnessed for commercial purposes that industry truly was revolutionized. Thomas Edison's invention of the electric light bulb in 1879 became the means by which large factories could be illuminated, extending shifts and increasing manufacturing output. It also spurred the creation of the nation's electrical grid, into which the many inventions of the 20th century from TVs to PCs would eventually plug.

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The Industrial Revolution was a time of great change and development throughout parts of Europe in which society made substantial technological progress. A large amount of this progress was centered in Britain, not only because of its resources, but also due to the economic conditions that were present in Britain during the time. The inventions themselves were not an immediately profitable investment throughout many parts of Europe during the 18th century and, as such, were not a smart venture to participate in in many countries. Inventors in Britain, however, had the resources and economic conditions available to make a profitable product that could be duplicated, improved upon, and, eventually, would spread throughout many parts of Europe. Three of the most influential of these inventions were the coke fueled furnace, steam engine, and spinning jenny; all of which increased production capabilities large amounts in many parts of Europe. This page will work to explore these three inventions and their impact on the lives of those living in Britain during the late 18th and early 19th centuries.

For more background information on the Industrial revolution watch the video below:

Steam, and The Industrial Revolution: Crash Course World History #32

Coke-Fueled Blast Furnace

The coke fueled blast furnace, made by Abraham Darby, is one of the many inventions that shaped the modern world. The blast furnace revolutionized the way that pig iron was melted down for the production of steel. It was also a much easier and more efficient way of producing steel. The blast furnace was created in 1709 as a way to use coke instead of charcoal, as a fuel. Charcoal was becoming increasingly scarce and as a result it was also becoming increasingly expensive. This increase in price caused the production of steel to slow. This increasingly difficult way to produce steel created a demand for a new, cost efficient way to make steel.

Abraham Darby, the creator of the coke fueled blast furnace, decided to settle his invention in the town of Coalbrookdale in Shropshire, England. Darby settled in Coalbrookdale because of its readily available supply of coal, which was one of the best options for making coke.

Blast furnaces revolutionized the production of steel. It allowed for a faster production as well as a better product to be produced. Due to the fact that the coke-fueled blast furnaces allowed for the furnace to maintain a hotter temperature for a longer time, the quality of the steel was finer. The invention of the coke-fueled blast furnace led to many other inventions that the Industrial Revolution is known for. The blast furnace allowed for steel structures to be made faster and cheaper, propelling the Industrial revolution.

First thing to explore is the substance that is called “coke”. What is it and how is it created. One particular source gives a great definition of what the substance is and how it is created. Coke is a solid residue remaining after certain types of bituminous coals are heated to a high temperature out of contact with air until substantially all of the volatile constituents have been driven off. The residue is chiefly carbon, with minor amounts of hydrogen, nitrogen, sulfur, and oxygen. Also present in coke is the mineral matter in the original coal, chemically altered and decomposed during the coking process.

The success of the blast of the blast furnace would continue to make great strides in creating new jobs. Abraham Darby would pass away in 1717, but would his business would be in good hands with his son Abraham Darby II who would discover a way to create better coke by burning coal in the ovens. With this discovery the iron quality was far more superior. The result would only continue to help the industry for many more years.

The thriving blast furnace industry, created a demand for many new jobs. It boosted the local economy by creating more jobs within the coal industry as well as in the steel producing industry. With the use of the blast furnaces, steel became a common good. The lower and middle classes could now afford steel goods, such as cookware and utensils that previously, only the upper classes could afford, due to the cost of the production of steel. The creation of the coke-fueled blast furnace created a bridge between the classes and gave them something in common.

Questions about the Reading

Steam Engine

In the early 18th century, an Englishman named Thomas Newcomen invented the steam engine. Its sole purpose was to help lift water out from mines that were repeatedly waterlogged. Later, James Watt reworked the flaws of the Newcomen steam engine and made it more efficient in the process of how the condensation was carried. Watt’s partnership with Matthew Boulton, a British manufacturer, helped spread the work of the steam engine by solving problems of other businesses. With the creation of the steam engine, it made industrialization possible in Britain.

