Acetic acid was first concentrated from vinegar through distillation by Geber in the 8th century.
Derivative and artificial substances
In the 10th century, Muhammad ibn Zakarīya Rāzi wrote that he and his Muslim predecessors (Calid, Geber and al-Kindi) invented the following derivative and artificial chemical substances: lead(II) oxide (PbO), red lead (Pb3O4), tin(II) oxide (Isfidaj), copper acetate (Zaniar), copper(II) oxide (CuO), lead sulfide, zinc oxide, bismuth oxide, antimony oxide, iron rust, iron acetate, Daws (a contituent of steel), cinnabar (HgS), arsenic trioxide (As2O3), alkali (al-Qili), sodium hydroxide (caustic soda), and Qalimiya (anything that separates from metals during their purification).
Distilled alcohol
The isolation of ethanol (alcohol) as a pure compound was first achieved by Muslim chemists who developed the art of distillation during the Abbasid caliphate, the most notable of whom were Jabir ibn Hayyan (Geber), Al-Kindi (Alkindus) and al-Razi (Rhazes). The writings attributed to Jabir ibn Hayyan (721-815) mention the flammable vapors of boiled wine. Al-Kindi (801-873) unambiguously described the distillation of wine.[31] This may have been for the purpose of separating alcoholic content from drinks due to the Islamic prohibition of alcohol consumption.
Muslim chemists were the first to produce fully purified distilled alcohol from the 8th century and manufactured them on a large scale from at least the 10th century, for use in medicine and the chemical and pharmaceutical industries, though it was rarely used for drinking due to the Islamic prohibition of alcohol consumption. Alcohol was still consumed by non-Muslims in the Islamic world however.
Ahmad Y Hassan wrote:
"The distillation of wine and the properties of alcohol were known to Islamic chemists from the eighth century. The prohibition of wine in Islam did not mean that wine was not produced or consumed or that Arab alchemists did not subject it to their distillation processes. Jabir ibn Hayyan described a cooling technique which can be applied to the distillation of alcohol."
Medicinal substances
Muslim chemists and physicians discovered and produced at least 2,000 medicinal substances for use in medicine and the pharmaceutical sciences.
Natural substances
In the 10th century, Muhammad ibn Zakarīya Rāzi classified the natural chemical substances that were discovered by him and his Muslim predecessors (mainly Calid, Geber, al-Kindi and al-Tamimi) as follows:
* Four spirits: mercury, sal ammoniac, arsenic, sulfur.
* Eight fusible metals: gold, silver, copper, iron, tin, lead, mercury.
* Thirteen stones: marqashisha, maghnisiya, daws (a constituent of iron and steel), tutiya, lapis lazuli, malachite green, turquoise, hematite, arsenic oxide, lead sulfide, talq (mica and asbestos), gypsum, glass.
* Six vitriols: black vitriol, alum, qalqand, qalqadis, qalqatar, suri.
* Seven borates: borax, bread borax, natron, nitrate, sodium nitrate, potassium nitrate, sodium borate.
* Thirteen salts: lead(II) acetate (sweet), magnesium sulfate (bitter), andarani salt, tabarzad, potassium nitrate, naphthenate, black salt (Indian), salt of egg, alkali (al-qali), salt of urine, calcium hydroxide (slaked lime), salt of oak ashes, natron.
Vegetable and animal substances
Muhammad ibn Zakarīya Rāzi writes that the only vegetable substance used by Muslim alchemists are the ashes of the Ushnan plant, from which they produced alkali metals and alkali salts. Razi also lists ten animal substances that were used by him and his contemporary alchemists: hair, skulls, brains, bile, blood, milk, urine, eggs, nacre (mother of pearl) and horn. He writes that hair, brains, bile, eggs, skulls and blood were used to prepare sal ammoniac.
Other substances
Through their experiments with various chemical compounds, Arabic chemists first produced many other chemical substances, including:
* Arsenic, alkali, alkali salt, rice vinegar, boraxes, potassium nitrate, sulfur and purified sal ammoniac by Geber.
