Islamic inventions

All you want to know about Islamic inventions

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A significant number of inventions were developed in the medieval Islamic world, a geopolitical region that has at various times extended from Al-Andalus and Africa in the west to the Indian subcontinent and Malay Archipelago in the east.[1] Many of these inventions had direct implications for Fiqh-related issues.

Bernard Lewis explains the historical use of the term "Islam" in What Went Wrong? Western Impact and Middle Eastern Response:

"In English we use the word “Islam” with two distinct meanings, and the distinction is often blurred and lost and gives rise to considerable confusion. In the one sense, Islam is the counterpart of Christianity; that is to say, a religion in the strict sense of the word: a system of belief and worship. In the other sense, Islam is the counterpart of Christendom; that is to say, a civilization shaped and defined by a religion, but containing many elements apart from and even hostile to that religion, yet arising within that civilization."[2]

The inventions listed here were developed during the Islamic Golden Age, which is usually dated from the 7th to 15th centuries. For later inventions developed after the Islamic Golden Age, see Inventions in the modern Islamic world.

Contents

Chemical industries

See also: Alchemy and chemistry in Islam
Jabir ibn Hayyan (Geber), the "father of chemistry", invented the alembic still and many chemicals, including distilled alcohol, and established the perfume industry.
Jabir ibn Hayyan (Geber), the "father of chemistry", invented the alembic still and many chemicals, including distilled alcohol, and established the perfume industry.

Early forms of distillation were known to the Babylonians, Greeks and Egyptians since ancient times, but it was Muslim chemists who first invented pure distillation processes which could fully purify chemical substances. They also developed several different variations of distillation (such as dry distillation, destructive distillation and steam distillation) and introduced new distillation aparatus (such as the alembic, still, and retort), and invented a variety of new chemical processes and over 2,000 chemical substances.[3]

Will Durant wrote in The Story of Civilization IV: The Age of Faith:

"Chemistry as a science was almost created by the Moslems; for in this field, where the Greeks (so far as we know) were confined to industrial experience and vague hypothesis, the Saracens introduced precise observation, controlled experiment, and careful records. They invented and named the alembic (al-anbiq), chemically analyzed innumerable substances, composed lapidaries, distinguished alkalis and acids, investigated their affinities, studied and manufactured hundreds of drugs. Alchemy, which the Moslems inherited from Egypt, contributed to chemistry by a thousand incidental discoveries, and by its method, which was the most scientific of all medieval operations."[4]

Robert Briffault wrote in The Making of Humanity:

"Chemistry, the rudiments of which arose in the processes employed by Egyptian metallurgists and jewellers combining metals into various alloys and 'tinting' them to resemble gold processes long preserved as a secret monopoly of the priestly colleges, and clad in the usual mystic formulas, developed in the hands of the Arabs into a widespread, organized passion for research which led them to the invention of distillation, sublimation, filtration, to the discovery of alcohol, of nitric and sulphuric acids (the only acid known to the ancients was vinegar), of the alkalis, of the salts of mercury, of antimony and bismuth, and laid the basis of all subsequent chemistry and physical research."[5]

Chemical processes

The following chemical processes were invented by Muslim chemists:

Chemical substances

Chemical substances invented for use in the chemical industries include:

  • Medicinal substances: Muslim chemists discovered 2,000 medicinal substances.[3]

Food and drink

  • Restaurant and three-course meal: The earliest restaurants came into existence throughout the Islamic world from the 10th century, shortly before restaurants appeared in China in the 11th century. The Islamic world had "restaurants where one could purchase all sorts of prepared dishes." These restaurants were mentioned by Al-Muqaddasi (born 945) in the late 10th century.[26] Restaurants in medieval Islamic Spain served three-course meals, which was earlier introduced in the 9th century by Ziryab, who insisted that meals should be served in three separate courses consisting of soup, the main course, and dessert.[27]
  • Syrup: Sugar-sweetened syrups were an invention of Arabic physicians that reached Europe in the Middle Ages. The word "syrup" is derived from the Arabic word sharab.[28] Muslims produced recipes for drink syrups that can be kept outside the refrigerator for weeks or months.[23]

