The, a mathematical device invented by in 1247 to model the not perfectly circular Science in the medieval Islamic world was the science developed and practised during the under the, the Abbadids of Seville, the Samanids, the Ziyarids, Buyid Persia, 's Transoxiana, the and beyond, spanning the period c. Islamic scientific achievements encompassed a wide range of subject areas, especially,, and.

Other subjects of scientific inquiry included,,,,,, and. Medieval Islamic science had practical purposes as well as the goal of understanding. For example, astronomy was useful for determining the, botany had practical application in agriculture, as in the works of and, and geography enabled to make accurate maps. Islamic mathematicians such as, and developed methods in, and. Islamic doctors described diseases like smallpox and measles and challenged classical Greek medical theory. Al-Biruni, Avicenna and others described the preparation of hundreds of drugs made from and chemical compounds. Islamic physicists studied optics and mechanics (as well as astronomy) and criticised 's view of motion.

The significance of medieval Islamic science has been debated by historians. The traditionalist view holds that it lacked innovation, and was mainly important for handing on ancient knowledge to. The revisionist view holds that it constituted a scientific revolution.

Political Aspects of Islam - Wikipedia, The Free Encyclopedia - Download as PDF File (.pdf), Text File (.txt) or read online. Yale University Press. The free encyclopedia residence in Medina.org/20050501faessay84305/bernard lewis/freedomandjusticeinthemodernmiddleeast.doi.islamonline. Lenn Evan Goodman (2003).

Whatever the case, science flourished across a wide area around the Mediterranean and further afield, for several centuries, in a wide range of institutions. Further information: The Islamic era began in 622. Islamic armies conquered Arabia, Egypt and Mesopotamia, eventually displacing the and from the region. Within a century, Islam had reached the area of present-day Portugal in the west and Central Asia in the east. The (roughly between 692 and 945) spanned the periods of the (661-750) and, in particular, the early phase of the succeeding (750-1258), with stable political structures and flourishing trade. Major religious and cultural works of the were translated into.

Islamic culture inherited,, and influences. A new common civilisation formed, based on Islam. An era of and innovation ensued, with rapid growth in population and cities.

The in the countryside brought more crops and improved agricultural technology, especially. This supported the larger population and enabled culture to flourish. From the 8th century onwards, scholars such as translated,, and knowledge, including the works of, into.

These translations supported advances by scientists across the. Islamic science survived the initial Christian, including the fall of Seville in 1248, as work continued in the eastern centres (such as in Persia). After the completion of the Spanish reconquest in 1492, the Islamic world went into an economic and cultural decline.

The Abbasid caliphate was followed by the ( c. 1299-1922), centred in Turkey, and the (1501-1736), centred in Persia, where work in the arts and sciences continued.

Fields of inquiry [ ] Islamic scientific achievements encompass a wide range of subject areas, especially,, and. Other subjects of scientific inquiry included,,, and. Alchemy and chemistry [ ]. Main article: Alchemy was already well established before the rise of Islam. It was based on the belief that substances were made up of the four Aristotelian elements, fire, earth, air, and water in different proportions.

Alchemists supposed that gold was the noblest metal, and that other metals formed a series down to the basest, such as lead. They believed, too, that a fifth element, the elixir, could transform a base metal into gold. (8th–9th centuries) wrote on alchemy, based on his own experiments. He described laboratory techniques and experimental methods that would continue to be used when alchemy had transformed into chemistry. Ibn Hayyan identified many substances including sulphuric and nitric acids. He described processes such as, and. He made use of equipment such as the and the.

Astronomy and cosmology [ ]. Main articles: and Astronomy was a major discipline within Islamic science. Effort was devoted both towards understanding the nature of the cosmos and to practical purposes. One of these was determining the. Another was, predicting events affecting human life and selecting suitable times for actions such as going to war or founding a city.

(850–922) accurately determined the length of the solar year. He contributed to the, used by astronomers to predict the movements of the sun, moon and planets across the sky.

Some of his astronomic tables were later used. (1028–1087) developed a more accurate, used for centuries afterwards. He constructed a water clock in.

He discovered that the Sun's moves slowly relative to the fixed stars, and obtained a good estimate of its motion for its rate of change. (1201–1274) wrote an important revision to Ptolemy's celestial model. When he became Helagu's astrologer, he was given an observatory and gained access to Chinese techniques and observations. He developed as a separate field, and compiled the most available up to that time.

And trees, in 's 13th century Botany [ ] The study of the natural world extended to a detailed examination of plants. The work done was directly useful in the unprecedented growth of pharmacology across the Islamic world. Popularised in the Islamic world with his six-volume Kitab al-Nabat ( Book of Plants). Only volumes 3 and 5 have survived, with part of volume 6 reconstructed from quoted passages.

In what survives, 637 plants are described in alphabetical order from the letters sin to ya, so the whole book must have covered several thousand kinds of plants. Al-Dinawari described the phases of and the production of flowers and fruit. 's thirteenth century encyclopedia contained, among many other topics, both realistic botany and fantastic accounts. For example, he described trees which grew birds on their twigs in place of leaves, but which could only be found in the far-distant British Isles. The use and cultivation of plants was documented in the 11th century by of in his book Dīwān al-filāha (The Court of Agriculture), and of in his 12th century book Kitāb al-Filāha (Treatise on Agriculture). Ibn Bassāl had travelled widely across the Islamic world, returning with a detailed knowledge of agronomy.