* Sal nitrum and vitriol by al-Razi.
* Ethanol, sulfuric acid, ammonia, mercury, camphor, pomades, and syrups.
* Lead carbonatic, arsenic, and antimony.
* Nitric and sulfuric acids, alkali, the salts of mercury, antimony, and bismuth.
* Aqua regia, alum, sal ammoniac, stones, sulfur, salts, and spirits of mercury.
Geber was also the first to classify all seven classical metals: gold, silver, tin, lead, mercury, iron, and copper.
Chemical industries
The following chemical substances were invented by Muslim chemists for use in the chemical industries:
Artificial pearl and purified pearl
In his Kitab al-Durra al-Maknuna (The Book of the Hidden Pearl), Geber described the first recipes for the manufacture of artificial pearls and the purifying of pearls that were discoloured from the sea or from grease.
Ceramics
From between the eighth and eighteenth centuries, the use of glazed ceramics was prevalent in Islamic art, usually assuming the form of elaborate pottery. Tin-opacified glazing was one of the earliest new technologies developed by the Islamic potters. The first Islamic opaque glazes can be found as blue-painted ware in Basra, dating to around the 8th century. Another significant contribution was the development of stonepaste ceramics, originating from 9th century Iraq.Other centers for innovative ceramic pottery in the Islamic world included Fustat (from 975 to 1075), Damascus (from 1100 to around 1600) and Tabriz (from 1470 to 1550).
Cheese glue
In The Book of the Hidden Pearl, Geber described the first recipes for the manufacture of glue from cheese.
Dyed gemstones and dyed pearls
In The Book of the Hidden Pearl, Geber described the first recipes for the dying and artificial colouring of gemstones and pearls.
Essential oil
Essential oils were first produced by Avicenna in the early 11th century, using steam distillation, for use in aromatherapy and the drinking and perfumery industries.
Explosive fireworks and firecrackers
Fireworks and firecrackers, which may have been adopted from China, were first composed of explosive gunpowder compositions (around 75% saltpetre, 10% sulfur, and 15% carbon) in the Islamic world and were first described by Hasan al-Rammah of Syria in 1270.
Fireproof clothing and dissolved talc
Egyptian soldiers at the Battle of Ain Jalut in 1260 were the first to wear fireproof clothing and the first to smear dissolved talc on their hands, as forms of fire protection from gunpowder.
Kerosene and Kerosene lamp
Kerosene was produced from the distillation of petroleum and was first described by al-Razi (Rhazes) in 9th century Baghdad. In his Kitab al-Asrar (Book of Secrets), he described two methods for the production of kerosene. One method involved using clay as an absorbent, while the other method involved using ammonium chloride (sal ammoniac). Al-Razi also described the first kerosene lamps (naffatah) used for heating and lighting in his Kitab al-Asrar (Book of Secrets). These were used in the oil lamp industry.
Lustreware
Lustreware was invented in Iraq by the Arabian chemist Jabir ibn Hayyan (Geber) in the 8th century during the Abbasid caliphate.
Mineral acids
The important mineral acids of nitric acid, sulfuric acid, and hydrochloric acid, were all first produced by Geber. These have remained some of the most common products in the chemical industry for over a thousand years.
Naphtha and tar
From the 8th century, the streets of Baghdad were the first to be paved with tar, derived from petroleum through destructive distillation. In the 9th century, oil fields were exploited in the area around modern Baku, Azerbaijan, to produce the earliest naphtha. These fields were described by Masudi in the 10th century, and by Marco Polo in the 13th century, who described the output of those oil wells as hundreds of shiploads.
Petrol
Muslim chemists were the first to produce petrol from crude oil, using the process of distillation.
Plated mail
Plated mail was invented by Geber in The Book of the Hidden Pearl for use in armours (jawasin), helmets (bid) and shields (daraq).
