Archimedes
Essay by review • December 19, 2010 • Essay • 1,205 Words (5 Pages) • 1,672 Views
Born the son of an astronomer, Phidias, in 287 B.C., Archimedes' education began as a young man in Syracuse. He furthered his education in Alexandria, where he studied with fellow scholar Conon, an Egyptian mathematician.
What we know of Archimedes comes from his personal works as well as those of Cicero and Plutarch. However, "due to the length of time between Archimedes' death and his biographers' accounts, as well as inconsistencies among their writings, details of his life must remain subject to question" (Galenet 1).
It is doubtless that Archimedes was the greatest geometer of his time, and he has not been paralleled since then. To imagine just how much knowledge he discovered, and the amount of intelligence he must have had to discover it, is practically impossible. "Archimedes' contributions to mathematical knowledge were diverse" (Galenet 1). He discovered the concepts of Pi, the area of a circle, wrote principles on plane/solid geometry, and developed a somewhat rudimentary form of calculus.
In his dealings with plane geometry, Archimedes wrote several treatises, three of which survive today: Measurement of a Circle, Quatdrature of the Parabola, and On Spirals. It is in Measurements of a Circle that Archimedes reveals how he calculated Pi.
Pi was found by using a theoretically simple method. Pi represents the number 3.14... In turn, 3.14 represents the circumference of a circle. In order to find this number, Archimedes started with the obvious: draw a circle.
In this circle, he drew a six-sided polygon, with each vertex touching part of the circle. Similarly, he drew a hexagon on the outside of the circle, with each segment's midpoint touching part of the circle. He calculated the perimeters of both figures. Archimedes then proceeded to double the sides of the polygons, now having two twelve-sided figures, and again found the perimeters. He continued in the fashion of doubling the number of sides of each polygon until he had two ninety-six-sided figures. The perimeter of the inner polygon was 3.1416, and the perimeter of the circumscribed polygon was 3.1527. He used these to values to approximate Pi as being 3.14.
Quadrature of a Parabola was probably Archimedes' basis for creating his legendary "Death Ray". Supposedly, Archimedes developed a ray that was able to focus the sun's energy at a fixed point that was several hundred feet away. Such a concentration of heat and energy would cause the subject to spontaneously combust. How could he have done this?
One version of the story is that Archimedes positioned several enormous mirrors to face the sea. In essence, these mirrors all contributed to form one parabola, the energy of which was aimed at enemy Roman ships. Upon contact with the ships, the Roman fleet burst into flames and was destroyed. Greece successfully sent surviving Roman ships retreating back to their homeland.
Along with the Death Ray, Archimedes created the catapult, which allowed heavy objects such as beams or stones to be heaved into the air toward unsuspecting enemies. He also created "grappling cranes that hoisted ships out of water" (Galenet 2).
It is apparent that Archimedes was an asset to any nation. His knowledge was so sought after that it was forbidden for any man to kill him- any fate suffered by Archimedes would be shared by his murderer. Every army wanted a mind like Archimedes on their side, and went to great lengths to capture him, though none succeeded.
Unfortunately, while Archimedes' fame and inventions were spread far and wide, his image was not. During a Roman invasion, Archimedes was deeply absorbed in his work of geometrical figures. He was found by a soldier who ordered him to surrender. Archimedes paid no attention to the intrusion to his work, and resumed what he had been doing. This greatly angered the soldier- completely unaware of the true identity of Archimedes- and the soldier promptly killed him.
Being the mathematician that he was, Archimedes had requested that an illustration of one of his findings ("the volume of a sphere is two-thirds the volume of a cylinder surrounding
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