Japanese mathematics

From Wikipedia, the free encyclopedia

Japanese mathematics (和算, wasan) denotes a distinct kind of mathematics which was developed in Japan during the Edo period (1603–1867). The term wasan, from wa ("Japanese") and san ("calculation"), was coined in the 1870s[1] and employed to distinguish native Japanese mathematical theory from Western mathematics (洋算 yōsan).[2]

In the history of mathematics, the development of wasan falls outside the Western realm. At the beginning of the Meiji period (1868–1912), Japan and its people opened themselves to the West. Japanese scholars adopted Western mathematical technique, and this led to a decline of interest in the ideas used in wasan.

History[edit]

The soroban in Yoshida Koyu's Jinkōki (1641 edition)

The Japanese mathematical schema evolved during a period when Japan's people were isolated from European influences, but instead borrowed from ancient mathematical texts written in China, including those from the Yuan dynasty and earlier. The Japanese mathematicians Yoshida Shichibei Kōyū, Imamura Chishō, and Takahara Kisshu are among the earliest known Japanese mathematicians. They came to be known to their contemporaries as "the Three Arithmeticians".[3][4]

Yoshida was the author of the oldest extant Japanese mathematical text, the 1627 work called Jinkōki. The work dealt with the subject of soroban arithmetic, including square and cube root operations.[5] Yoshida's book significantly inspired a new generation of mathematicians, and redefined the Japanese perception of educational enlightenment, which was defined in the Seventeen Article Constitution as "the product of earnest meditation".[6]

Seki Takakazu founded enri (円理: circle principles), a mathematical system with the same purpose as calculus at a similar time to calculus's development in Europe. However Seki's investigations did not proceed from the same foundations as those used in Newton's studies in Europe.[7]

Mathematicians like Takebe Katahiro played an important role in developing Enri (" circle principle"), a crude analog to the Western calculus.[8] He obtained power series expansion of in 1722, 15 years earlier than Euler. He used Richardson extrapolation in 1695, about 200 years earlier than Richardson.[9] He also computed 41 digits of π, based on polygon approximation and Richardson extrapolation.[10]

Select mathematicians[edit]

Replica of Katsuyo Sampo by Seki Takakazu. Page written about Bernoulli number and Binomial coefficient.

The following list encompasses mathematicians whose work was derived from wasan.

See also[edit]

Notes[edit]

  1. ^ Selin, Helaine. (1997). Encyclopaedia of the History of Science, Technology, and Medicine in Non-Western Cultures, p. 641. , p. 641, at Google Books
  2. ^ Smith, David et al. (1914). A History of Japanese Mathematics, p. 1 n2., p. 1, at Google Books
  3. ^ Smith, p. 35. , p. 35, at Google Books
  4. ^ Campbell, Douglas et al. (1984). Mathematics: People, Problems, Results, p. 48.
  5. ^ Restivo, Sal P. (1984). Mathematics in Society and History, p. 56., p. 56, at Google Books
  6. ^ Strayer, Robert (2000). Ways of the World: A Brief Global History with Sources. Bedford/St. Martins. p. 7. ISBN 9780312489168. OCLC 708036979.
  7. ^ Smith, pp. 91–127., p. 91, at Google Books
  8. ^ Mathematical Society of Japan, Takebe Prize
  9. ^ Osada, Naoki (Aug 26, 2011). "収束の加速法の歴史 : 17世紀ヨーロッパと日本の加速法 (数学史の研究)" (PDF). Study of the History of Mathematics RIMS Kôkyûroku (in Japanese). 1787: 100–102 – via Kyoto University.
  10. ^ Ogawa, Tsugane (May 13, 1997). "円理の萌芽 : 建部賢弘の円周率計算 : (数学史の研究)" (PDF). Study of the History of Mathematics RIMS Kôkyûroku (in Japanese). 1019: 80–88 – via Kyoto University.
  11. ^ Smith, pp. 104, 158, 180., p. 104, at Google Books
  12. ^ a b c d List of Japanese mathematicians -- Clark University, Dept. of Mathematics and Computer Science
  13. ^ a b Fukagawa, Hidetoshi et al. (2008). Sacred Mathematics: Japanese Temple Geometry, p. 24.
  14. ^ Smith, p. 233., p. 233, at Google Books

References[edit]

External links[edit]