Monday, December 29, 2008

Science

Preface
On 8 June, AD 632, the Prophet Mohammed (Peace and Prayers be upon Him) died, having accomplished the marvelous task of uniting the tribes of Arabia into a homogeneous and powerful nation.
In the interval, Persia, Asia Minor, Syria, Palestine, Egypt, the whole North Africa, Gibraltar and Spain had been submitted to the Islamic State, and a new civilization had been established.
The Arabs quickly assimilated the culture and knowledge of the peoples they ruled, while the latter in turn - Persians, Syrians, Copts, Berbers, and others - adopted the Arabic language. The nationality of the Muslim thus became submerged, and the term Arab acquired a linguistic sense rather than a strictly ethnological one.
As soon as Islamic state had been established, the Arabs began to encourage learning of all kinds. schools, colleges, libraries, observatories and hospitals were built throughout the whole Islamic state, and were adequately staffed and endowed.
In the same time, scholars were invited to Damascus and Baghdad without distinction of nationality or creed. Greek manuscripts were acquired in large numbers and were studied, translated and provided with scholarly and illuminating commentaries.
The old learning was thus infused with a new vigor, and the intellectual freedom of men of the desert stimulated the search for knowledge and science.
In early days at least, the Muslims were eager seekers for knowledge, and Baghdad was the intellectual center of the world.
historians have justly remarked that the school of Baghdad was characterized by a new scientific spirit.
proceeding from the known to the unknown; taking precise account of phenomena; accepting nothing as true which was not confirmed by experience, or established by experiment, such were fundamental principles taught and acclaimed by the the masters of the sciences.

The Islamic Empire At Its Greatest Extent 750 c
George Sarton in his introduction, marks the time from the 2nd half of eighth century to the 2nd half of the eleventh century into:

* The time of Jabir Ibn Haiyan which covers the 2nd half of eighth century
* The time of Al-Khwarizmi which covers the 1st half of ninth century
* The time of Al-Razi which covers the 2nd half of ninth century
* The time of Al-Mas'udi which covers the 1st half of tenth century
* The time of Abu-l-Wafa which covers the 2nd half of tenth century
* The time of Al-Biruni which covers the 1st half eleventh century
* The time of Omar Khyyam which covers the 2nd half of eleventh century


The Time of Jabir Ibn Haiyan
Second half of Eighth Century

The intellectual relaxation which characterized the second half of the seventh century and the first half of the eighth was followed by a period of renewed activity which was entirely due to Muslim initiatives, that is why this period gave an Arabic name marking the beginning of Muslim science. The name Jabir Ibn Haiyan came from the highly important contributions by him in this period. Jabir's texts, whether in Arabic or Latin, are one of the most urgent and promising tasks of scholarship. He will remain a very impressive personality.

imaginative portrait of Jabir Ibn Haiyan
(Photograph, A Chelazzi, Florence,...Makers of Chemistry, E L Holmyard)

Cultural Background of this Period in the East

two rulers of the Abbasid caliphs used their authority to promote the intellectual welfare and progress of the peoples, and distinguished themselves greatly in this respect; the second, al-Mansur (founded Baghdad) and the fifth, Harun-al-Rashid (whose fame has been immortalized by many legends). Both caliphs encourage the work of translators who were busily unlocking the treasures of Greek knowledge.
Abu Ja'far 'Abdallah al-Mansur, i.e. the victorious. died in 775 at Bir Maimun, near Mecca, at the age of 63 - 68 Muslim years (Hegra), i.e. 61-66 Christian years. He was the second 'Abbasid caliph and ruled from 754 to his death.
He was a great statesman and the founder of Baghdad. memorable because of the many translations from the Syriac, Persian, Greek, and Hindu languages into the Arabic which were accomplished in his reign.
Harun al-Rashid, born in 763 or 766 at al-Ray; died at Tus in 809. Caliph from 786 to his death; the fifth and one of the greatest 'Abbasid monarchs. magnificent patron of science, art, and literature. Many more Greek works were translated by his order. In 807 he presented a very remarkable water-clock to Charlemange (King of the Franks since 768; crowned Emperor of the West on Christmas 800 by Leo III in Rome)

Islamic Mathematics and Astronomy

all of the mathematical and astronomical work of this period was done by Muslims. It is interesting to recall that the mathematical work of the previous period had been done almost exclusively by Chinese. Some amount of stimulation had come from India. In addition to transmission of some Hindu mathematics.
Ibrahim al-Fazari is said to have been the first Muslim to construct astrolabes.