Rosewater
Rosewater was first produced by Muslim chemists through the distillation of roses, for use in the drinking and perfumery industries.
Drinking industry
Coffee
An Arab named Khalid was tending his goats in the Kaffa region of Ethiopia, when he noticed his animals became livelier after eating a certain berry. He boiled the berries to make the first coffee. Certainly the first record of the drink is of beans exported from Yemen to Ethiopia where Sufis drank it to stay awake all night to pray on special occasions. By the late 15th century, it had arrived in Makkah and Turkey from where it made its way to Venice in 1645. It was brought to England in 1650 by a Greek named Pasqua Rosee who opened the first coffee house in Lombard Street in the City of London. The Arabic qahwa became the Turkish kahve, then the Italian caffè, and then English coffee.
Distilled water and purified water
Arab chemists were the first to produce distilled water and purified water, used for water supply systems and for long journeys across deserts where the supplies were uncertain.
Soft drink
Sherbet, the first juiced and carbonated soft drink, made of crushed fruit, herbs, or flowers, has long existed as one of the most popular beverages from and of the Muslim world, winning over Western figures such as Lord Byron. Muslims developed a variety of juices to make their sharab, an Arabic word from which the Italian sorbetto, French sorbet and English sherbet were derived. Today, this juice is known by a multitude of names, is associated with numerous cultural traditions, and is produced by countries ranging from India to the United States of America.
Syrups
The medieval Muslim sources contain many recipes for drink syrups that can be kept outside the refrigerator for weeks or months.
Glass industry
Artificial gemstone
Jabir first described the production of high quality coloured glass cut into artificial gemstones.
Coloured glass and stained glass
Stained glass was first produced Muslim architects in Southwest Asia using coloured glass rather than stone. In the 8th century, the Arab chemist Jabir ibn Hayyan (Geber) scientifically described 46 original recipes for producing coloured glass in Kitab al-Durra al-Maknuna (The Book of the Hidden Pearl), in addition to 12 recipes inserted by al-Marrakishi in a later edition of the book.
Clear, colourless, high-purity glass
Clear, colourless, high-purity glass were first produced by Muslims in the 9th century, such as the quartz glass invented by Abbas Ibn Firnas. The Arab poet al-Buhturi (820-897) describes the clarity of such glass as follows:
"Its colour hides the glass as if it is standing in it without a container."
Clear glass mirror
By the 11th century, clear glass mirrors were being produced in Islamic Spain.
Glass factory
The first glass factories were built by Muslim craftsmen in the Islamic world. The first glass factories in Europe were later built in the 11th century by Egyptian craftsmen in Corinth, Greece.
Refracting parabolic mirror
The refracting parabolic mirror was first described by Ibn Sahl in his On the Burning Instruments in the 10th century, and later described again in Ibn al-Haytham's On Burning Mirrors and Book of Optics (1021).
Silica glass and Quartz glass
Silica glass and Quartz glass, a clear, colourless, high-purity glass, was invented by Abbas Ibn Firnas (810-887), who was the first to produce glass from sand and stones such as quartz.
Hygiene industries
Cosmetics
Early forms of cosmetics had been used since ancient times, but these were usually created primarily for the purpose of beautification and often used harmful substances. This changed with Muslim cosmetologists who emphasized hygiene, due to religious requirements, and invented various healthy and hygienic cosmetics that are still used today.
Soap
True soaps made from vegetable oils (such as olive oil), aromatic oils (such as thyme oil) and Sodium Lye (al-Soda al-Kawia) were first produced by Muslim chemists in the medieval Islamic world.[50] Due to washing and bathing being religious requirements for Muslims, they invented the recipe for true soap, which is still in use today, and they invented the soap bar.The formula for soap used since then hasn't changed and are identical to the current soap sold in modern times.