Glass industry

Coloured stained glass windows in the Nasir al-Mulk mosque in Shiraz, Iran.
Coloured stained glass windows in the Nasir al-Mulk mosque in Shiraz, Iran.
  • Artificial pearl and purification of pearls: In his Kitab al-Durra al-Maknuna (The Book of the Hidden Pearl), Jabir described the first recipes for the manufacture of artificial pearls and for the purification of pearls that were discoloured from the sea or from grease.[31]
  • Clear, colourless and high-purity glass: The earliest examples of clear, colourless and high-purity glass were produced by Muslims in the 9th century, such as the quartz glass invented by Abbas Ibn Firnas. The Arabic 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."[29] Extensive experimentation was carried out at the factory complex in Ar-Raqqah, Syria, in the 8th century, and a variety of innovative high-purity glass were developed there. Two other similar complexes have also been discovered, and nearly three hundred new chemical recipes for glass were produced at all three sites.[32]
  • Coloured stained glass windows: Muslim architects in Southwest Asia were the first to produce stained glass windows using coloured glass rather than stone producing a stained glass-like effect, as was the case in early churches. In the 8th century, the Arab chemist Geber scientifically described 46 original recipes for producing high-purity 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.[29][30]
  • Dying and artificial colouring of gemstones and pearls: In The Book of the Hidden Pearl, Geber described the first recipes for the dying and artificial colouring of gemstones and pearls.[31]
  • Glass factory: The first industrial complex for glass and pottery production was built in Ar-Raqqah, Syria, in the 8th century. Extensive experimentation was carried out at the complex, which was two kilometres in length, and a variety of innovative high-purity glass were developed there. Two other similar complexes have also been discovered, and nearly three hundred new chemical recipes for glass are known to have been produced at all three sites.[32] The first glass factories were thus 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.[19]

Military technology

See also: Alchemy and chemistry in Islam

The first reference to gunpowder is probably a passage in the Zhenyuan miaodao yaolüe, a Taoist text tentatively dated to the mid-800s.[37] After the spread of early gunpowder from China to the Muslim world, Muslim chemists and engineers developed compositions for explosive gunpowder (naft in Arabic) and their own weapons for use in gunpowder warfare.