Ya'qub ibn Tariq and Muhammad, son of Ibrahim al-Fazari, are the first to be mentioned in connection with Hindu mathematics: Ya'qab met at the court of al-Mansur, a Hindu astronomer called Kankah (?), who acquainted him with the Siddhanta, and Muhammad was ordered to translate it. The physician al-Batriq translated Ptolemy's Quadripartitum. two astrologers, one of them a Jew named Mashallah, the other a Persian called al-Naubakht, worked together to make the measurements necessary for the building of Bagdad. Al-Naubakht's son, al-Fadl, wrote astrological treatises and translations from the Persian into Arabic.

Ibrahim al-Fazari
Abu Ishaq Ibrahlm ibn Habib ibn Sulaiman ibn Samura ibn Jundab. died c. 777.
Muslim astronomer. The first to construct astrolabes, he wa the author of a poem (qasida) on astrology and of various astronomical writings (on the astrolabe, on the armillary spheres, on the calendar). H Suter:Die Mathematiker und Astronomer der Araber (3, 208, 1900)

Ya'qub Ibn Tariq
probably of Persian origin, flourished in Baghdad, c.767-778 died c. 796. one of the greatest astronomers of his time. He probably met, c. 767, at the court of al-Mansur, the Hindu Kankah (or Mankah?), who had brought there the Siddhanta. He wrote memoirs on the sphere (c. 777), on the division of the kardaja; on the tables derived from the Siddhanta. H Suter:Die Mathematiker und Astronomer der Araber (p. 4, 1900)

Muhammad Ibn Ibrahim Al-Fazari
Abu 'Abdallah Muhammad ibn Ibrahim al-Fazari. son of the astronomer Ibrahim dealt with above, for whom he is sometimes mistaken (he may be the author of the astrological poem ascribed to his father). died c. 796 to 806. Muslim scientist and astronomer. He was ordered by the Caliph al-Mansur in 772/3 to translate the Sanskrit astronomical work Siddhanta. This translation was possibly the vehicle by means of which the Hindu numerals were transmitted from India to Islam.
H Suter:Die Mathematiker und Astronomen der Araber (p. 4,1900).
Cantor:Geschichte der Mathematik (I, 3rd ed., 698, 1907).
D E Smith and L C Karpinski:The Hindu-Arabic Numerals (p.92, Boston, 1911)

Mashallah
His real name was probably Manasseh (in Arabic, Misha). Latin translators named him Messahala (with many variants, as Macellama, Macelarma). Mashallah is a contraction of ma'aha Allah meaning "What wonders Allah has willed." (What hath God wrought.) flourished under al-Mansur, died c. 815 or 820. one of the earliest astronomers and astrologers in Islam, himself an Egyptian (?) Jew. only one of his writings is extant in Arabic, but there are many mediaeval Latin and Hebrew translations. The Arabic text extant deals with the prices of wares and is the earliest book of its kind in that language. He took part with the Persian astrologer al-Naubakht in the surveying preliminary to the foundation of Baghdad in 762-63. His most popular book in the Middle Ages was the 'De scientia motus orbis's, translated by Gherardo Cremonese.
Text and Translation. The De scientia motus orbis is probably the treatise called in Arabic "the twenty-seventh;" printed in Nuremberg 1501, 1549. The second edition is entitled: 'De elementis et orbibus coelestibus's, and contains 27 chapters. The De compositione et utilitate astrolabii was included in Gregor Reisch:Margarita phylosophica (ed. pr., Freiburg, 1503; Suter says the text is included in the Basel edition of 1583). other astronomical and astrological writings are quoted by Suter and Steinsehneider.
An Irish astronomical tract based in part on a mediaeval Latin version of a world by Messahalah. edited with preface, translation, and glossary, by Afaula Power (Irish Texts Society, vol. 14, 194 p., 1914. A relatively modern translation of the De scientia motus orbis, the preface is uncritical).

Astrolabe

Astronomers Using Astrolabe

Islamic Alchemy

It is noteworthy that the earliest alchemical texts in Arabic and Latin are contemporaneous, that is, if our dating of them is correct. The most famous alchemist of Islam, Jabir Ibn Haiyan, seems to have had a good experimental knowledge of a number chemical facts; he was also an able theoretician.