From the beginning of the 7th century, soap was produced in Nablus (Palestine), Kufa (Iraq) and Basra (Iraq). Soaps, as we know them today, are descendants of historical Arabian Soaps. Arabian Soap was perfumed and colored, while some of the soaps were liquid and others were solid. They also had special soap for shaving. It was commercially sold for 3 Dirhams (0.3 Dinars) a piece in 981 AD. A manuscript of Al-Razi (Rhazes) contains various modern recipes for soap. A recently discovered manuscript from the 13th century details more recipes for soap making, e.g. take some sesame oil, a sprinkle of potash, alkali and some lime, mix them all together, and boil. When cooked, they are poured into molds and left to set, leaving hard soap (soap bar).
Perfumery
Islamic cultures contributed significantly to the development of perfumery in both perfecting the extraction of fragrances through steam distillation and by introducing new raw ingredients. Both the raw ingredients and distillation technology significantly influenced western perfumery and scientific developments, particularly chemistry.
As traders, Islamic cultures such as the Arabs and Persians had wider access to different spices, herbals, and other fragrance materials. In addition to trading them, many of these exotic materials were cultivated by the Muslims such that they could be successfully grown outside of their native climates. Two examples of this include jasmine, which is native to South and Southeast Asia, and various citrus fruits, which are native to East Asia. Both of these ingredients are still highly important in modern perfumery.
In Islamic culture, perfume usage has been documented as far back as the 6th century and its usage is considered a religious duty. Muhammad said[citation needed]:
"The taking of a bath on Friday is compulsory for every male Muslim who has attained the age of puberty and (also) the cleaning of his teeth with Miswaak (a type of twig used as a toothbrush), and the using of perfume if it is available. (Recorded in Sahih Bukhari).
Such rituals gave incentives to scholars to search and develop a cheaper way to produce incenses and in mass production. Two talented chemists, Jabir ibn Hayyan (born 722, Iraq), and al-Kindi (born 801, Iraq) established the perfume industry. Jabir developed many techniques, including distillation, evaporation and filtration, which enabled the collection of the odour of plants into a vapour that could be collected in the form of water or oil. [51] Al-Kindi, however, was the real founder of the perfume industry, as he carried out extensive research and experiments in combining various plants and other sources to produce a variety of scent products. He elaborated a vast number of ‘recipes’ for a wide range of perfumes, cosmetics and pharmaceuticals. His work in the laboratory is reported by a witness who said:
"I received the following description, or recipe, from Abu Yusuf Ya'qub b. Ishaq al-Kindi, and I saw him making it and giving it an addition in my presence.
The writer goes on in the same section to speak of the preparation of a perfume called ghaliya, which contained musk, amber and other ingredients, and reveals a long list of technical names of drugs and apparatus.
Musk and floral perfumes were brought to Europe in the 11th and 12th centuries from Arabia, through trade with the Islamic world and with the returning Crusaders. Those who traded for these were most often also involved in trade for spices and dyestuffs. There are records of the Pepperers Guild of London, going back to 1179, which show them trading with Muslims in spices, perfume ingredients and dyes.
Shampoo
Shampoo was first developed by the Bengali Muslim Sake Dean Mahomet. He introduced it to England when he opened "Mahomed's Indian Vapour Baths" in Brighton seafront in 1759. He was later appointed as a "Shampooing Surgeon" to Kings George IV and William IV.
Gunpowder compositions
Purified potassium nitrate
Potassium nitrate (saltpetre) was known to the Arabs in an early time as it was known to Khalid ibn Yazid (Calid) (d. 709) and was known under various names, it is used as a flux in metallurgical operations and for producing nitric acid and aqua regia. Recipes for these uses are found in the works of Jabir ibn Hayyan (Geber, d. 815), Abu Bakr al-Razi (Rhazes, d. 932) and other alchemists. Arabs were the first to purify saltpeter to the weapons-grade purity as potassium nitrate must be purified to be used effectively. There are two celebrated works which described the purification processes: one is by Ibn Bakhtawayh in his book al-Muqaddimat (1029), and the other is by the Arab chemist and engineer Hassan al-Rammah of Syria in his book al-Furusiyya wa al-Manasib al-Harbiyya (1270). The first complete purification process for potassium nitrate was described by al-Rammah, who first described the use of potassium carbonate (in the form of wood ashes) to remove calcium and magnesium salts from the potassium nitrate.