His practical and systematic book describes over 180 plants and how to propagate and care for them. It covered leaf and root vegetables, herbs, spices and trees. Abū l-Khayr described in minute detail how olive trees should be grown, grafted, treated for disease, and harvested.

He gave similar detail for crops such as cotton. Geography and cartography [ ]. Main article: The swift spread of Islam across and encouraged an unprecedented growth in trade and travel by land and sea as far away as Southeast Asia, China, much of Africa, Scandinavia and even Iceland. Geographers worked to create increasingly accurate maps of the known world, starting from many existing but fragmentary sources.

(850–934), founder of the Balkhī school of cartography in Baghdad, wrote an atlas called Figures of the Regions (Suwar al-aqalim). (973–1048) measured the radius of the earth using a new method. It involved observing the height of a mountain at (now in Pakistan). (1100–1166) created a map of the world for, the Norman King of Sicily.

He also wrote the, a geographic study of the peoples, climates, resources and industries of the whole of the world known at that time. 1470–1553) made a map of the New World and West Africa in 1513. He made use of maps from Greece, Portugal, Muslim sources, and perhaps one made. He was part of a major tradition of Ottoman cartography. Main article: Islamic mathematicians gathered, organised and clarified the mathematics they inherited from ancient Egypt, Greece, India, Mesopotamia and Persia, and went on to make innovations of their own.

Islamic mathematics can be divided into, and. Algebra was mainly used for recreation: it had few practical applications at that time. Digital Tens Be 660 Manual Meat here.

Geometry was studied at different levels. Some texts contain practical geometrical rules for surveying and for measuring figures.

Theoretical geometry was a necessary prerequisite for understanding astronomy and optics, and it required years of concentrated work. Early in the Abbasid caliphate, soon after Baghdad was founded in the mid-eighth century, some mathematical knowledge was assimilated from the pre-Islamic Persian tradition in astronomy. Astronomers from India were invited to the court of the caliph in the late eighth century; they explained the rudimentary techniques used in Indian astronomy. Ancient Greek works such as 's and were translated into Arabic. By the second half of the ninth century, Islamic mathematicians were already making contributions to the most sophisticated parts of Greek geometry. Islamic mathematics reached its apogee in the Eastern part of the Islamic world between the tenth and twelfth centuries.

Most mathematical works were written in Arabic, others in Persian. 's 'Cubic equation and intersection of ' (8th–9th centuries), considered the greatest mathematician of Islamic civilization, was instrumental in the adoption of the.

He developed, which also had Indian antecedents, introduced methods of simplifying equations, and used in his proofs. (801–873) worked on cryptography for the caliphate. 980–1037) contributed to mathematical techniques such as. (835–901) calculated the solution to a involving an exponential series. 870–950) attempted to describe, geometrically, the in his book Spiritual Crafts and Natural Secrets in the Details of Geometrical Figures. (1048–1131), known in the West as a poet, calculated the length of the year to within 5 decimal places. He found geometric solutions to all 13 forms of cubic equations.

He developed some still in use. 1380–1429) is credited with several theorems of trigonometry including the, also known as Al-Kashi's Theorem.

He is often credited with the invention of decimal fractions, and a to calculate roots. He calculated correct to 17 significant figures. Medicine [ ]. Main article: Islamic society paid careful attention to medicine, following a hadith enjoining the preservation of good health. Its physicians inherited knowledge and traditional medical beliefs from the civilisations of classical Greece, Rome, Syria, Persia and India.

These included the writings of such as the theory of the, and the theories of. 854–925/935) identified smallpox and measles, and recognized that fever was a part of the body's defenses. He wrote a 23-volume compendium of Chinese, Indian, Persian, Syriac and Greek medicine. Al-Razi questioned the classical Greek medical theory of how the four humours regulate life processes. He challenged 's work on several fronts, including the treatment of, arguing that it was effective.

(936–1013) was a surgeon whose most important surviving work is referred to as (Medical Knowledge). It is a 30 volume set mainly discussing medical symptoms, treatments, and pharmacology. The last volume, on surgery, describes surgical instruments, supplies, and pioneering procedures.

Avicenna (ca. 980–1037) wrote the major medical textbook,. (1213–1288) wrote an influential book on medicine; it is believed to have replaced Avicenna's Canon in the Islamic world. He wrote commentaries on Galen and Avicenna's works. One of these commentaries, discovered in 1924, described. Optics and ophthalmology [ ].

Main articles:, and Optics developed rapidly in this period. By the ninth century, there were works on physiological, geometrical and physical optics. Topics covered included mirror reflection. (809–873) wrote the book Ten Treatises on the Eye; this was influential in the West until the 17th century. (810–887) developed lenses for magnification and the improvement of vision.