Jabir ibn Haiyan
Abu Musa Jabir ibn Haiyan al-Azdi (al-Tusi, al-Tartusi; al-Harrani meaning that he was a Sabian?; al-Sufi). flourished mostly in Kufa, c. 776, he was the most famous Arabic alchemist; the alchemist Geber of the Middle Ages. He may be the author of a book on the astrolabe, but his fame rests on his alchemical writings preserved in Arabic: the "Book of the Kingdom," the "Little Book of the Balances," the "Book of Mercy," the "Book of Concentration," the "Book of Eastern Mercury," and others. according to the treatises already translated (by Berthelot), his alchemical doctrines were very anthropomorphic and animistic. But other treatises (not yet available in translation) show him in a better light. We find in them remarkably sound views on methods of chemical research; a theory on the geological formation of metals; the so-called sulphur-mercury theory of metals (the six metals differ essentially because of different proportions of sulphur and mercury in them); preparation of various substances (e.g. basic lead carbonate; arsenic and antimony from their sulphides). Jabir deals also with various applications, e.g. refinement of metals, preparation of steel, dyeing of cloth and leather, varnishes to water-proof cloth and protect iron, use of manganese dioxide in glass making, use of iron pyrites for writing in gold, distillation of vinegar to concentrate acetic acid. He observed the imponderability of magnetic force.
It is possible that some of the facts mentioned in the Latin works, ascribed to Geber and dating from the twelfth century and later, must also be placed to Jabir's credit. It is impossible to reach definite conclusions until all the Arabic writings ascribed to Jabir have been properly edited and discussed. It is only then that we shall be able to measure the full extent of his contributions, but even on the slender basis of our present knowledge, Jabir appears already as a very great personality, one of the greatest in mediaeval science.

Text and Translations:- M Berthelot:La chimie au moyen age (vol. 3, L'alchimie arabe, Paris,1893. The Arabic text of a few of Jabir's writings is edited by Octave Houdas. French translation, p. 126-224. see E J Holmyard's criticism in Isis, XI, 479-499, 1924). Ernst Darmstaedter:Die Alchemie des Geber (212 p., 10 pl.; Berlin, 1922. German translation of the Latin treatises ascribed to Geber; reviewed by J Ruska in Isis, V, 451-455, concluding that these Latin treatises are apocryphal); Liber misericordiae Geber. Eine lateinisehe ubersetzung des grosseren Kitab al-rahma (archive fur Geschichte der Medizin, vol. 17, 181-197, 1925;Isis, VIII, 737).

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Belajar

Ibn Khaldun lived in north Africa 1332-1406, about a generation after William of Ockham. His Muqaddimah ('Introduction', namely to a work of history) originated as an attempt to work out how to decide whether historical sources are credible. An important question to ask is whether what the source relates is likely to have happened, i.e. whether it is the sort of thing that happens in human affairs. This inquiry led Ibn Khaldun to write a lengthy treatise on the processes of social and political change (cf. Aristotle's discussion of revolution and stability,Politics, book V). Ibn Khaldun was not a 'philosopher' (in the sense of an avowed follower of the Greek philosophers), but his thinking is much influenced by Aristotelian ideas, in particular the idea of nature as a source of development toward a goal. Ibn Khaldun thinks that no individual dynasty or society can permanently remain at a high level of development; soon after maturity is attained decay sets in (just as individual plants and animals achieve the maturity natural to their species and then decay). There are drawbacks to the fully developed social state, even before decay sets in; progress in civilisation is made at some cost.

A factor that Ibn Khaldun emphasises as important in social and political development is 'a sense of solidarity' or 'group feeling' - the state of mind that makes individuals identify with a group and subordinate their own personal interests to the group interest. Without willingness to subordinate self to the group, peace and social development are not possible. Ibn Khaldun expects the sense of solidarity to be based originally and normally on kinship. A sense of solidarity can be powerfully supported by religion, and conversely no religion can make an impact unless its members have a strong sense of solidarity.

Ibn Khaldun is a Muslim, but his theory of history is intended to apply not only to Muslim societies but to all societies. He rejects Avicenna's argument (The Healing, Metaphysics, X, chapter 2, in Readings) that society must be based on the work of a prophet, i.e. on true religion; even the 'Magians's (equivalent to 'pagans' in Christian terms) have states. The drive for royal authority is natural to all human groups (like other medieval Muslim writers Ibn Khaldun regarded monarchy as the normal form of government). Ibn Khaldun bases the desire for royal power, not on philosophical benevolence, but on the animal part of human nature (the equivalent of Plato's thumos, 'spiritedness's, 'irascibility'). He does not idealise political power: men seek it as a good, it makes civilisation possible, but civilisation is not an altogether good thing and will not last. political rule is in one respect good for everyone: it 'keeps men apart', i.e. prevents them from attacking one another. Ibn Khaldun sometimes sounds like Hobbes.

The extracts in the Readings relate mostly to group feeling and to the rise and fall of dynasties. Ibn Khaldun's theory also extends to the rise and decay of cities and development and decay in economic life and in the sciences, showing the connection between the changes in these various aspects of culture or civilisation.

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