Science in the medieval Islamic world

This article is about the history of science in the Islamic civilization between the 8th and 16th centuries. For information on science in the context of Islam, see Islam and science.

Science in the medieval Islamic world (also known, less accurately, as Islamic science or Arabic science) was the science developed and practiced in the medieval Islamic world during the Islamic Golden Age (8th century CE c. 1258 CE, sometimes considered to have extended to the 15th or 16th century). During this time scholars translated Indian, Assyrian, Iranian and Greek knowledge into Arabic. These translations became a wellspring for scientific advances by scientists from Muslim-ruled areas during the Middle Ages.[1]

Scientists within the Muslim-ruled areas had diverse ethnic backgrounds they included Persians,[2][3][4][5] Arabs, Assyrians, Kurds[4] and Egyptians. They also came from diverse religious backgrounds. Most were Muslims,[6][7][8] but their ranks also included some Christians,[9] Jews[9][10] and irreligious.[11][12]

Science in the context of Islamic civilization

The term Islam refers either to the religion of Islam or to the Islamic civilization that formed around it.[13] Islamic civilization is composed of many faiths and cultures, although the proportion of Muslims among its population has increased over time.[14]

The religion of Islam was completed during the lifetime of the last Islamic prophet Muhammad. After his death in 632, Islam continued to expand under the leadership of its Muslim rulers, known as Caliphs. Struggles for leadership of the growing religious community began at this time, and continue today. The early periods of Islamic history after the death of Muhammad can be referred to as the Rashidun Caliphate. Then came the period of Umayyad Caliphate.[15]

During the Umayyad Caliphate, the Islamic empire began to consolidate its territorial gains. Arabic became the language of administration. The Arabs became a ruling class assimilated into their new surroundings across the empire, rather than occupiers of conquered territories.[16]

The crystallization of Islamic thought and civilization

The Abbasid Caliphate at its greatest extent, c. 850

Through the Umayyad and, in particular, the succeeding Abbasid Caliphate's early phase, lies the period of Islamic history known as the Islamic Golden Age. This era can be identified as the years between 692 and 945,[15] and ended when the caliphate was marginalized by local Muslim rulers in Baghdad – its traditional seat of power. From 945 onward until the sacking of Baghdad by the Mongols in 1258, the Caliph continued on as a figurehead, with power devolving more to local amirs.[17]

During the Islamic Golden Age, stable political structures were established and trade flourished. The Chinese were undergoing a revolution in commerce, and the trade routes between the lands of Islam and China boomed both overland and along the coastal routes between the two civilizations.[17] Islamic civilization continued to be primarily based upon agriculture, but commerce began to play a more important role as the caliphate secured peace within the empire. The wars and cultural divisions that had separated peoples before the Arab conquests gradually gave way to a new civilization encompassing diverse ethnic and religious backgrounds. This new Islamic civilization used the Arabic language as transmitters of culture and Arabic increasingly became the language of commerce and government.[18]

Over time, the great religious and cultural works of the empire were translated into Arabic, the population increasingly understood Arabic, and they increasingly professed Islam as their religion. The cultural heritages of the area included strong Greek, Indic, Asyrian and Persian influences. The Greek intellectual traditions were recognized, translated and studied broadly. Through this process, the population of the lands of Islam gained access to all the important works of all the cultures of the empire, and a new common civilization formed in this area of the world, based on the religion of Islam. A new era of high culture and innovation ensued, where these diverse influences were recognized and given their respective places in the social consciousness.[19]

Domains of thought and culture in the High Caliphate

Illustration of medieval Islamic scholars

The pious scholars of Islam, men and women collectively known as the ulama, were the most influential element of society in the fields of Sharia law, speculative thought and theology. Their pronouncements defined the external practice of Islam, including prayer, as well as the details of the Islamic way of life. They held strong influence over government, and especially the laws of commerce. They were not rulers themselves, but rather keepers and upholders of the rule of law.[20]

Conversely, among the religious, there were inheritors of the more charismatic expressions of Christianity and Buddhism, in the Sufi orders. These Muslims had a more informal and varied approach to their religion. Islam also expressed itself in other, more esoteric forms that could have significant influence over public discourse during times of social unrest.[21]