A complete gunpowder recipe, which uses purified saltpetre for the first time, exists in a 10th century Arabic manuscript. In another manuscript from the 10th century there is a full description of gunpowder and its use in cannons.
Explosive gunpowder
The ideal composition for explosive gunpowder used in modern times is 75% potassium nitrate (saltpetre), 10% sulfur, and 15% carbon. Several almost identical compositions were first described by the Arab engineer Hasan al-Rammah as a recipe for the rockets (tayyar) he described in his al-Furusiyya wa al-Manasib al-Harbiyya (The Book of Military Horsemanship and Ingenious War Devices) in 1270. Several examples include a tayyar "rocket" (75% saltpetre, 8% sulfur, 15% carbon) and the tayyar buruq "lightning rocket" (74% saltpetre, 10% sulfur, 15% carbon). He states in his book that many of these recipes were known to his father and grandfather, hence dating back to at least the late 12th century. Compositions for an explosive gunpowder effect were not known in China or Europe until the 14th century.
Explosive cannon
The first cannons (midfa) employing explosive gunpowder were used by the Egyptians to repel the Mongols at the Battle of Ain Jalut in 1260, and again in 1304. The gunpowder compositions used for the cannons at these battles were later described in several manuscripts in the early 14th century. Four different gunpowder compositions were used at the battles, with the most explosive cannon having a gunpowder composition (74% saltpetre, 11% sulfur, 15% carbon) again almost identical to idea compositions for explosive gunpowder used in modern times.
*Article taken and edited from http://en.wikipedia.org/wiki/Alchemy_(Islam)
Petrol
Muslim chemists were the first to produce petrol from crude oil, using the process of distillation.
Plated mail
Plated mail was invented by Geber in The Book of the Hidden Pearl for use in armours (jawasin), helmets (bid) and shields (daraq).
Rosewater
Rosewater was first produced by Muslim chemists through the distillation of roses, for use in the drinking and perfumery industries.
Drinking industry
Coffee
An Arab named Khalid was tending his goats in the Kaffa region of Ethiopia, when he noticed his animals became livelier after eating a certain berry. He boiled the berries to make the first coffee. Certainly the first record of the drink is of beans exported from Yemen to Ethiopia where Sufis drank it to stay awake all night to pray on special occasions. By the late 15th century, it had arrived in Makkah and Turkey from where it made its way to Venice in 1645. It was brought to England in 1650 by a Greek named Pasqua Rosee who opened the first coffee house in Lombard Street in the City of London. The Arabic qahwa became the Turkish kahve, then the Italian caffè, and then English coffee.
Distilled water and purified water
Arab chemists were the first to produce distilled water and purified water, used for water supply systems and for long journeys across deserts where the supplies were uncertain.
Soft drink
Sherbet, the first juiced and carbonated soft drink, made of crushed fruit, herbs, or flowers, has long existed as one of the most popular beverages from and of the Muslim world, winning over Western figures such as Lord Byron. Muslims developed a variety of juices to make their sharab, an Arabic word from which the Italian sorbetto, French sorbet and English sherbet were derived. Today, this juice is known by a multitude of names, is associated with numerous cultural traditions, and is produced by countries ranging from India to the United States of America.
Syrups
The medieval Muslim sources contain many recipes for drink syrups that can be kept outside the refrigerator for weeks or months.
Glass industry
Artificial gemstone
Jabir first described the production of high quality coloured glass cut into artificial gemstones.