A picture of a 15th century Andalusian Arab siege cannon from the book Al-izz wal rifa'a.
A picture of a 15th century Andalusian Arab siege cannon from the book Al-izz wal rifa'a.
The bronze Dardanelles cannon, used by the Ottoman Turks in the siege of Constantinople in 1453, was the first supergun.
The bronze Dardanelles cannon, used by the Ottoman Turks in the siege of Constantinople in 1453, was the first supergun.
The Ottoman Janissary corps were using matchlock muskets since the 1440s. They are depicted battling the Knights Hospitaller in this 1522 painting.
The Ottoman Janissary corps were using matchlock muskets since the 1440s. They are depicted battling the Knights Hospitaller in this 1522 painting.
  • Ballistic war machine and siege cannon: The use of cannons as siege machines dates back to Abu Yaqub Yusuf who employed them at the siege of Sijilmasa in 1274 according to Ibn Khaldun.[38] In the 12th century, the Seljuqs had facilities in Sivas for manufacturing war machines. Ballistic weapons were manufactured in the Muslim world since the time of Kublai Khan in the 13th century. According to Chinese sources, two Muslim engineers, Alaaddin and Ismail (d. 1330), built machines of a ballistic-weapons nature before the besieged city of Hang-show between 1271–1273. Alaaddin's weapons also played a major role in the conquest of several other Chinese cities. His son Ma-ho-scha also developed ballistic weapons. Ismail (transliterated as I-ssu-ma-yin) was present in the Mongol siege of Hsiang-yiang, where he built a war machine with the characteristics of a ballistic weapon. Chinese sources mention that when this war machines were fired, the earth and skies shook, the cannons were buried seven feet into the ground and destroyed everything. His son Yakub also developed ballistic war machines.[39]
  • Counterweight trebuchet and mangonel: The first clearly written record of a counterweight trebuchet comes from Mardi bin Ali al-Tarsusi, who wrote a military manual for Saladin circa 1187. He describes a hybrid trebuchet that he said had the same hurling power as a traction machine pulled by fifty men due to "the constant force [of gravity], whereas men differ in their pulling force." (Showing his mechanical proficiency, Tarsusi designed his trebuchet so that as it was fired it cocked a supplementary crossbow, probably to protect the engineers from attack.)[40] In his book, Medieval Siege, Jim Bradbury[41] extensively quotes from Mardi ibn Ali concerning mangonels of various types, including Arab, Perisan and Turkish, describing what could be trebuchets, but not quoted as above. In On the Social Origins of Medieval Institutions,[42] more detailed quotes by Mardi ibn Ali may be found on the various types of trebuchets.
  • Damascus steel: One of the most famous steels produced in the medieval Near East was Damascus steel used for swordmaking, and mostly produced in Damascus, Syria, in the period from 900 to 1750. This was produced using the crucible steel method, based on the earlier Indian wootz steel. This process was further refined in the Middle East using locally produced steels. The exact process remains unknown, but allowed carbides to precipitate out as micro particles arranged in sheets or bands within the body of a blade. The carbides are far harder than the surrounding low carbon steel, allowing the swordsmith to make an edge which would cut hard materials with the precipitated carbides, while the bands of softer steel allowed the sword as a whole to remain tough and flexible. A team of researchers based at the Technical University of Dresden that uses x-rays and electron microscopy to examine Damascus steel discovered the presence of cementite nanowires[43] and carbon nanotubes.[44] Peter Paufler, a member of the Dresden team, says that these nanostructures give Damascus steel its distinctive properties[45] and are a result of the forging process.[46] [45]
  • 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 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 also states recipes for fireworks and firecrackers made from these explosive gunpowder compositions. 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.[8][38] Medieval French reports suggest that Muslim armies also used explosives against the Sixth Crusade army led by Ludwig IV, Landgrave of Thuringia in the 13th century.[39]
  • Hand cannon, handgun, and portable firearm: The first portable hand cannons (midfa) loaded with explosive gunpowder, the first example of a handgun and portable firearm, 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. According to Shams al-Din Muhammad (d. 1327), the cannons had an explosive gunpowder composition (74% saltpetre, 11% sulfur, 15% carbon) almost identical to the ideal compositions for explosive gunpowder used in modern times (75% saltpetre, 10% sulfur, 15% carbon).[38]
  • Matchlock: The famous Janissary corps of the Ottoman army were using matchlock muskets as early as the 1440s.[48] The first dated illustration of a matchlock mechanism in Europe dates to 1475.
  • Purified potassium nitrate: Muslim chemists were the first to purify potassium nitrate (saltpetre; natrun or barud in Arabic) to the weapons-grade purity for use in gunpowder, as potassium nitrate needs to be purified to be used effectively. This purification process was first described by Ibn Bakhtawayh in his al-Muqaddimat in 1029. The first complete purification process for potassium nitrate is described in 1270 by the Arab chemist and engineer Hasan al-Rammah of Syria in his book al-Furusiyya wa al-Manasib al-Harbiyya (The Book of Military Horsemanship and Ingenious War Devices, a.k.a. the Treatise on Horsemanship and Stratagems of War). He first described the use of potassium carbonate (in the form of wood ashes) to remove calcium and magnesium salts from the potassium nitrate.[49][38] Hasan al-Rammah also describes the purifying of saltpetre using the chemical processes of solution and crystallization, and this was the first clear method for the purification of saltpetre.[50] Bert S. Hall,[51] however, disputes the efficacy of al-Rammah's formula for the purification of potassium nitrate.
  • Supergun: The first supergun was the Great Turkish Bombard, used by the troops of Mehmed II to capture Constantinople in 1453. It had a 762 mm bore, and fired 680 kg (1500 lb) stones. The chief architect for the supergun was a Hungarian named Urban. Though his religion is unknown, he lived and worked in the Islamic world.
  • Torpedo: The invention of torpedoes occurred in the Muslim world, and were driven by a rocket system. The works of Hasan al-Rammah in Syria in 1275 shows illustrations of a torpedo running on water with a rocket system filled with explosive materials and having three firing points.[39]