The  Newcomen and Watt steam engines had the biggest impact on mining. The Watt steam engine had drastically improved the efficiency of the Newcomen engine. This caused the demand of coal to go up. Due to the introduction of the steam engine and Britain’s coal deposits, the steam engine allowed the industry to flourish as Britain quickly industrialized before anyone else. In addition, the steam engine allowed the creation of mills and factories to produce mass amounts of goods faster than the labor of people. The Corliss steam engine had an impact on the textile industry, it allowed the mass production of textiles. Not only did the steam engine help produce mass amounts of goods but it also had an impact on boats and railroads. Although later in the industrial revolution, the steam engine was applied to locomotion. Application to locomotion would spark the rail era. The steam engine made transportation easier and quicker both on land and water. Along with the easier transportation, the opportunity for making profits increased.

 Questions about the Reading

Spinning Jenny

The spinning jenny, invented by James Hargreaves in the mid-1760s, was one of the first inventions of the Industrial Revolution that got widespread use. The jenny was initially used in Britain and eventually spread to places like France after several improvements were made to its design. The jenny itself was an improvement of the older used spinning wheel, a commodity in many houses in Britain before the Industrial Revolution. The jenny’s job was to spin threads of cotton for widespread use and, unlike the spinning wheel, the jenny could be used in both small homes and industrial factories and varied in size from containing 12 to 120 spindles. The jenny was so convenient that it took substantially less labor than previous techniques and “raised the capital-labor ratio seventy-fold.” People were also frequently improving the jenny’s design and size, making it more efficient.

Still, in contrast to its many positives, the spinning jenny had its flaws, some of which were connected to its advantages. For example, since jenny’s were frequently being improved upon and changed, models quickly became outdated, much like modern IPhones and computers. Maintenance was also a factor in the frequently breaking jenny’s convenience and “annual maintenance costs equaled 10% of the purchase price of the machine”. In many cases, however, the gain outweighed the losses and the spinning jenny was typically a wise investment.

The spinning jenny itself also drastically changed the lives of many women and children living during the Industrial Revolution. Since they had smaller and more agile hands, women and children were popular factory employees and often worked long hours, avoiding domestic duties and proper schooling. This fact brought about many issues on whether or not women and children, specifically girls, should work in factories. The Primary source by an unknown author touches on both the positives and negatives of girls working with spinning jenny’s in factories towards the beginning of the Industrial revolution in 1794. Click the link below and read the source carefully. Then answer the questions below to gain a better understanding on the author’s main points.

Observations on the Loss of Woollen Spinning, 1794

Questions about the Reading

All of these inventions had a large impact on the Industrial Revolution. While this chapter focuses on three main inventions, it is important to remember that there were many more inventions that helped shape the modern world. Although all of these three inventions were instrumental to the progress of the industrial revolution. Without these inventions, we would not be as technologically advanced as we are now. As a society, we are constantly progressing and coming up with new inventions that shape society. What do you think is the most important invention to come out of the Industrial Revolution?  What modern inventions do you think that we will look back on as the inventions that shaped the 21st century?

“BBC – History – British History In Depth: The Blast Furnace Animation”. Bbc.co.uk, date accessed 11 May 2016, http://www.bbc.co.uk/history/british/victorians/launch_ani_blast_furnace.shtml.

“World Of Coke: Coke Is A High Temperature Fuel”. Ustimes.com.

“Coke,” Encyclopædia Britannica Online, date accessed 11 May 2016, http://www.britannica.com/technology/coke.

“Iron & Steel Manufacture Industrial Revolution Significance.” Industrial Revolution, date accessed 11 May 2016,  http://industrialrevolution.org.uk/iron-steel-industrial-revolution/.

Richard Dennis Hoblyn, A Manual of the Steam Engine (London: Scott, Webster and Geary), chap. 2.

Hoblyn, chap. 3.

Alessandro, Bart, and Nick von Tunzelmann, “The early diffusion of the steam engine in Britain, 1700-1800: a reappraisal,” Cliometrica 5:3 (October, 2011): 314.

Corliss Steam Engine Company, The steam engine as it was, and as it is… (Providence: Knowles, Anthony, 1857), chap. 1.

Hoblyn, chap. 9.

Robert C. Allen, “The Industrial Revolution in Miniature: The Spinning Jenny in Britain, France, and India ” working paper, last modified 2007, https://www.nuffield.ox.ac.uk/users/Allen/unpublished/jenny5-dp.pdf2007.

Ibid.