Coloured glass and stained glass
Stained glass was first produced Muslim architects in Southwest Asia using coloured glass rather than stone. In the 8th century, the Arab chemist Jabir ibn Hayyan (Geber) scientifically described 46 original recipes for producing coloured glass in Kitab al-Durra al-Maknuna (The Book of the Hidden Pearl), in addition to 12 recipes inserted by al-Marrakishi in a later edition of the book.
Clear, colourless, high-purity glass
Clear, colourless, high-purity glass were first produced by Muslims in the 9th century, such as the quartz glass invented by Abbas Ibn Firnas. The Arab poet al-Buhturi (820-897) describes the clarity of such glass as follows:
"Its colour hides the glass as if it is standing in it without a container."
Clear glass mirror
By the 11th century, clear glass mirrors were being produced in Islamic Spain.
Glass factory
The first glass factories were built by Muslim craftsmen in the Islamic world. The first glass factories in Europe were later built in the 11th century by Egyptian craftsmen in Corinth, Greece.
Refracting parabolic mirror
The refracting parabolic mirror was first described by Ibn Sahl in his On the Burning Instruments in the 10th century, and later described again in Ibn al-Haytham's On Burning Mirrors and Book of Optics (1021).
Silica glass and Quartz glass
Silica glass and Quartz glass, a clear, colourless, high-purity glass, was invented by Abbas Ibn Firnas (810-887), who was the first to produce glass from sand and stones such as quartz.
Hygiene industries
Cosmetics
Early forms of cosmetics had been used since ancient times, but these were usually created primarily for the purpose of beautification and often used harmful substances. This changed with Muslim cosmetologists who emphasized hygiene, due to religious requirements, and invented various healthy and hygienic cosmetics that are still used today.
Soap
True soaps made from vegetable oils (such as olive oil), aromatic oils (such as thyme oil) and Sodium Lye (al-Soda al-Kawia) were first produced by Muslim chemists in the medieval Islamic world.[50] Due to washing and bathing being religious requirements for Muslims, they invented the recipe for true soap, which is still in use today, and they invented the soap bar.The formula for soap used since then hasn't changed and are identical to the current soap sold in modern times.
From the beginning of the 7th century, soap was produced in Nablus (Palestine), Kufa (Iraq) and Basra (Iraq). Soaps, as we know them today, are descendants of historical Arabian Soaps. Arabian Soap was perfumed and colored, while some of the soaps were liquid and others were solid. They also had special soap for shaving. It was commercially sold for 3 Dirhams (0.3 Dinars) a piece in 981 AD. A manuscript of Al-Razi (Rhazes) contains various modern recipes for soap. A recently discovered manuscript from the 13th century details more recipes for soap making, e.g. take some sesame oil, a sprinkle of potash, alkali and some lime, mix them all together, and boil. When cooked, they are poured into molds and left to set, leaving hard soap (soap bar).
Perfumery
Islamic cultures contributed significantly to the development of perfumery in both perfecting the extraction of fragrances through steam distillation and by introducing new raw ingredients. Both the raw ingredients and distillation technology significantly influenced western perfumery and scientific developments, particularly chemistry.
As traders, Islamic cultures such as the Arabs and Persians had wider access to different spices, herbals, and other fragrance materials. In addition to trading them, many of these exotic materials were cultivated by the Muslims such that they could be successfully grown outside of their native climates. Two examples of this include jasmine, which is native to South and Southeast Asia, and various citrus fruits, which are native to East Asia. Both of these ingredients are still highly important in modern perfumery.
In Islamic culture, perfume usage has been documented as far back as the 6th century and its usage is considered a religious duty. Muhammad said[citation needed]:
"The taking of a bath on Friday is compulsory for every male Muslim who has attained the age of puberty and (also) the cleaning of his teeth with Miswaak (a type of twig used as a toothbrush), and the using of perfume if it is available. (Recorded in Sahih Bukhari).
