Jabir ibn Aflah
Abū Muḥammad Jābir ibn Aflaḥ (Arabic: أبو محمد جابر بن أفلح, Latin: Geber/Gebir; 1100–1150) was an Arab[1][2] Muslim astronomer and mathematician from Seville, who was active in 12th century al-Andalus. His work Iṣlāḥ al-Majisṭi (Correction of the Almagest) influenced Islamic, Jewish, and Christian astronomers.[3]
Jābir ibn Aflaḥ | |
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Fictional portrait by Eulogia Merle for the Fundación Española para la Ciencia y la Tecnología (2011) | |
Born | 1100 CE Seville, al-Andalus |
Died | 1150 CE |
Academic work | |
Era | Islamic Golden Age |
Main interests | Astronomy, Mathematics |
Notable works | Iṣlāḥ al-Majisṭi (Correction of the Almagest) |
Notable ideas | |
Influenced | Averroes, Nur ad-Din al-Betrugi |
Iṣlāḥ al-Majisṭi (Correction of the Almagest)
This work is a commentary and reworking of Ptolemy's Almagest and is the first criticism of it in the Islamic West. He particularly criticized the mathematical basis of the work. For example, he replaced the use of Menelaus' theorem with ones based on spherical trigonometry, in what seems to be an attempt to increase the mathematical precision of the work. These theorems had been developed by a group of 10th century Islamic mathematicians who included Abū al-Wafā' Būzjānī and then also by Abu Abd Allah Muhammad ibn Muadh Al-Jayyani who worked in Andalusia during the 11th century. Jābir does not credit any of these authors and does not refer to a single Islamic author in this work.[3]
One substantial change Jābir made to Ptolemy's account is that he placed the orbits of Venus and Mercury, the minor planets, outside that of the Sun, rather than between the Moon and the Sun as had been the case in the original work.[3]
Inventor
He invented an observational instrument known as the torquetum, a mechanical device to transform between spherical coordinate systems.[4]
Influence
Several later Islamic authors were influenced by Jābir, including Ibn Rushd (Averroes) and Nur ad-Din al-Betrugi, both of whom worked in Andalusia. The work was transmitted to Egypt in the 12th century by Maimonides and further east by the end of the 13th century.[3]
The work was translated from the Arabic into both Hebrew and Latin, the latter by Gerard of Cremona, who Latinized his name as "Geber". Through that channel it had a wide influence on later European mathematicians and astronomers and helped to promote trigonometry in Europe.[3]
Much of the material on spherical trigonometry in Regiomontanus' On Triangles (c.1463) was taken directly and without credit from Jābir's work, as noted in the 16th century by Gerolamo Cardano.[5]
Notes
- Schlager, Neil; Lauer, Josh (2001). Science and Its Times: 700-1449. Gale Group. ISBN 9780787639341.
- Publishing, Britannica Educational (2013). Portugal and Spain. Britanncia Educational Publishing. ISBN 9781615309931.
- Calvo 2007.
- Lorch, R. P. (1976). "The Astronomical Instruments of Jabir ibn Aflah and the Torquetum". Centaurus. 20 (1): 11–34. Bibcode:1976Cent...20...11L. doi:10.1111/j.1600-0498.1976.tb00214.x.
- Victor J. Katz, ed. (2007). The Mathematics of Egypt, Mesopotamia, China, India, and Islam: A Sourcebook. Princeton University Press. ISBN 978-0-691-11485-9., p.4
References
- Calvo, Emilia (2007). "Jābir ibn Aflaḥ: Abū Muḥammad Jābir ibn Aflaḥ". In Thomas Hockey; et al. (eds.). The Biographical Encyclopedia of Astronomers. New York: Springer. pp. 581–2. ISBN 978-0-387-31022-0.CS1 maint: ref=harv (link) (PDF version)
External links
- Lorch, R. P. (2008) [1970-80]. "Jābir Ibn Aflah Al-Ishbīlī, Abū Muḥammad". Complete Dictionary of Scientific Biography. Encyclopedia.com.