940–1000) discovered the law of refraction known as. He used the law to produce the first that focused light without geometric aberrations. In the eleventh century, (Alhazen, 965–1040) rejected the Greek ideas about vision, whether the Aristotelian tradition that held that the form of the perceived object entered the eye (but not its matter), or that of Euclid and Ptolemy that held that the eye emitted a ray. Al-Haytham proposed in his Book of Optics that vision occurs by way of light rays forming a cone with its vertex at the center of the eye.

He suggested that light was reflected from different surfaces in different directions, thus causing objects to look different. He argued further that the mathematics of reflection and needed to be consistent with the anatomy of the eye. Pharmacology [ ]. Further information: Advances in and in the Islamic world encouraged developments in. (Rhazes) (865–915) promoted the medical uses of chemical compounds. (Abulcasis) (936–1013) pioneered the preparation of medicines by and.

His Liber servitoris provides instructions for preparing ' from which were the complex drugs then used. Sabur Ibn Sahl (d 869), was the first physician to describe a large variety of drugs and remedies for ailments. (973–1050) wrote the Kitab al-Saydalah ( The Book of Drugs), describing in detail the properties of drugs, the role of pharmacy and the duties of the pharmacist. (Avicenna) described 700 preparations, their properties, mode of action and their indications. He devoted a whole volume to simples in. 925–1015) and (1008–1074) were printed in more than fifty times, appearing as De Medicinis universalibus et particularibus by Mesue the younger, and the Medicamentis simplicibus by Abenguefit respectively. (1250–1316) translated and added a supplement to the work of al-Mardini under the title De Veneris.

Al-Muwaffaq, in the 10th century, wrote The foundations of the true properties of Remedies, describing chemicals such as and. He distinguished between and, and drew attention to the poisonous nature of compounds, especially copper, and also compounds. Main article: The fields of physics studied in this period, apart from optics and astronomy which are described separately, are aspects of:,, and. In the sixth century rejected the view of motion. He argued instead that an object acquires an inclination to move when it has a motive power impressed on it. In the eleventh century, Ibn Sina adopted roughly the same idea, namely that a moving object has force which is dissipated by external agents like air resistance.

Ibn Sina distinguished between 'force' and 'inclination' ( mayl); he claimed that an object gained mayl when the object is in opposition to its natural motion. He concluded that continuation of motion depends on the inclination that is transferred to the object, and that the object remains in motion until the mayl is spent. He also claimed that a projectile in a vacuum would not stop unless it is acted upon. That view is consistent with, on inertia. As a non-Aristotelian suggestion, it was essentially abandoned until it was described as 'impetus' by (c. 1295–1363), who was influenced by Ibn Sina's.

In 's (973–1048) Shadows, non-uniform motion is described as the result of acceleration. Ibn-Sina's theory of mayl tried to relate the velocity and weight of a moving object, a precursor of the concept of momentum. Aristotle's theory of motion stated that a constant force produces a uniform motion; (c. 1080 – 1164/5) disagreed, arguing that velocity and acceleration are two different things, and that force is proportional to acceleration, not to velocity.

(Avempace, c. 1085–1138) proposed that for every force there is a reaction force. While he did not specify that these forces be equal, it was still an early version of., Jafar-Muhammad, Ahmad and al-Hasan (ca. Early 9th century) created automated devices described in their. Further information: Many to Syriac, then to Arabic, then to Latin in the Middle Ages.

Remained dominant in its field for the next two thousand years. The (كتاب الحيوان, English: Book of Animals) is a 9th-century translation of History of Animals: 1–10, On the Parts of Animals: 11–14, and Generation of Animals: 15–19.

The book was mentioned by (d. 850), and commented on by (Ibn Sīnā) in his. (Ibn Bājja) and (Ibn Rushd) commented on and criticised On the Parts of Animals and Generation of Animals.

Significance [ ]. Further information: and Historians of science differ in their views of the significance of the scientific accomplishments in the medieval Islamic world.

The traditionalist view, exemplified by, holds that Islamic science, while admirable in many technical ways, lacked the intellectual energy required for innovation and was chiefly important for preserving ancient knowledge, and handing it on to. The revisionist view, exemplified by, and holds that a Muslim scientific revolution occurred during the.

Scholars such as and argue that Islam was the driving force behind these scientific achievements. According to Ahmed Dallal, science in medieval Islam was 'practiced on a scale unprecedented in earlier human history or even contemporary human history'. Huff takes the view that, although science in the Islamic world did produce innovations, it did not lead to a, which in his view required an ethos that existed in Europe in the twelfth and thirteenth centuries, but not elsewhere in the world.,, and held that helped in laying the foundations for an science with their contributions to the and their, experimental and approach to scientific. McClellan III and Harold Dorn, reviewing the place of Islamic science in world history, comment that the positive achievement of Islamic science was simply to flourish, for centuries, in a wide range of institutions from observatories to libraries, madrasas to hospitals and courts, both at the height of the Islamic golden age and for some centuries afterwards.

It plainly did not lead to a scientific revolution like that in Europe, but in their view, any such external comparison is just an attempt to impose 'chronologically and culturally alien standards' on a successful medieval culture. See also [ ].

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