Among the more worldly, adab – polite, worldly culture — permeated the lives of the professional, the courtly and genteel classes. Art, literature, poetry, music and even some aspects of religion were among the areas widely appreciated by those of a more refined taste among Muslim and non-Muslim alike. New trends and new topics flowed from the center of the Baghdad courts, to be adopted both quickly and widely across the lands of Islam.[21]

Apart from these other traditions stood falsafa; Greek philosophy, inclusive of the sciences as well as the philosophy of the ancients. This science had been widely known across Mesopotamia and Iran since before the advent of Islam. These "sciences" were in many ways contrary to the teachings of Islam and the ways of the adab, but were nonetheless highly regarded in society. The ulama tolerated these outlooks and practices with reservation. Some faylasufs made a good living in the practices of astrology and medicine.[21]

Medieval Islamic science

Notable fields of inquiry

The roots of Islamic science drew primarily upon Arab, Persian, Indian and Greek learning. The extent of Islamic scientific achievement is not as yet fully understood, but it is extremely vast.[1]

These achievements encompass a wide range of subject areas; most notably[1]

Other notable areas, and specialized subjects, of scientific inquiry include

Notable scientists

In medieval Islam, the sciences, which included philosophy, were viewed holistically. The individual scientific disciplines were approached in terms of their relationships to each other and the whole, as if they were branches of a tree. In this regard, the most important scientists of Islamic civilization have been the polymaths, known as hakim or sages. Their role in the transmission of the sciences was central.[22]

The hakim was most often a poet and a writer, skilled in the practice of medicine as well as astronomy and mathematics. These multi-talented sages, the central figures in Islamic science, elaborated and personified the unity of the sciences. They orchestrated scientific development through their insights, and excelled in their explorations as well.[22]

Arabs

The eye according to Hunain ibn Ishaq. From a manuscript dated circa 1200.

Moors

Persians

A page from al-Khwārizmī's Algebra
Drawing of Self trimming lamp in Ahmad ibn Mūsā ibn Shākir's treatise on mechanical devices. The manuscript was written in Arabic.

Assyrians

The views of historians and scholars

On the impact of medieval Islamic science

There are several different views on Islamic science among historians of science.

On the historiography of medieval Islamic science

The history of science in the Islamic world, like all history, is filled with questions of interpretation.

Historians of science generally consider that the study of science in the Islamic world, like all history, must be seen within the particular circumstances of time and place.

Some scholars avoid such local historical approaches and seek to identify essential relations between Islam and science that apply at all times and places.

Some historians of science, however, question the value of drawing boundaries that label the sciences, and the scientists who practice them, in specific cultural, civilizational, or linguistic terms.

Role of Christians

Christians especially Nestorian contributed to the Arab Islamic Civilization during the Ummayads and the Abbasids by translating works of Greek philosophers to Syriac and afterwards to Arabic.[68] They also excelled in philosophy, science (such as Hunayn ibn Ishaq, Qusta ibn Luqa, Masawaiyh, Patriarch Eutychius, Jabril ibn Bukhtishu etc) and theology (such as Tatian, Bar Daisan, Babai the Great, Nestorius, Toma bar Yacoub etc.) and the personal physicians of the Abbasid Caliphs were often Assyrian Christians such as the long serving Bukhtishu dynasty.[69][70]

Role of Persians

As Ibn Khaldun, the fourteenth-century Arab historiographer and sociologist suggests, it is a remarkable fact that with few exceptions, most Muslim scholars in the intellectual sciences were Ajams ("Persians"):

Thus the founders of grammar were Sibawaih and after him, al-Farisi and Az-Zajjaj. All of them were of Persian descent… they invented rules of (Arabic) grammar … great jurists were Persians … only the Persians engaged in the task of preserving knowledge and writing systematic scholarly works. Thus the truth of the statement of the prophet becomes apparent, 'If learning were suspended in the highest parts of heaven the Persians would attain it' … The intellectual sciences were also the preserve of the Persians, left alone by the Arabs, who did not cultivate them … as was the case with all crafts … This situation continued in the cities as long as the Persians and Persian countries, Iraq, Khorasan and Transoxiana [=modern Central Asia], retained their sedentary culture.
Ibn Khaldun, Muqaddimah, Translated by Franz Rosenthal (III, pp. 311-15, 271-4 [Arabic]; R.N. Frye. p. 91.

