Introduced experimental research in chemical science which immensely added its rapid development and made him the Father of Chemistry. He devised methods for preparation of important chemicals like hydrochloric acid, nitric acid, and white lead. Jabir's work also deal with the refinement of metals ,preparation of steel, dyeing of cloth and leather, use of magnese dioxide in glass making, distillation of vinegar to concentrate acetic acid. Jabir also explained scientifically two principle functions of chemistry, i.e., calcination, and reduction and registered a marked improvement in the methods of evaporation, sublimation, distillation and crystallization He wrote more than 100 books which are one of the most outstanding contributions in the field of science especially the chemical science.
Abu Mūsā Jābir ibn Hayyān (Arabic/Persian جابر بن حیان, often given the nisbas al-Bariqi, al-Azdi, al-Kufi, al-Tusi or al-Sufi; fl. c. 721 – c. 815), also known by the Latinization Geber was a polymath: a chemist and alchemist, astronomer and astrologer, engineer, geographer, philosopher, physicist, and pharmacist and physician. Born in Tus, he later traveled to Yemen and Kufa where he lived most of his life. He has been described as "the father of early chemistry".
As early as the 10th century, the identity and exact corpus of works of Jabir was in dispute in Islamic circles.[6] His name was Latinized as "Geber" in the Christian West and in 13th-century Europe an anonymous writer, usually referred to as Pseudo-Geber, produced alchemical and metallurgical writings under the pen-name Geber.
Early references
In 988 Ibn al-Nadim compiled the Kitab al-Fihrist which mentions Jabir as a spiritual follower, companion and as a student to Jafar as-Sadiq, the sixth Shia Imam. In another reference al-Nadim reports that a group of philosophers claimed Jabir was one of their own members. Another group, reported by al-Nadim, says only The Large Book of Mercy is genuine and that the rest are pseudographical. Their assertions are rejected by al-Nadim.[6] Joining al-Nadim in asserting a real Jabir; Ibn-Wahshiyya ("Jaber ibn Hayyn al-Sufi ...book on poison is a great work...") Rejecting a real Jabir; (the philosopher c. 970) Abu Sulayman al-Mantiqi claims the real author is one al-Hasan ibn al-Nakad al-Mawili. The 14th century critic of Arabic literature, Jamal al-Din ibn Nubata al-Misri declares all the writings attributed to Jabir doubtful.[8]
Life and background
According to the philologist-historian Paul Kraus (1904-1944), Jabir cleverly mixed in his alchemical writings unambiguous references to the Ismaili or Qarmati movement. Kraus wrote, “Let us first notice that most of the names we find in this list have undeniable affinities with the doctrine of Shi'i Gnosis, especially with the Ismaili system”. Henry Corbin believes that Jabir ibn Hayyan was an Ismaili. Jabir was a natural philosopher who lived mostly in the 8th century; he was born in Tus, Khorasan, in Persia, well known as Iran then ruled by the Umayyad Caliphate. Jabir in the classical sources has been variously attributed as al-Azdi, al-Kufi, al-Tusi or al-Sufi. And sometimes also, al-Tartusi, al-Tarsusi or al-Harrani. There is a difference of opinion as to whether he was an Arab from Kufa who lived in Khurasan, or a Persian from Khorasan who later went to Kufa or whether he was, as some have suggested, of Syrian Sabian origin and later lived in Persia and Iraq. In some sources, he is reported to have been the son of Hayyan al-Azdi, a pharmacist of the Arabian Azd tribe who emigrated from Yemen to Kufa (in present-day Iraq). while Henry Corbin believes Geber seems to have been a non-Arab client of the 'Azd tribe. Hayyan had supported the Abbasid revolt against the Umayyads, and was sent by them to the province of Khorasan to gather support for their cause. He was eventually caught by the Umayyads and executed. His family fled to Yemen, perhaps to some of their relatives in the Azd tribe, where Jabir grew up and studied the Quran, mathematics and other subjects. Jabir's father's profession may have contributed greatly to his interest in alchemy.
After the Abbasids took power, Jabir went back to Kufa. He began his career practicing medicine, under the patronage of a Vizir (from the noble Persian family Barmakids) of Caliph Harun al-Rashid. His connections to the Barmakid cost him dearly in the end. When that family fell from grace in 803, Jabir was placed under house arrest in Kufa, where he remained until his death.
