Mu%E1%B8%A5ammad Ibn M%C5%ABs%C4%81 Al-Khw%C4%81rizm%C4%AB

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## Life

## Contributions

### Algebra

### Arithmetic

### Astronomy

### Trigonometry

### Geography

### Jewish calendar

### Other works

## See also

## Notes

## References

## Further reading

### Specific references

#### Biographical

#### Algebra

#### Arithmetic

#### Astronomy

#### Spherical trigonometry

#### Jewish calendar

#### Geography

### General references

This article uses material from the Wikipedia page available here. It is released under the Creative Commons Attribution-Share-Alike License 3.0.

Mu%E1%B8%A5ammad Ibn M%C5%ABs%C4%81 Al-Khw%C4%81rizm%C4%AB

Mu?ammad ibn M?s? al-Khw?rizm? | |
---|---|

Born | c. 780 Khwarezm ^{[1]} |

Died | c. 850 |

Academic background | |

Academic work | |

Era | Medieval era (Islamic Golden Age) |

Main interests | Mathematics, Geography, Astronomy |

Notable works | The Compendious Book on Calculation by Completion and Balancing, Book of the Description of the Earth, Astronomical tables of Siddhanta |

Notable ideas | Treatises on algebra and Indian numerals |

Influenced | Abu Kamil^{[2]} |

**Mu?ammad ibn M?s? al-Khw?rizm?**^{[note 1]} (Persian: Mu?ammad Khw?rizm? ? ? ?; c. 780 - c. 850), Arabized as al-Khwarizmi and formerly Latinized as *Algorithmi*, was a Persian^{[4]}^{[5]}^{[6]}polymath who produced vastly influential works in mathematics, astronomy, and geography. Around 820 CE he was appointed as the astronomer and head of the library of the House of Wisdom in Baghdad.^{[7]}^{:14}

Al-Khwarizmi's popularizing treatise on algebra (*The Compendious Book on Calculation by Completion and Balancing*, c. 813-833 CE^{[8]}^{:171}) presented the first systematic solution of linear and quadratic equations. One of his principal achievements in algebra was his demonstration of how to solve quadratic equations by completing the square, for which he provided geometric justifications.^{[7]}^{:14} Because he was the first to treat algebra as an independent discipline and introduced the methods of "reduction" and "balancing" (the transposition of subtracted terms to the other side of an equation, that is, the cancellation of like terms on opposite sides of the equation),^{[9]} he has been described as the father^{[4]}^{[10]}^{[11]} or founder^{[12]}^{[13]} of algebra. The term *algebra* itself comes from the title of his book (the word *al-jabr* meaning "completion" or "rejoining").^{[14]} His name gave rise to the terms *algorism* and *algorithm,*^{[15]} as well as Spanish and Portuguese terms *algoritmo,* and Spanish *guarismo*^{[16]} and Portuguese *algarismo* meaning "digit".

In the 12th century, Latin translations of his textbook on arithmetic (*Algorithmo de Numero Indorum*) which codified the various Indian numerals, introduced the decimal positional number system to the Western world.^{[17]}*The Compendious Book on Calculation by Completion and Balancing*, translated into Latin by Robert of Chester in 1145, was used until the sixteenth century as the principal mathematical text-book of European universities.^{[18]}^{[19]}^{[20]}^{[21]}

In addition to his best-known works, he revised Ptolemy's *Geography*, listing the longitudes and latitudes of various cities and localities.^{[22]}^{:9} He further produced a set of astronomical tables and wrote about calendaric works, as well as the astrolabe and the sundial.^{[23]}^{:669} He also made important contributions to trigonometry, producing accurate sine and cosine tables, and the first table of tangents.

Few details of al-Khw?rizm?'s life are known with certainty. He was born into a Persian family^{[6]} and Ibn al-Nadim gives his birthplace as Khwarezm in Central Asia.^{[24]}

Muhammad ibn Jarir al-Tabari gives his name as Mu?ammad ibn Musá al-Khw?rizmiyy al-Maj?siyy al-Qu?rubbaliyy (? ? ? ). The epithet *al-Qutrubbulli* could indicate he might instead have come from Qutrubbul (Qatrabbul),^{[25]} a viticulture district near Baghdad. However, Rashed denies this:^{[26]}

There is no need to be an expert on the period or a philologist to see that al-Tabari's second citation should read "Muhammad ibn M?sa al-Khw?rizm?

andal-Maj?si al-Qutrubbulli," and that there are two people (al-Khw?rizm? and al-Maj?si al-Qutrubbulli) between whom the letterwa[Arabic '?' for the conjunction 'and'] has been omitted in an early copy. This would not be worth mentioning if a series of errors concerning the personality of al-Khw?rizm?, occasionally even the origins of his knowledge, had not been made. Recently, G.J. Toomer ... with naive confidence constructed an entire fantasy on the error which cannot be denied the merit of amusing the reader.