See also

Notes

  1. 1 2 3 Robinson (editor), Francis (1996). The Cambridge Illustrated History of the Islamic World. Cambridge University Press. pp. 228–229.
  2. William Bayne Fisher, et al, The Cambridge History of Iran 4, Cambridge University Press, 1975, p. 396
  3. Shaikh M. Ghazanfar, Medieval Islamic economic thought: filling the "great gap" in European economics, Psychology Press, 2003 (p. 114-115)
  4. 1 2 Ibn Khaldun, Franz Rosenthal, N. J. Dawood (1967), The Muqaddimah: An Introduction to History, p. 430, Princeton University Press, ISBN 0-691-01754-9.
  5. Joseph A. Schumpeter, Historian of Economics: Selected Papers from the History of Economics Society Conference, 1994, y Laurence S. Moss, Joseph Alois Schumpeter, History of Economics Society. Conference, Published by Routledge, 1996, ISBN 0-415-13353-X, p.64.
  6. Howard R. Turner (1997), Science in Medieval Islam, p. 270 (book cover, last page), University of Texas Press, ISBN 0-292-78149-0
  7. Hogendijk, Jan P. (January 1999), Bibliography of Mathematics in Medieval Islamic Civilization
  8. A. I. Sabra (1996). "Greek Science in Medieval Islam". In Ragep, F. J.; Ragep, Sally P.; Livesey, Steven John. Tradition, Transmission, Transformation: Proceedings of Two Conferences on Pre-modern Science held at the University of Oklahoma. Brill Publishers. p. 20. ISBN 90-04-09126-2.
  9. 1 2 Bernard Lewis, The Jews of Islam, 1987, p.6
  10. Salah Zaimeche (2003), Introduction to Muslim Science.
  11. Hogendijk 1989
  12. Bernard Lewis, What Went Wrong? Western Impact and Middle Eastern Response
  13. Lewis, Brenard (1987). The Jews of Islam. Princeton University Press. pp. 5–6.
  14. Courbage, Youssef; Fargues, Phillipe (1995). Christians and Jews under Islam. London: I.B. Tauris Publishers. pp. ix–x. ISBN 1-86064-285-3.
  15. 1 2 Marshall Hodgson, The Venture of Islam; Conscience and History in a World Civilization Vol 1. The University of Chicago, 1974, pg. 234.
  16. Marshall Hodgson, The Venture of Islam Conscience and History in a World Civilization Vol 1. The University of Chicago, 1974, pg. 230.
  17. 1 2 Marshall Hodgson, The Venture of Islam; Conscience and History in a World Civilization Vol 1. The University of Chicago, 1974, pg. 233.
  18. Marshall Hodgson, The Venture of Islam; Conscience and History in a World Civilization Vol 1. The University of Chicago, 1974, pg. 235.
  19. Marshall Hodgson, The Venture of Islam; Conscience and History in a World Civilization Vol 1. The University of Chicago, 1974, pg. 236–238.
  20. Marshall Hodgson, The Venture of Islam; Conscience and History in a World Civilization Vol 1. The University of Chicago, 1974, pg. 238.
  21. 1 2 3 Marshall Hodgson, The Venture of Islam; Conscience and History in a World Civilization Vol 1. The University of Chicago, 1974, pg. 238–239.
  22. 1 2 Nasr, Seyyed Hossein (1968). Science and Civilization in Islam. Harvard University Press. p. 41.
  23. Masood (2009, pp.74, 148–50)
  24. Masood (2009, pp.49–52
  25. Masood (2009, pp.173–75)
  26. Masood (2009, pp.110–11)
  27. Linton (2004), p.97). Owing to the unreliability of the data al-Zarqali relied on for this estimate its remarkable accuracy was somewhat fortuitous.
  28. Masood, Ehsan (2009). Science and Islam A History. Icon Books Ltd. pp. 73–75.
  29. Masood (2009, pp.71–73)
  30. Masood (2009, pp.108–109)
  31. Masood (2009, pp.79-–80)
  32. Toomer, Gerald (1990). "Al-Khwārizmī, Abu Jaʿfar Muḥammad ibn Mūsā". In Gillispie, Charles Coulston. Dictionary of Scientific Biography. 7. New York: Charles Scribner's Sons. ISBN 0-684-16962-2.
  33. Masood (2009, pp.139–45)