It has been asserted that Jabir was a student of the sixth Imam Ja'far al-Sadiq and Harbi al-Himyari;[6][21] however, other scholars have questioned this theory.
The Jabirian corpus
In total, nearly 3,000 treatises and articles are credited to Jabir ibn Hayyan.[23] Following the pioneering work of Paul Kraus, who demonstrated that a corpus of some several hundred works ascribed to Jābir were probably a medley from different hands,[8]:3[24] mostly dating to the late 9th and early 10th centuries, many scholars believe that many of these works consist of commentaries and additions by his followers,[citation needed] particularly of an Ismaili persuasion.[25] On the other hand, contemporary scholar Syed Nomanul Haq refuses the multiplicity of authors hypothesis, and says that Kraus has misrepresented the Jabirian corpus for three main reasons : a) he hasn't inspected the bibliographies correctly, considering that there have been many leaps (in one instance, we have no titles between 500 and 530), so, all in all, the numbers are more over 500 than close to 3000 ; b) in many cases, a part or chapter of a book has been counted as a book itself, like with the Kitab al-Jumal al-'Ishrin (book of twenty maxims), which has been counted for 20 books and c) finally, many of the supposed "books" are not so in the formal sense, the Kitab al-Sahl occupying a single paragraph and many others few folios. Syed Nomanul Haq concludes that "this rough investigation makes it abundantly clear that we should view with a great deal of suspicion any arguments for a plurality of authors which is based on Kraus’ inflated estimate of the volume of the Jabirian corpus."[26]
The scope of the corpus is vast: cosmology, music, medicine, magic, biology, chemical technology, geometry, grammar, metaphysics, logic, artificial generation of living beings, along with astrological predictions, and symbolic Imâmî myths.[8]:5
The 112 Books dedicated to the Barmakids, viziers of Caliph Harun al-Rashid. This group includes the Arabic version of the Emerald Tablet, an ancient work that proved a recurring foundation of and source for alchemical operations. In the Middle Ages it was translated into Latin (Tabula Smaragdina) and widely diffused among European alchemists.
The Seventy Books, most of which were translated into Latin during the Middle Ages. This group includes the Kitab al-Zuhra ("Book of Venus") and the Kitab Al-Ahjar ("Book of Stones").
The Ten Books on Rectification, containing descriptions of alchemists such as Pythagoras, Socrates, Plato and Aristotle.
The Books on Balance; this group includes his most famous 'Theory of the balance in Nature'.
Jabir states in his Book of Stones (4:12) that "The purpose is to baffle and lead into error everyone except those whom God loves and provides for". His works seem to have been deliberately written in highly esoteric code (see steganography), so that only those who had been initiated into his alchemical school could understand them. It is therefore difficult at best for the modern reader to discern which aspects of Jabir's work are to be read as ambiguous symbols, and what is to be taken literally. Because his works rarely made overt sense, the term gibberish is believed to have originally referred to his writings (Hauck, p. 19).
People
Jabir's interest in alchemy was inspired by his teacher Ja'far as-Sadiq. When he spoke about alchemy, he would say "my master Ja'far as-Sadiq taught me about calcium, evaporation, distillation and crystallization, and everything I learned in alchemy was from my master Ja'far as-Sadiq."[citation needed] Imam Jafar was famed for his depth and breadth of knowledge. In addition to his knowledge of Islamic sciences, Imam Jafar was well educated in natural sciences, mathematics, philosophy, astronomy, anatomy, chemistry (alchemy), and other subjects. The foremost Islamic alchemist Jabir bin Hayyan was his most prominent student. Other famous students of Imam Jafar were Imam Abu Hanifa and Imam Malik Ibn Anas, the founders of two Sunni schools of jurisprudence, and Wasil ibn Ata, the founder of the Mutazilite school of Islamic thought.
Imam Jafar was known for his liberal views on learning, and was keen to debate with scholars of different faiths and of different beliefs. Some Islamic scholars have gone so far as to call Imam Jafar Saddiq as the root of most of Islamic jurisprudence, having a massive influence on Hanafi, Maliki and Shia schools of thought extending well into mainstream Hanbali and Shafi'i thought. Imam Jafar also attained a surpassing knowledge in astronomy and in the science of medicine.
