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Abu al-Wafa' al-Buzjani

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Persian mathematician and astronomer (940–998) "Abul Wáfa" redirects here. For the lunar crater, see Abul Wáfa (crater).
Abu al-Wafa' al-Buzjani
Born(940-06-10)10 June 940
Buzhgan, Iran
Died15 July 998(998-07-15) (aged 58)
Baghdad
Academic background
InfluencesAl-Battani
Academic work
EraIslamic Golden Age
Main interestsMathematics and astronomy
Notable worksAlmagest of Abū al-Wafā'
Notable ideas
InfluencedAl-Biruni, Abu Nasr Mansur

Abū al-Wafāʾ Muḥammad ibn Muḥammad ibn Yaḥyā ibn Ismāʿīl ibn al-ʿAbbās al-Būzjānī or Abū al-Wafā Būzhjānī (Persian: ابو الوفا بوژگانی, Arabic: ابو الوفا بوزجانی; 10 June 940 – 15 July 998) was a Persian mathematician and astronomer who worked in Baghdad. He made important innovations in spherical trigonometry, and his work on arithmetic for businessmen contains the first instance of using negative numbers in a medieval Islamic text.

He is also credited with compiling the tables of sines and tangents at 15' intervals. He also introduced the secant and cosecant functions, as well studied the interrelations between the six trigonometric lines associated with an arc. His Almagest was widely read by medieval Arabic astronomers in the centuries after his death. He is known to have written several other books that have not survived.

Life

He was born in Buzhgan, (now Torbat-e Jam) in Khorasan (in today's Iran). At age 19, in 959, he moved to Baghdad and remained there until his death in 998. He was a contemporary of the distinguished scientists Abū Sahl al-Qūhī and al-Sijzi who were in Baghdad at the time and others such as Abu Nasr Mansur, Abu-Mahmud Khojandi, Kushyar Gilani and al-Biruni. In Baghdad, he received patronage from members of the Buyid court.

Astronomy

Abu al-Wafa' was the first to build a wall quadrant to observe the sky. It has been suggested that he was influenced by the works of al-Battani as the latter described a quadrant instrument in his Kitāb az-Zīj. His use of the concept of the tangent helped solve problems involving right-angled spherical triangles. He developed a new technique to calculate sine tables, allowing him to construct more accurate tables than his predecessors.

In 997, he participated in an experiment to determine the difference in local time between his location, Baghdad, and that of al-Biruni (who was living in Kath, now a part of Uzbekistan). The result was very close to present-day calculations, showing a difference of approximately 1 hour between the two longitudes. Abu al-Wafa is also known to have worked with Abū Sahl al-Qūhī, who was a famous maker of astronomical instruments. While what is extant from his works lacks theoretical innovation, his observational data were used by many later astronomers, including al-Biruni.

Almagest

Among his works on astronomy, only the first seven treatises of his Almagest (Kitāb al-Majisṭī) are now extant. The work covers numerous topics in the fields of plane and spherical trigonometry, planetary theory, and solutions to determine the direction of Qibla.

Mathematics

He defined the tangent function, and he established several trigonometric identities in their modern form, where the ancient Greek mathematicians had expressed the equivalent identities in terms of chords. The trigonometric identities he introduced were:

sin ( a ± b ) = sin ( a ) cos ( b ) ± cos ( a ) sin ( b ) {\displaystyle \sin(a\pm b)=\sin(a)\cos(b)\pm \cos(a)\sin(b)}
cos ( 2 a ) = 1 2 sin 2 ( a ) {\displaystyle \cos(2a)=1-2\sin ^{2}(a)}
sin ( 2 a ) = 2 sin ( a ) cos ( a ) {\displaystyle \sin(2a)=2\sin(a)\cos(a)}

He may have developed the law of sines for spherical triangles, though others like Abu-Mahmud Khojandi have been credited with the same achievement:

sin A sin a = sin B sin b = sin C sin c {\displaystyle {\frac {\sin A}{\sin a}}={\frac {\sin B}{\sin b}}={\frac {\sin C}{\sin c}}}

where A , B , C {\displaystyle A,B,C} are the sides of the triangle (measured in radians on the unit sphere) and a , b , c {\displaystyle a,b,c} are the opposing angles.

Some sources suggest that he introduced the tangent function, although other sources give the credit for this innovation to al-Marwazi.