Oil industry

Pottery

Main article: Islamic pottery
Tin-glazed Hispano-Moresque ware with lusterware decoration, from Spain circa 1475.
Tin-glazed Hispano-Moresque ware with lusterware decoration, from Spain circa 1475.
  • Albarello: An albarello is a type of maiolica earthenware jar originally designed to hold apothecaries' ointments and dry drugs. The development of this type of pharmacy jar had its roots in the Islamic Middle East. Brought to Italy by Hispano-Moresque traders, the earliest Italian examples were produced in Florence in the 15th century.
  • Lusterware: Invented by Geber, who applied it to ceramic glazes in the 8th century.[55] The technique soon became popular in Persia from the 9th century, and lusterware was later produced in Egypt during the Fatimid caliphate in the 10th-12th centuries. While the production of lusterware continued in the Middle East, it spread to Europe—first to Al-Andalus, notably at Malaga, and then to Italy, where it was used to enhance maiolica.
  • Pottery factory: The first industrial complex for glass and pottery production was built in Ar-Raqqah, Syria, in the 8th century. Extensive experimentation was carried out at the complex, which was two kilometres in length. Two other similar complexes have also been discovered.[32]
  • Stonepaste ceramic: Invented in 9th-century Iraq,[56] it was a vitreous or semivitreous ceramic ware of fine texture, made primarily from non-refactory fire clay.[57]
  • Tin-glazing: The tin-glazing of ceramics was invented by Muslim potters in 8th-century Basra, Iraq. Tin-opacified glazing was one of the earliest new technologies developed by the Islamic potters. The first examples of this technique can be found as blue-painted ware in 8th-century Basra.[58]

Civil engineering

The minaret is a distinct feature of Islamic architecture. The spiralling minaret located at the Great Mosque of Samarra, built in 852, is one of the oldest.
The minaret is a distinct feature of Islamic architecture. The spiralling minaret located at the Great Mosque of Samarra, built in 852, is one of the oldest.
The tallest minaret is currently the one at Hassan II Mosque, at 210 metres (689 ft) tall, pictured above.
The tallest minaret is currently the one at Hassan II Mosque, at 210 metres (689 ft) tall, pictured above.
  • Cobwork: The earliest appearance of cobwork (tabya) dates back to the Maghreb and Al-Andalus in the 11th century, and was first described in detail by Ibn Khaldun in the 14th century, who regarded it as a characteristically Muslim practice. Cobwork later spread to other parts of Europe from the 12th century onwards.[64]
  • Diversion dam: The first diversion dam was built by medieval Muslim engineers over the River Uzaym in Jabal Hamrin, Iraq. Many of these were later built in other parts of the Islamic world.[62]
  • Geared and hydropowered water supply system: Al-Jazari developed the earliest water supply system to be driven by gears and hydropower, which was built in 13th century Damascus to supply water to its mosques and Bimaristan hospitals. The system had water from a lake turn a scoop-wheel and a system of gears which transported jars of water up to a water channel that led to mosques and hospitals in the city.[65]
  • Minaret: The minaret is a distinctive architectural feature of Islamic architecture, especialy mosques, dating back to the early centuries of Islam. Minarets are generally tall spires with onion-shaped crowns, usually either free standing or much taller than any surrounding support structure. The tallest minaret in pre-modern times was the Qutub Minar, which was 72.5 meters (237.9 ft) tall and was built in the 12th century, and it remains the tallest brick and stone minaret in the world. The tallest minaret in modern times is the one at Hassan II Mosque, which is 210 metres (689 ft) tall and was built in 1986.
  • Ventillator: The first ventillators were invented in Islamic Egypt and were widely used in many houses throughout Cairo during the Middle Ages. These ventillators were later described in detail by Abd al-Latif al-Baghdadi in 1200, who reported that almost every house in Cairo has a ventillator, and that they cost anywhere from 1 to 500 dinars depending on their sizes and shapes. Most ventillators in the city were oriented towards the Qibla (the direction of Mecca), as was the city in general.[71]

Industrial milling

See also: Muslim Agricultural Revolution

A variety of industrial mills were active in the medieval Islamic world, including fulling mills, gristmills, hullers, paper mills, sawmills, stamp mills, steel mills, sugar mills, and windmills, many of which were original inventions by Muslim engineers. By the 11th century, every province throughout the Islamic world had these industrial mills in operation, from al-Andalus and North Africa to the Middle East and Central Asia.[72] These advances made it possible for many industrial operations that were previously driven by manual labour in ancient times to be driven by machinery instead in the Islamic world. The transfer of these technologies to medieval Europe later laid the foundations for the Industrial Revolution in 18th century Europe.[73]