Regarding al-Khw?rizm?'s religion, Toomer writes:^{[27]}

Another epithet given to him by al-?abar?, "al-Maj?s?," would seem to indicate that he was an adherent of the old Zoroastrian religion. This would still have been possible at that time for a man of Iranian origin, but the pious preface to al-Khw?rizm?'s

Algebrashows that he was an orthodox Muslim, so al-?abar?'s epithet could mean no more than that his forebears, and perhaps he in his youth, had been Zoroastrians.

Ibn al-Nad?m's *Kit?b al-Fihrist* includes a short biography on al-Khw?rizm? together with a list his books. Al-Khw?rizm? accomplished most of his work between 813 and 833. After the Muslim conquest of Persia, Baghdad had become the centre of scientific studies and trade, and many merchants and scientists from as far as China and India traveled there, as did al-Khw?rizm?^{[]}. He worked in the House of Wisdom established by the Abbasid Caliph al-Ma'm?n, where he studied the sciences and mathematics, including the translation of Greek and Sanskrit scientific manuscripts.

Douglas Morton Dunlop suggests that Mu?ammad ibn M?s? al-Khw?rizm? might have been the same person as Mu?ammad ibn M?s? ibn Sh?kir, the eldest of the three Ban? M?s?.^{[28]}

Al-Khw?rizm?'s contributions to mathematics, geography, astronomy, and cartography established the basis for innovation in algebra and trigonometry. His systematic approach to solving linear and quadratic equations led to *algebra*, a word derived from the title of his book on the subject, "The Compendious Book on Calculation by Completion and Balancing".^{[29]}

*On the Calculation with Hindu Numerals* written about 820, was principally responsible for spreading the Hindu-Arabic numeral system throughout the Middle East and Europe. It was translated into Latin as *Algoritmi de numero Indorum*. Al-Khw?rizm?, rendered as (Latin) *Algoritmi*, led to the term "algorithm".

Some of his work was based on Persian and Babylonian astronomy, Indian numbers, and Greek mathematics.

Al-Khw?rizm? systematized and corrected Ptolemy's data for Africa and the Middle East. Another major book was *Kitab surat al-ard* ("The Image of the Earth"; translated as Geography), presenting the coordinates of places based on those in the *Geography* of Ptolemy but with improved values for the Mediterranean Sea, Asia, and Africa.^{[]}

He also wrote on mechanical devices like the astrolabe and sundial.

He assisted a project to determine the circumference of the Earth and in making a world map for al-Ma'mun, the caliph, overseeing 70 geographers.^{[30]}

When, in the 12th century, his works spread to Europe through Latin translations, it had a profound impact on the advance of mathematics in Europe.^{[]}

*The Compendious Book on Calculation by Completion and Balancing* (Arabic: ? ? *al-Kit?b al-mukhta?ar f? ?is?b al-jabr wal-muq?bala*) is a mathematical book written approximately 820 CE. The book was written with the encouragement of Caliph al-Ma'mun as a popular work on calculation and is replete with examples and applications to a wide range of problems in trade, surveying and legal inheritance.^{[31]} The term "algebra" is derived from the name of one of the basic operations with equations (*al-jabr*, meaning "restoration", referring to adding a number to both sides of the equation to consolidate or cancel terms) described in this book. The book was translated in Latin as *Liber algebrae et almucabala* by Robert of Chester (Segovia, 1145) hence "algebra", and also by Gerard of Cremona. A unique Arabic copy is kept at Oxford and was translated in 1831 by F. Rosen. A Latin translation is kept in Cambridge.^{[32]}

It provided an exhaustive account of solving polynomial equations up to the second degree,^{[33]} and discussed the fundamental methods of "reduction" and "balancing", referring to the transposition of terms to the other side of an equation, that is, the cancellation of like terms on opposite sides of the equation.^{[34]}

Al-Khw?rizm?'s method of solving linear and quadratic equations worked by first reducing the equation to one of six standard forms (where *b* and *c* are positive integers)

