Mean speed theorem
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The mean speed theorem, also known as the Merton rule of uniform acceleration,[1] was discovered in the 14th century by the Oxford Calculators of Merton College, and was proved by Nicole Oresme. It states that a uniformly accelerated body (starting from rest, i.e. zero initial velocity) travels the same distance as a body with uniform speed whose speed is half the final velocity of the accelerated body.[2]
Details
Oresme provided a geometrical verification for the generalized Merton rule, which we would express today as (i.e., distance traveled is equal to one half of the sum of the initial and final velocities, multiplied by the elapsed time ), by finding the area of a trapezoid.[3] Clay tablets used in Babylonian astronomy (350–50 BC) present trapezoid procedures for computing Jupiter's position and motion.[4]
The medieval scientists demonstrated this theorem—the foundation of "the law of falling bodies"—long before Galileo, who is generally credited with it. Oresme's proof is also the first known example of the modelization of a physical problem as a mathematical function with a graphical representation, as well as of an early form of integration. The mathematical physicist and historian of science Clifford Truesdell, wrote:[5]
The theorem is a special case of the more general kinematics equations for uniform acceleration.
See also
Notes
Further reading
- Sylla, Edith (1982) "The Oxford Calculators", in Kretzmann, Kenny & Pinborg (edd.), The Cambridge History of Later Medieval Philosophy.
- Longeway, John (2003) "William Heytesbury", in The Stanford Encyclopedia of Philosophy.
- ↑ Edward Grant A Source Book in Medieval Science (1974) Vol. 1, p. 252.
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- ↑ C. H. Edwards, Jr., The Historical Development of the Calculus (1979) pp. 88-89.
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- ↑ Clifford Truesdell, Essays in The History of Mechanics, (Springer-Verlag, New York, 1968), p. 30