Works

  • Almagest (كتاب المجسطي Kitāb al-Majisṭī).
  • A book of zij called Zīj al-wāḍiḥ (زيج الواضح), no longer extant.
  • "A Book on Those Geometric Constructions Which Are Necessary for a Craftsman", (كتاب في ما یحتاج إليه الصانع من الأعمال الهندسية Kitāb fī mā yaḥtāj ilayh al-ṣāniʿ min al-aʿmāl al-handasiyya). This text contains over one hundred geometric constructions, including for a regular heptagon, which have been reviewed and compared with other mathematical treatises. The legacy of this text in Latin Europe is still debated.
  • "A Book on What Is Necessary from the Science of Arithmetic for Scribes and Businessmen", (كتاب في ما يحتاج إليه الكتاب والعمال من علم الحساب Kitāb fī mā yaḥtāj ilayh al-kuttāb wa’l-ʿummāl min ʾilm al-ḥisāb). This is the first book where negative numbers have been used in the medieval Islamic texts.

He also wrote translations and commentaries on the algebraic works of Diophantus, al-Khwārizmī, and Euclid's Elements.

Legacy

  • The crater Abul Wáfa on the Moon is named after him.
  • On 10 June 2015, Google changed its logo in memory of Abu al-Wafa' Buzjani.

Notes

  1. "بوزجانی". Encyclopaediaislamica.com. Archived from the original on 25 October 2008. Retrieved 30 August 2009.
  2. ^ O'Connor, John J.; Robertson, Edmund F., "Mohammad Abu'l-Wafa Al-Buzjani", MacTutor History of Mathematics Archive, University of St Andrews
  3. Ben-Menahem, A. (2009). Historical encyclopedia of natural and mathematical sciences (1st ed.). Berlin: Springer. p. 559. ISBN 978-3-540-68831-0. 970 CE Abu al-Wafa al-Buzjani (940–998, Baghdad). Persian astronomer and mathematician.
  4. Sigfried J. de Laet (1994). History of Humanity: From the seventh to the sixteenth century. UNESCO. p. 931. ISBN 978-92-3-102813-7. The science of trigonometry as known today was established by Islamic mathematicians. One of the most important of these was the Persian Abu' l-Wafa' Buzjani (d. 997 or 998), who wrote a work called the Almagest dealing mostly with trigonometry
  5. Subtelny, Maria E. (2007). Timurids in Transition. BRILL. p. 144. ISBN 9789004160316. Persian mathematician Abu al-Wafa Muhammad al-Buzjani
  6. ^ Moussa, Ali (2011). "Mathematical Methods in Abū al-Wafāʾ's Almagest and the Qibla Determinations". Arabic Sciences and Philosophy. 21 (1). Cambridge University Press: 1–56. doi:10.1017/S095742391000007X. S2CID 171015175.
  7. ^ Hashemipour 2007.
  8. Stowasser, Barbara Freyer (9 May 2014). The Day Begins at Sunset: Perceptions of Time in the Islamic World. Bloomsbury Publishing. p. 83. ISBN 978-0-85772-536-3.
  9. Kennedy, E. S. (1956). Survey of Islamic Astronomical Tables. American Philosophical Society. p. 12 (134).
  10. ^ Jacques Sesiano, "Islamic mathematics", p. 157, in Selin, Helaine; D'Ambrosio, Ubiratan, eds. (2000), Mathematics Across Cultures: The History of Non-western Mathematics, Springer, ISBN 1-4020-0260-2
  11. S. Frederick Starr (2015). Lost Enlightenment: Central Asia's Golden Age from the Arab Conquest to Tamerlane. Princeton University Press. p. 177. ISBN 9780691165851.
  12. ^ Youschkevitch 1970.
  13. Raynaud 2012.
  14. Gamwell, Lynn (2 December 2015). "Why the history of maths is also the history of art". The Guardian. Retrieved 3 December 2015.
  15. "Abul Wáfa". Gazetteer of Planetary Nomenclature. USGS Astrogeology Research Program.
  16. D. H. Menzel; M. Minnaert; B. Levin; A. Dollfus; B. Bell (1971). "Report on Lunar Nomenclature by The Working Group of Commission 17 of the IAU". Space Science Reviews. 12 (2): 136. Bibcode:1971SSRv...12..136M. doi:10.1007/BF00171763. S2CID 122125855.
  17. "Abu al-Wafa' al-Buzjani's 1075th Birthday". Google. 10 June 2015.

References

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