  34. Masood (2009, pp.74, 99–105)
  35. Masood (2009, pp.148–49)
  36. Masood (2009, pp.104–5)
  37. Masood (2009, pp.5, 104, 145–146)
  38. Masood (2009, pp.132–35)
  39. Masood (2009, pp.161–63)
  40. Lindberg, David (1978). Science in the Middle Ages. The University of Chicago Press. p. 23,56.
  41. Selin, Helaine, ed. (1997). Encyclopaedia of the History of Science, Technology, and Medicine in Non-Western Cultures. Kluwer Academic Publishers. pp. 151, 235, 375.
  42. Henry Corbin, "The Voyage and the Messenger: Iran and Philosophy", Translated by Joseph H. Rowe, North Atlantic Books, 1998. p.45:
  43. Masood (2009, pp.153–55)
  44. Lagerkvist, Urf (2005). The Enigma of Ferment: from the Philosopher's Stone to the First Biochemical Nobel Prize. World Scientific Publishing. p. 32.
  45. O'Connor, John J.; Robertson, Edmund F., "Ghiyath al-Din Jamshid Mas'ud al-Kashi", MacTutor History of Mathematics archive, University of St Andrews.
  46. K. B. Wolf, "Geometry and dynamics in refracting systems", European Journal of Physics 16, p. 14-20, 1995.
  47. R. Rashed, "A pioneer in anaclastics: Ibn Sahl on burning mirrors and lenses", Isis 81, p. 464–491, 1990
  48. Masood (2009, pp.47–48, 59, 96–97, 171–72)
  49. Masood (2009, pp.48–49)
  50. Bertrand Russell (1945), History of Western Philosophy, book 2, part 2, chapter X
  51. Abdus Salam, H. R. Dalafi, Mohamed Hassan (1994). Renaissance of Sciences in Islamic Countries, p. 162. World Scientific, ISBN 9971-5-0713-7.
  52. (Saliba 1994, pp. 245, 250, 256–257)
  53. (Hobson 2004, p. 178)
  54. Abid Ullah Jan (2006), After Fascism: Muslims and the struggle for self-determination, "Islam, the West, and the Question of Dominance", Pragmatic Publishings, ISBN 978-0-9733687-5-8.
  55. Ahmad Y Hassan and Donald Routledge Hill (1986), Islamic Technology: An Illustrated History, p. 282, Cambridge University Press
  56. Dallal, Ahmad (2010). Islam, science, and the challenge of history. Yale University Press. p. 12. ISBN 9780300159110.
  57. (Huff 2003)
  58. Saliba, George (Autumn 1999). "Seeking the Origins of Modern Science? Review of Toby E. Huff, The Rise of Early Modern Science: Islam, China and the West". Bulletin of the Royal Institute for Inter-Faith Studies 1 (2). Retrieved 2008-04-10.
  59. Will Durant (1980). The Age of Faith (The Story of Civilization, Volume 4), p. 162–186. Simon & Schuster. ISBN 0-671-01200-2.
  60. Fielding H. Garrison, An Introduction to the History of Medicine: with Medical Chronology, Suggestions for Study and Biblographic Data, p. 86
  61. Lewis, Bernard (2001). What Went Wrong? : Western Impact and Middle Eastern Response. Oxford University Press. p. 79. ISBN 0-19-514420-1.
  62. Sabra (2000) p. 216.
  63. F. Jamil Ragep, "Freeing Astronomy from Philosophy: An Aspect of Islamic Influence on Science," Osiris, topical issue on Science in Theistic Contexts: Cognitive Dimensions, n.s. 16(2001): 49–50, note 3
  64. Nasr, Seyyed Hossein (1968). "The Principles of Islam". Science and Civilization in Islam. Harvard University Press. ISBN 0-946621-11-X. Retrieved 2008-02-03.
  65. Seyyed Hossein Nasr, Science and Civilization in Islam.
  66. Aaen-Stockdale, C.R. (2008). "Ibn al-Haytham and psychophysics". Perception 37 (4): 636–638. doi:10.1068/p5940. PMID 18546671.
  67. George Saliba (1999). Whose Science is Arabic Science in Renaissance Europe?
  68. Hill, Donald. Islamic Science and Engineering. 1993. Edinburgh Univ. Press. ISBN 0-7486-0455-3, p.4
  69. Rémi Brague, Assyrians contributions to the Islamic civilization
  70. Britannica, Nestorian

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