Jabir professed to have drawn his alchemical inspiration from earlier writers, both legendary and historic, on the subject.[27] In his writings, Jabir pays tribute to Egyptian and Greek alchemists Zosimos, Democritus, Hermes Trismegistus, Agathodaemon, but also Plato, Aristotle, Galen, Pythagoras, and Socrates, as well as the commentators Alexander of Aphrodisias, Simplicius, Porphyry and others.[8]:5
A huge pseudo-epigraphic literature of alchemical books was composed in Arabic, among which the names of Persian authors also appear like Jāmāsb, Ostanes, Mani, testifying that alchemy-like operations on metals and other substances were also practiced in Persia. The great number of Persian technical names (zaybaq = mercury, nošāder = sal-ammoniac) also corroborates the idea of an important Iranian root of medieval alchemy.[28] Ibn al-Nadim reports a dialogue between Aristotle and Ostanes, the Persian alchemist of Achaemenid era, which is in Jabirian corpus under the title of Kitab Musahhaha Aristutalis.[29] Ruska had suggested that the Sasanian medical schools played an important role in the spread of interest in alchemy.[28] He emphasizes the long history of alchemy, "whose origin is Arius ... the first man who applied the first experiment on the [philosopher's] stone... and he declares that man possesses the ability to imitate the workings of Nature" (Nasr, Seyyed Hussein, Science and Civilization of Islam).
Theories
Jabir's alchemical investigations ostensibly revolved around the ultimate goal of takwin — the artificial creation of life. The Book of Stones includes several recipes for creating creatures such as scorpions, snakes, and even humans in a laboratory environment, which are subject to the control of their creator. What Jabir meant by these recipes is unknown.[citation needed]
Jabir's alchemical investigations were theoretically grounded in an elaborate numerology related to Pythagorean and Neoplatonic systems.[citation needed] The nature and properties of elements were defined through numeric values assigned to the Arabic consonants present in their name.
By Jabir's time Aristotelian physics had become Neoplatonic. Each Aristotelian element was composed of these qualities: fire was both hot and dry, earth, cold and dry, water cold and moist, and air, hot and moist. This came from the elementary qualities which are theoretical in nature plus substance. In metals two of these qualities were interior and two were exterior. For example, lead was cold and dry and gold was hot and moist. Thus, Jabir theorized, by rearranging the qualities of one metal, a different metal would result. Like Zosimos, Jabir believed this would require a catalyst, an al-iksir, the elusive elixir that would make this transformation possible — which in European alchemy became known as the philosopher's stone.[8]
According to Jabir's mercury-sulfur theory, metals differ from each in so far as they contain different proportions of the sulfur and mercury. These are not the elements that we know by those names, but certain principles to which those elements are the closest approximation in nature.[30] Based on Aristotle's "exhalation" theory the dry and moist exhalations become sulfur and mercury (sometimes called "sophic" or "philosophic" mercury and sulfur). The sulfur-mercury theory is first recorded in a 7th-century work Secret of Creation credited (falsely) to Balinus (Apollonius of Tyana). This view becomes widespread.[31] In the Book of Explanation Jabir says
the metals are all, in essence, composed of mercury combined and coagulated with sulphur [that has risen to it in earthy, smoke-like vapors]. They differ from one another only because of the difference of their accidental qualities, and this difference is due to the difference of their sulphur, which again is caused by a variation in the soils and in their positions with respect to the heat of the sun
Holmyard says that Jabir proves by experiment that these are not ordinary sulfur and mercury.[17]
The seeds of the modern classification of elements into metals and non-metals could be seen in his chemical nomenclature. He proposed three categories:
"Spirits" which vaporise on heating, like arsenic (realgar, orpiment), camphor, mercury, sulfur, sal ammoniac, and ammonium chloride.
"Metals", like gold, silver, lead, tin, copper, iron, and khar-sini (Chinese iron)
Non-malleable substances, that can be converted into powders, such as stones.
The origins of the idea of chemical equivalents might be traced back to Jabir, in whose time it was recognized that "a certain quantity of acid is necessary in order to neutralize a given amount of base.
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