Such rituals gave incentives to scholars to search and develop a cheaper way to produce incenses and in mass production. Two talented chemists, Jabir ibn Hayyan (born 722, Iraq), and al-Kindi (born 801, Iraq) established the perfume industry. Jabir developed many techniques, including distillation, evaporation and filtration, which enabled the collection of the odour of plants into a vapour that could be collected in the form of water or oil. [51] Al-Kindi, however, was the real founder of the perfume industry, as he carried out extensive research and experiments in combining various plants and other sources to produce a variety of scent products. He elaborated a vast number of ‘recipes’ for a wide range of perfumes, cosmetics and pharmaceuticals. His work in the laboratory is reported by a witness who said:
"I received the following description, or recipe, from Abu Yusuf Ya'qub b. Ishaq al-Kindi, and I saw him making it and giving it an addition in my presence.
The writer goes on in the same section to speak of the preparation of a perfume called ghaliya, which contained musk, amber and other ingredients, and reveals a long list of technical names of drugs and apparatus.
Musk and floral perfumes were brought to Europe in the 11th and 12th centuries from Arabia, through trade with the Islamic world and with the returning Crusaders. Those who traded for these were most often also involved in trade for spices and dyestuffs. There are records of the Pepperers Guild of London, going back to 1179, which show them trading with Muslims in spices, perfume ingredients and dyes.
Shampoo
Shampoo was first developed by the Bengali Muslim Sake Dean Mahomet. He introduced it to England when he opened "Mahomed's Indian Vapour Baths" in Brighton seafront in 1759. He was later appointed as a "Shampooing Surgeon" to Kings George IV and William IV.
Gunpowder compositions
Purified potassium nitrate
Potassium nitrate (saltpetre) was known to the Arabs in an early time as it was known to Khalid ibn Yazid (Calid) (d. 709) and was known under various names, it is used as a flux in metallurgical operations and for producing nitric acid and aqua regia. Recipes for these uses are found in the works of Jabir ibn Hayyan (Geber, d. 815), Abu Bakr al-Razi (Rhazes, d. 932) and other alchemists. Arabs were the first to purify saltpeter to the weapons-grade purity as potassium nitrate must be purified to be used effectively. There are two celebrated works which described the purification processes: one is by Ibn Bakhtawayh in his book al-Muqaddimat (1029), and the other is by the Arab chemist and engineer Hassan al-Rammah of Syria in his book al-Furusiyya wa al-Manasib al-Harbiyya (1270). The first complete purification process for potassium nitrate was described by al-Rammah, who first described the use of potassium carbonate (in the form of wood ashes) to remove calcium and magnesium salts from the potassium nitrate.
A complete gunpowder recipe, which uses purified saltpetre for the first time, exists in a 10th century Arabic manuscript. In another manuscript from the 10th century there is a full description of gunpowder and its use in cannons.
Explosive gunpowder
The ideal composition for explosive gunpowder used in modern times is 75% potassium nitrate (saltpetre), 10% sulfur, and 15% carbon. Several almost identical compositions were first described by the Arab engineer Hasan al-Rammah as a recipe for the rockets (tayyar) he described in his al-Furusiyya wa al-Manasib al-Harbiyya (The Book of Military Horsemanship and Ingenious War Devices) in 1270. Several examples include a tayyar "rocket" (75% saltpetre, 8% sulfur, 15% carbon) and the tayyar buruq "lightning rocket" (74% saltpetre, 10% sulfur, 15% carbon). He states in his book that many of these recipes were known to his father and grandfather, hence dating back to at least the late 12th century. Compositions for an explosive gunpowder effect were not known in China or Europe until the 14th century.
Explosive cannon
The first cannons (midfa) employing explosive gunpowder were used by the Egyptians to repel the Mongols at the Battle of Ain Jalut in 1260, and again in 1304. The gunpowder compositions used for the cannons at these battles were later described in several manuscripts in the early 14th century. Four different gunpowder compositions were used at the battles, with the most explosive cannon having a gunpowder composition (74% saltpetre, 11% sulfur, 15% carbon) again almost identical to idea compositions for explosive gunpowder used in modern times.
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