Sir Isaac Newton was born on December 25, 1642 in Woolsthorpe, near Grantham in Lincolnshire, England. Newton is clearly the most influential scientist who ever lived. His accomplishments in mathematics, optics, and physics laid the foundations for modern science and revolutionized the world. Newton studied at Cambridge and was professor there from 1669 to 1701, succeeding his teacher Isaac Barrow as Luc asian professor of mathematics. His most important discoveries were made during the two-year period from 1664 to 1666, when the university was closed and he retired to his hometown of Woolsthorpe. At that time he discovered the law of universal gravitation, began to develop the calculus, and discovered that white light is composed of all the colors of the spectrum.
These findings enabled him to make fundamental contributions to mathematics, astronomy, and theoretical and experimental physics. Newton summarized his discoveries in terrestrial and celestial mechanics in his Philosophiae naturalis principia mathematica (mathematical principles of natural philosophy) in 1687, one of the greatest milestones in the history of science. In it he showed how his principle of universal gravitation provided an explanation both of falling bodies on the earth and of the motions of planets, comets, and other bodies in the heavens. The first part of the Principia is devoted to dynamics and includes Newton’s three famous laws of motion; the second part to fluid motion and other topics; and the third part to the system of the world, for example, the unification of terrestrial and celestial mechanics under the principle of gravitation and the explanation of Kepler’s laws of planetary motion. Although Newton used the calculus to discover his results, he explained them in the Principia by use of older geometric methods. Newton’s discoveries in optics were presented in his Optics in 1704, in which he elaborated his theor that light is composed of corpuscles, or particles.
The Term Paper on Sir Isaac Newton Leibniz Published Mathematics
... upon them the mathematics of orbital motion round centres of force. Newton identified gravitation as ... increasingly elaborate, refined, and exact experiments, Newton discovered measurable, mathematical patterns in the phenomenon ... to Newton in 1677. Newton had already described some of his mathematical discoveries to ... Moon's motion. Comets were shown to obey the same law; in later editions, Newton added ...
His corpuscular theory dominated optics until the early 19 th century when it was replaced by the wave theory of light. The two theories were combined in the modern quantum theory. Among his other accomplishments were his construction of a reflecting telescope in 1668 and his anticipation of the calculus of variations, founded by Gottfried Leibniz and the Bernoulli’s. In later years, Newton considered mathematics and physics a recreation and turned much of his energy toward alchemy, theology, and history, particularly problems of chronology. Newton was his university’s representative in Parliament from 1689-90 and 1701-2 and was president of the Royal Society from 1703 until his death. He was made warden of the mint in 1696 and master in 1699, being knighted in 1705 in recognition of his services at the mint as much as for his scientific accomplishments.
Although Newton was known as an open and generous person, at various times in his life he became involved in quarrels and controversies. The most notable was his dispute with Leibniz over which of them had first invented calculus; today they are jointly ascribed the honor. “Sir Isaac Newton” Microsoft Encarta. Copyright 1998 Microsoft Corporation. Andrade, E. N.
da C. Sir Isaac Newton. Greenwood Pub. , 1979.
Bell, E. T. “On the Seashore: Newton.” Ch. 6 in Men of Mathematics: The Lives and Achievements of the Great Mathematicians from Zeno to Poincar. New York: Simon and Schuster, pp. 90-116, 1986.
Christianson, G. E. In the Presence of Creation: Isaac Newton and His Times. New York: Free Press, 1984. De Gand t, F. Force and Geometry in Newton’s Principia.
Princeton, NJ: Princeton University Press, 1995. Fauve l, J. ; Flood, R. ; Shortland, M.
, and Wilson, R. (Eds. ).
The Essay on The Enlightenment Newton Theory Galileo
"I think, therefore I am,' a quote by Descartes, an enlightenment mathematician and developer of analytic geometry. Other mathematicians include Galileo Galilei, and Newton, the founder of gravity. Galileo was a grand mathematician I believe with his theories on the solar system that proved Copernicus's theories igniting a revolution in astronomy. Galileo also came up with his wonderful Inertia ...
Let Newton Be! New York: Oxford University Press, 1988.