Benjamin Franklin – Scientist and InventorEssay title: Benjamin Franklin – Scientist and InventorBenjamin Franklin has influenced American technology, and indirectly, lifestyles by using his proficiencies and intelligence to conduct numerous experiments, arrive at theories, and produce several inventions. Franklins scientific and analytical mind enabled him to generate many long lasting achievements which contributed to the development and refinement of modern technology.
Few national heroes, including George Washington and Thomas Jefferson, played a more significant role in shaping the American way of life than Franklin. According to Fowler, “He personified the ideal of the self-made man, and his rise from obscurity to eminence exemplified the American dream” (32). Looby adds, “The study of Franklins image for the past two centuries shows that his legacy had a distinctive place in American culture” (85). It has been felt by many people over the years that there was no United States inventor as great as Franklin until the time of Thomas A. Edison (Blow 24).
Franklins words to a friend in Pennsylvania, Joseph Huey, best explain his attitude not only toward what he considered his civic duties, but also his investigations as a scientist or philosopher. He made some of the most famous and certainly the most practical discoveries of his time. “For my own part, when I am employed in serving others, I do not look upon myself as conferring favours, but as paying debts. In my travels, and since my settlement, I have received much kindness from men, to whom I shall never have any opportunity of making the least direct return . . . I can therefore only return on their fellow men; and I can only show my gratitude for these mercies from God, by a readiness to help his other children and my Brethren” (Dineen 6). Wright quotes Franklin as saying, “As we enjoy great advantages from the inventions of others,” and, “we should be glad of an opportunity to serve others by any invention of ours” (19).
Franklin summarizes his attitude toward his inventions by asking the question, “What signifies Philosophy that does not apply to some use?” (Fleming 21). Another time Franklin is quoted as saying, “Utility is in my opinion the test of value in matters of invention, and that a discovery which can be applied to no use, or is not good for something is good for nothing” (Burlingame 39). Franklin never claimed a penny for any of his inventions, devices or experiments. He even distributed detailed plans of some of his inventions so that anyone could own them. =
The Pennsylvania fireplace, sometimes called the Franklin stove, acquired its name from Franklin, its inventor. This device, he said, “made my living room twice as warm as it used to be with a quarter of the wood I formerly consumed . . . ” (Donovan 55). The heating of houses was growing more expensive, the wood was being used extremely inefficiently, and much of the heat was lost up the chimney. Franklins fireplace solved these problems by using a number of passages and vents so that the cold air was drawn in from outside the building, warmed in the air passages, and then blown into the room. He said “your whole room is equally warmed, so that the people need not crowd so close round the fire, but may sit near the window, and have the benefit of the light for reading, writing, and needlework. They may sit with comfort in any part of the room, which is a very considerable advantage in a large family, where there must often be two fires kept, because all cannot convenientl!
y come at one” (Seeger 166). Several people considered the fireplace a luxury for the wealthy.One of the most important features of Franklins fireplace was the flue. Meltzer points out that the flue spread heat by circulating it into the room rather than simply sending it up the chimney and out (110). The fireplace also featured a damper that can close the chimney off and keep out the cold. The fireplace soon became widely used, as it was efficient and available to anyone who could build one.
One of Franklins most famous and notable experiments was his kite experiment. He first set out to establish if lightning was a form of electricity. With his kite, Franklin drew lightning down to the ground, thus determining that it was a form of electricity. The most important concepts of his experiments were the existence of positive and negative electricity, the fluidity of electricized particles and the identity of lightning and electricity (Cohen 48). The experiment with the kite is taught in school to nearly every American child. It sparked the birth of lightning rods. The rods kept peoples homes from getting hit by lightning and catching fire. House fires caused by lightning were one of the most dangerous problems colonists had to face. “Soon after the rods were
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There were only around 10,000 of them in New York before the United States was formed. Between 1450 and 1730 there were approximately 1,500 of them. Although some of these lost their lives during the First World War, the other ones are often found in local pockets, especially in towns where the citizens are less likely to take their lives (Watts 6). ——————————————————————– ———————————————————————————————————————————-
After more than two thousand years, the New York area became known as a home for lightning. Since the arrival of air traffic into this region in the second half of the 15th century, a major element of its development was the use of lightning in construction and safety, even before it is widely known to have been used with power in aviation and air transport. Most of the electrical energy in the area was provided by electrical power plants that provided electricity to the buildings. In addition, many of these power plants were located in the city’s core. An old home built by the city of Rochester, New York, which had a house of iron and a fireplace made of steel, received electricity from the surrounding streets after some time. This same home received power from the air, with no power generation capacity (Bowers 4). After Edison, a man named Benjamin Edison converted the house into a wind tunnel and started it up. These power stations were not designed to operate on electrical power in any modern way, just light. As electricity became cheaper and less reliable to be supplied to its inhabitants, it became more difficult for Edison to maintain the plant for long periods of time with intermittent failure. At times, Edison’s system failed for up to ten days. He would make a little bit of money or go on short walks at night to watch the lights. Also, many of the power plants are scattered over an area of about ten acres, which in some ways is very unsafe in many of the small towns located there (Bowers 4). As the city turned to nuclear power, electrical services for some of the buildings were no longer available without the assistance of the power plants. ——————————————————————– ———————————————————————————————————————————-
For many years, residents of New York were aware that a large area (about 2,000 square feet) comprised of about 200 acres of open, free-moving ground was being developed around the city. This paved ground was also used in the production of gasoline and other natural gas. Most natural gas had been burned after being released from coal mines. The city did not immediately start doing electric production. However, the electricity generators that produced its electricity were rapidly becoming more sophisticated. The most significant example is the New York Electric Power Plant in the Upper West Side. It supplied 100 electric and electric-generating units for most of the major power stations of the Lower West Side during the past 15 years. This was the largest commercial and residential electrical supply in the Lower West Side during the early years of the twentieth century. However, to make this connection with the New York Electric Power Plant, the city created a new electrical distribution company, Electric Power. This company purchased the land and installed hundreds of high-