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'''{{transl|ar|ALA|Abū Kāmil Shujāʿ ibn Aslam ibn Muḥammad Ibn Shujāʿ}}''' (Abu Kamil, {{lang-ar|ابو كامل}}, also called ''al-Ḥasib al-Miṣrī''&mdash;literally, "the Egyptian calculator") (c. 850 – c. 930) was an ] ] during the ]. Abu Kamil made important contributions to the field of ].<ref name=MacTutor>{{MacTutor Biography|id=Abu_Kamil}}</ref> His mathematical techniques were later adopted by ].<ref name=MacTutor /> Other European mathematicians learned about the ] through translations of his books.<ref name="Livio">{{cite book | last = Livio | first = Mario | title = The Golden Ratio | publisher = Broadway | location = New York | year = 2003 | isbn = 0-7679-0816-3 | pages=89-90,92,96}}</ref> '''{{transl|ar|ALA|Abū Kāmil Shujāʿ ibn Aslam ibn Muḥammad Ibn Shujāʿ}}''' (Abu Kamil, {{lang-ar|ابو كامل}}, also called ''al-Ḥasib al-Miṣrī''&mdash;literally, "the Egyptian calculator") (c. 850 – c. 930) was an ] ] during the ]. Abu Kamil made important contributions to the field of ], and was the first to recognize ] as its "inventor".<ref name=MacTutor>{{MacTutor Biography|id=Abu_Kamil}}</ref> His mathematical techniques were later adopted by ], thus allowing Abu Kamil an important part in introducing algebra to Europe.<ref name=MacTutor /> Other European mathematicians learned about the ] through translations of his books.<ref name="Livio">{{cite book | last = Livio | first = Mario | title = The Golden Ratio | publisher = Broadway | location = New York | year = 2003 | isbn = 0-7679-0816-3 | pages=89-90,92,96}}</ref> He may also have been the first mathematician "who instead of simply finding a solution to a problem was interested in finding ''all'' the possible solutions".<ref name="Livio" />


==Works== ==Works==

Revision as of 20:57, 14 March 2011

Abū Kāmil Shujā ibn Aslam
Bornc. 850
Diedc. 930
Academic work
EraIslamic Golden Age
Main interestsAlgebra, Geometry
Notable worksThe Book of Rare Things in the Art of Calculation
InfluencedFibonacci

Abū Kāmil Shujāʿ ibn Aslam ibn Muḥammad Ibn Shujāʿ (Abu Kamil, Template:Lang-ar, also called al-Ḥasib al-Miṣrī—literally, "the Egyptian calculator") (c. 850 – c. 930) was an Egyptian Muslim mathematician during the Islamic Golden Age. Abu Kamil made important contributions to the field of algebra, and was the first to recognize Al-Khwarizmi as its "inventor". His mathematical techniques were later adopted by Fibonacci, thus allowing Abu Kamil an important part in introducing algebra to Europe. Other European mathematicians learned about the Hindu-Arabic numerals through translations of his books. He may also have been the first mathematician "who instead of simply finding a solution to a problem was interested in finding all the possible solutions".

Works

Abu Kamil's major work, The Book of Rare Things in the Art of Calculation (Kitāb al-ṭarā’if fi’l-ḥisāb), describes a number of systematic procedures for finding integral solutions for indeterminate equations. Such procedures were not known to many of his peers. This work led to further research into real numbers and solutions of polynomials by mathematicians including al-Karaji and al-Samawʾal, and as such had a lasting impact on the development of algebra. In this book he describes one problem for which he found 2,678 solutions.

His other major work is On the Pentagon and Decagon (Kitāb … al-mukhammas wa’al-mu‘ashshar), where he solved systems of equations whose solutions are whole numbers and fractions, and accepted irrational numbers (often in the form of a square root, cube root or fourth root) as solutions and coefficients to quadratic equations. Abu Kamil is considered the first to systematically use and accept irrational numbers as algebraic objects. Some of his calculations in this book used the Golden Ratio.

He also wrote Kitāb al-Misāḥa, a manual of geometry for non-mathematicians, like land surveyors and other government officials.

Ḥajjī Khalīfa attributed to him a book on algebraic solutions for problems related to Islamic inheritance.

Another achievement of Abu Kamil is solving three non-linear simultaneous equations with three unknown variables. He is also considered as the first Islamic mathematician to work with algebraic equations with powers higher than x 2 {\displaystyle x^{2}} . In some of his books he wrote all the mathematical problems rhetorically, lacking any mathematical notation beside the numbers. For example, he uses the expression "square square root" for x 5 {\displaystyle x^{5}} (i.e. x 2 {\displaystyle x^{2}} · x 2 {\displaystyle x^{2}} · x {\displaystyle x} ).

Many of Abu Kamil's examples and algebraic techniques were later copied by Fibonacci in his Practica geometriae and other works.

Notes

  1. ^ O'Connor, John J.; Robertson, Edmund F., "Abu Kamil", MacTutor History of Mathematics Archive, University of St Andrews
  2. ^ Livio, Mario (2003). The Golden Ratio. New York: Broadway. pp. 89–90, 92, 96. ISBN 0-7679-0816-3.
  3. ^ Levey, Martin (2008) . "Abū Kāmil Shujāʿ ibn Aslam ibn Muḥammad ibn Shujā". Complete Dictionary of Scientific Biography. Encyclopedia.com. {{cite encyclopedia}}: External link in |title= (help)
  4. ^ Jacques Sesiano, "Islamic mathematics", p. 148, in Selin, Helaine; D'Ambrosio, Ubiratan (2000). Mathematics Across Cultures: The History of Non-Western Mathematics. Springer. ISBN 1-4020-0260-2.
  5. Berggren, J. Lennart (2007). "Mathematics in Medieval Islam". The Mathematics of Egypt, Mesopotamia, China, India, and Islam: A Sourcebook. Princeton University Press. p. 518. ISBN 978-0-691-11485-9.

Further reading

  • Djebbar, Ahmed. Une histoire de la science arabe: Entretiens avec Jean Rosmorduc. Seuil (2001)

External links

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