Oxford Calculators

Oxford Calculators

The Oxford Calculators were a group of 14th-century thinkers, almost all associated with Merton College, Oxford, who took a strikingly logico-mathematical approach to philosophical problems. The key "calculators", writing in the second quarter of the 14th century, were Thomas Bradwardine, William Heytesbury, Richard Swineshead and John Dumbleton. These men built on the slightly earlier work of Walter Burley and Gerard of Brussels.

Contents

Science

The Oxford Calculators distinguished kinematics from dynamics, emphasizing kinematics, and investigating instantaneous velocity. They first formulated the mean speed theorem: a body moving with constant velocity travels the same distance as an accelerated body in the same time if its velocity is half the final speed of the accelerated body. They also demonstrated this theorem—the foundation of "The Law of Falling Bodies" — long before Galileo, who is generally credited with it.

The mathematical physicist and historian of science Clifford Truesdell, wrote:[1]

The now published sources prove to us, beyond contention, that the main kinematical properties of uniformly accelerated motions, still attributed to Galileo by the physics texts, were discovered and proved by scholars of Merton college.... In principle, the qualities of Greek physics were replaced, at least for motions, by the numerical quantities that have ruled Western science ever since. The work was quickly diffused into France, Italy, and other parts of Europe. Almost immediately, Giovanni di Casale and Nicole Oresme found how to represent the results by geometrical graphs, introducing the connection between geometry and the physical world that became a second characteristic habit of Western thought ...

In Tractatus de proportionibus (1328), Thomas Bradwardine extended the theory of proportions of Eudoxus to anticipate the concept of exponential growth, later developed by the Bernoulli and Euler, with compound interest as a special case. Arguments for the mean speed theorem (above) require the modern concept of limit, so Bradwardine had to use arguments of his day. Mathematician and mathematical historian Carl O. Boyer writes, "Bradwardine developed the Boethian theory of double or triple or, more generally, what we would call 'n-tple' proportion".

Boyer also writes that "the works of Bradwardine had contained some fundamentals of trigonometry gleaned from Muslim sources". Yet "Bradwardine and his Oxford colleagues did not quite make the breakthrough to modern science" (Cantor 2001, p 122). The most essential missing tool was algebra.

See also

Notes

  1. ^ Clifford Truesdell, Essays in The History of Mechanics, (Springer-Verlag, New York, 1968), pp.

References

  • Sylla, Edith (1999) "Oxford Calculators", in The Cambridge Dictionary of Philosophy.

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.

Wikimedia Foundation. 2010.

Игры ⚽ Нужен реферат?

Look at other dictionaries:

  • Oxford Calculators — Die Oxford Calculators (oder Mertonian Calculators) waren eine Gruppe von Denkern im 14. Jahrhundert am Merton College und an der Universität von Oxford, die sich um eine logisch mathematische Annäherung an philosophische Probleme bemühten.… …   Deutsch Wikipedia

  • Paris and Oxford between Aureoli and Rimini — Chris Schabel Oxford ideas in logic and natural philosophy were readily received, analysed, and partially incorporated into corresponding writings of a logical or natural philosophical nature at the University of Paris throughout the 1320s, 1330s …   History of philosophy

  • Merton College, Oxford — Colleges and halls of the University of Oxford Merton College …   Wikipedia

  • Sinclair Oxford — was a range of low cost scientific calculators manufactured and sold by Sinclair Radionics in England, United Kingdom from 1975 until 1976. The first model was the Oxford 100 , launched in Spring 1975 for UK£12.95; this model was based on the… …   Wikipedia

  • Ockham’s world and future — Arthur Gibson PHILOSOPHICAL BIOGRAPHY Ockham was born in about 1285, certainly before 1290, probably in the village of Ockham, Surrey, near London. If his epitaph is accurate, he died on 10 April 1347. Yet Conrad of Megenberg, when writing to… …   History of philosophy

  • William Heytesbury — (William of Heytesbury, auch Gugliemus Hentisberus oder Tisberus; * vor 1313; † 1372 oder 1373) war ein Philosoph und Logiker, und einer der bekanntesten der Oxford Calculators (oder Mertonian Calculators) am Merton College, zusammen mit Thomas… …   Deutsch Wikipedia

  • Thomas Bradwardine — Infobox Archbishop of Canterbury Full name = Thomas Bradwardine birth name = consecration = 19 June 1349 began=unknown term end = 26 August 1349 predecessor = John de Ufford successor = Simon Islip birth date = about 1290 death date = 26 August… …   Wikipedia

  • Thomas Bradwardine — Biographie Naissance 1290 à Hartfield dans le Sussex Ordination sacerdotale vers 1310 Décès Lambeth Palace le 26 août 1349 Évêque de l Églis …   Wikipédia en Français

  • Mean speed theorem — Galileo s demonstration of the law of the space traversed in case of uniformly varied motion. It s the same demonstration that Oresme had made centuries earlier. In the 14th century, the Oxford Calculators of Merton College and French… …   Wikipedia

  • William of Heytesbury — William Heytesbury [Known as Gugliemus Hentisberus or Tisberus.] (a. 1313 – 1372/1373), philosopher and logician, is best known as one of the Oxford Calculators of Merton College, where he was a fellow by 1330.In his work he applied logical… …   Wikipedia

Share the article and excerpts

Direct link
Do a right-click on the link above
and select “Copy Link”