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  1. The spherical case of the tūsī couple: George Saliba and E.s. Kennedy.George Saliba - 1991 - Arabic Sciences and Philosophy 1 (2):285-291.
    In this article we study the development of the mathematical theorem, now known as the Tūsī Couple, and discuss the difference between its plane and spherical applications. Dans cet article, nous étudions le développement du théorème mathématique, connu maintenant sous le nom de ‘couple d'al-Tūsī’; et nous discutons la différence entre son application plane et son application sphérique.
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  • The Arabic Version of Ptolemy's Planetary Hypotheses.G. J. Toomer & Bernard R. Goldstein - 1970 - Journal of the American Oriental Society 90 (2):296.
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  • The Planetary Theory of Ibn al-Shatir: Latitudes of the Planets.Victor Roberts - 1966 - Isis 57 (2):208-219.
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  • The Spherical Case of the Tūsī Couple.George Saliba & E. S. Kennedy - 1991 - Arabic Sciences and Philosophy 1 (2):285.
    In this article we study the development of the mathematical theorem, now known as the T Couple, and discuss the difference between its plane and spherical applications.
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  • Taking Latitude with Ptolemy: al- Novel Geometric Model of the Motions of the Inferior Planets.Glen Van Brummelen - 2006 - Archive for History of Exact Sciences 60 (4):353-377.
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  • Muḥyī al-Dīn al-Maghribī’s lunar measurements at the Maragha observatory.S. Mohammad Mozaffari - 2014 - Archive for History of Exact Sciences 68 (1):67-120.
    This paper is a technical study of the systematic observations and computations made by Muḥyī al-Dīn al-Maghribī (d. 1283) at the Maragha observatory (north-western Iran, c. 1259–1320) in order to newly determine the parameters of the Ptolemaic lunar model, as explained in his Talkhīṣ al-majisṭī, “Compendium of the Almagest.” He used three lunar eclipses on March 7, 1262, April 7, 1270, and January 24, 1274, in order to measure the lunar epicycle radius and mean motions; an observation on April 20, (...)
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  • Al-Khwarizmi's Planetary Latitude Tables.A. S. Kennedy & Walid Ukashah - 1969 - Centaurus 14 (1):86-96.
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  • Gersonides Unusual Position on "Position"1.Ruth Glasner - 2003 - Centaurus 45 (1-4):249-263.
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  • An Islamic Computer for Planetary Latitudes.E. S. Kennedy - 1951 - Journal of the American Oriental Society 71 (1):13-21.
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  • Ptolemy, Bianchini, and Copernicus: Tables for Planetary Latitudes.José Chabás & Bernard R. Goldstein - 2004 - Archive for History of Exact Sciences 58 (5):453-473.
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  • Ibn al-Haytham's Homocentric Epicycles in Latin Astronomical Texts of the XIVth and XVth Centuries.J. L. Mancha* - 1990 - Centaurus 33 (1):70-89.
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  • Studies in the Astronomy of the Roman Period IV Solar Tables Based on a Non-Hipparchian Model.Alexander Jones - 2000 - Centaurus 42 (2):77-88.
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  • Ordering the Heavens: Roman Astronomy and Cosmology in the Carolingian Renaissance. [REVIEW]Bruce Eastwood - 2008 - Speculum 83 (3):692-694.
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  • The Computation of Planetary Longitudes in the Zīj of Ibn al-Bannā'.Julio Samsó & Eduardo Millás - 1998 - Arabic Sciences and Philosophy 8 (2):259.
    Ibn al-Bann1321) is the author of one of the four extant of the unfinished zq (fl. Tunis and Marrakesh ca. 1193j accessible for the computation of planetary longitudes. The present paper studies some modifications of the structure of the tables the purpose of which is to make calculations easier. The tables of the planetary and lunar equations of the centre are ' appears as a clever adapter, who displays a clear ingenuity allowing him to introduce formal modifications which give his (...)
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