  • Factory milling installation: The first factory milling installations were built by Muslim engineers throughout every city and urban community in the Islamic world. For example, the factory milling complex in 10th century Baghdad could produce 10 tonnes of flour every day.[75] The first large milling installations in Europe were built in 12th century Islamic Spain.[76]
  • Milling dam: The milling dam was used to provide additional power for milling, which Muslim engineers called the Pul-i-Bulaiti. The first was built at Shustar on the River Karun, Iran, and many of these were later built in other parts of the Islamic world.[62] Water was conducted from the back of the dam through a large pipe to drive a water wheel and water mill.[74]
  • Spiral scoop-wheel: The spiral scoop-wheel is a device which raises large quantities of water to ground level with a high degree of efficiency. This was invented in 12th century Baghdad and is still commonly used in modern Egypt.[81]
  • Sugar refinery: The first sugar refineries were built by Muslim engineers.[72] They were first driven by water mills, and then windmills from the 9th and 10th centuries in Afghanistan, Pakistan, and Iran.[76]
  • Underground mill: Other innovations that were unique to the Islamic world include the situation of water mills in the underground irrigation tunnels of a qanat and on the main canals of valley-floor irrigation systems.[76]
  • Windmill: The first Windmills were built in Sistan, Afghanistan, sometime between the 7th century and 9th century, as described by Muslim geographers. These were vertical axle windmills, which had long vertical driveshafts with rectangle shaped blades.[82] The first windmill may have been contructed as early as the time of the second Rashidun caliph Umar (634-644 AD), though some argue that this account may have been a 10th century amendment.[83] Made of six to twelve sails covered in reed matting or cloth material, these windmills were used to grind corn and draw up water, and used in the gristmilling and sugarcane industries.[78] The first horizontal windmills were built in what are now Afghanistan, Pakistan and Iran in the 9th and 10th centuries. They had a variety of uses, such as grinding grain, pumping water, and crushing sugar-cane.[76] A small primitive wind wheel operating an organ is described as early as the 1st century AD by Hero of Alexandria, marking probably the first instance of a wind powering machine in history.[84][85] Horizontal axle windmills of the type generally used today were developed in Northwestern Europe in the 1180s.[86]

Cosmetics

A number of hygienic cosmetics were invented by Muslim chemists, cosmetologists and physicians.[87]

  • Bangs: In the 9th century, Ziryab introduced a new hairstyle for women in Al-Andalus: a "shorter, shaped cut, with bangs on the forehead and the ears uncovered."[89]

Hygiene

  • Toothpaste, functional and pleasant: In the 9th century, the Persian musician and fashion designer Ziryab is known to have invented a type of toothpaste, which he popularized throughout Islamic Spain.[90] The exact ingredients of this toothpaste are not currently known,[89] but unlike the earlier Egyptian and Roman toothpastes, Ziryab's toothpaste was reported to have been both "functional and pleasant to taste."[90] In circa 1000, Abulcasis recommended a toothpaste made from cinnamon, nutmeg, cardamom and coriander leaves, as a remedy for bad breath resulting from eating garlic or onions.[88]

Perfumery

Perfume usage was recorded in the Arabian Peninsula since the 7th century, and Muslims made many advances in perfumery in the proceeding centuries. This included the extraction of numerous fragrances, as well as the cheap mass-production of incenses. Muslim scientists such as Al-Kindi elaborated a vast number of recipes for a wide range of perfumes, cosmetics and pharmaceuticals.

  • Camphor: In the 9th century, the Arab chemist Al-Kindi (Alkindus) provided the earliest recipe for the production of camphor in his Kitab Kimiya' al-'Itr (Book of the Chemistry of Perfume).[92]
  • Deodorants, under-arm and roll-on: In the 9th century, Ziryab invented under-arm deodorants in Al-Andalus.[27] In circa 1000, another under-arm deodorant was described in Al-Andalus by Abulcasis,[88] who also invented perfumed stocks, rolled and pressed in special moulds, similar to modern roll-on deodorants.[93]
  • Jasmine and citrus perfumes: Muslims introduced new raw ingredients in perfumery, which were produced from different spices, herbals, and other fragrance materials, which are still used in modern perfumery. These included jasmine from South and Southeast Asia, and citrus fruits from East Asia.

Institutions

A number of important economic, educational, legal and scientific institutions previously unknown in the ancient world have their origins in the medieval Islamic world.