- squares equal roots (
*ax*^{2}=*bx*) - squares equal number (
*ax*^{2}=*c*) - roots equal number (
*bx*=*c*) - squares and roots equal number (
*ax*^{2}+*bx*=*c*) - squares and number equal roots (
*ax*^{2}+*c*=*bx*) - roots and number equal squares (
*bx*+*c*=*ax*^{2})

by dividing out the coefficient of the square and using the two operations *al-jabr* (Arabic: "restoring" or "completion") and *al-muq?bala* ("balancing"). *Al-jabr* is the process of removing negative units, roots and squares from the equation by adding the same quantity to each side. For example, *x*^{2} = 40*x* - 4*x*^{2} is reduced to 5*x*^{2} = 40*x*. *Al-muq?bala* is the process of bringing quantities of the same type to the same side of the equation. For example, *x*^{2} + 14 = *x* + 5 is reduced to *x*^{2} + 9 = *x*.

The above discussion uses modern mathematical notation for the types of problems that the book discusses. However, in al-Khw?rizm?'s day, most of this notation had not yet been invented, so he had to use ordinary text to present problems and their solutions. For example, for one problem he writes, (from an 1831 translation)

If some one says: "You divide ten into two parts: multiply the one by itself; it will be equal to the other taken eighty-one times." Computation: You say, ten less a thing, multiplied by itself, is a hundred plus a square less twenty things, and this is equal to eighty-one things. Separate the twenty things from a hundred and a square, and add them to eighty-one. It will then be a hundred plus a square, which is equal to a hundred and one roots. Halve the roots; the moiety is fifty and a half. Multiply this by itself, it is two thousand five hundred and fifty and a quarter. Subtract from this one hundred; the remainder is two thousand four hundred and fifty and a quarter. Extract the root from this; it is forty-nine and a half. Subtract this from the moiety of the roots, which is fifty and a half. There remains one, and this is one of the two parts.

^{[31]}

In modern notation this process, with *x* the "thing" ( *shay?*) or "root", is given by the steps,

Let the roots of the equation be *x* = *p* and *x = q*. Then , and

So a root is given by

Several authors have also published texts under the name of *Kit?b al-jabr wal-muq?bala*, including Ab? ?an?fa D?nawar?, Ab? K?mil Shuj ibn Aslam, Ab? Mu?ammad al-'Adl?, Ab? Y?suf al-Mi, 'Abd al-Ham?d ibn Turk, Sind ibn 'Al?, Sahl ibn Bi?r, and Sharaf al-D?n al-s?.

J.J. O'Conner and E.F. Robertson wrote in the *MacTutor History of Mathematics archive*:

Perhaps one of the most significant advances made by Arabic mathematics began at this time with the work of al-Khwarizmi, namely the beginnings of algebra. It is important to understand just how significant this new idea was. It was a revolutionary move away from the Greek concept of mathematics which was essentially geometry. Algebra was a unifying theory which allowed rational numbers, irrational numbers, geometrical magnitudes, etc., to all be treated as "algebraic objects". It gave mathematics a whole new development path so much broader in concept to that which had existed before, and provided a vehicle for future development of the subject. Another important aspect of the introduction of algebraic ideas was that it allowed mathematics to be applied to itself in a way which had not happened before.

^{[35]}

R. Rashed and Angela Armstrong write:

Al-Khwarizmi's text can be seen to be distinct not only from the Babylonian tablets, but also from Diophantus'

Arithmetica. It no longer concerns a series of problems to be solved, but an exposition which starts with primitive terms in which the combinations must give all possible prototypes for equations, which henceforward explicitly constitute the true object of study. On the other hand, the idea of an equation for its own sake appears from the beginning and, one could say, in a generic manner, insofar as it does not simply emerge in the course of solving a problem, but is specifically called on to define an infinite class of problems.^{[36]}

According to Swiss-American historian of mathematics, Florian Cajori, Al-Khwarizmi's algebra was different from the work of Indian mathematicians, for Indians had no rules like the ''restoration'' and ''reduction''.^{[37]} Regarding the dissimilarity and significance of Al-Khwarizmi's algebraic work from that of Indian Mathematician Brahmagupta, Carl Benjamin Boyer wrote:

It is true that in two respects the work of al-Khowarizmi represented a retrogression from that of Diophantus. First, it is on a far more elementary level than that found in the Diophantine problems and, second, the algebra of al-Khowarizmi is thoroughly rhetorical, with none of the syncopation found in the Greek

Arithmeticaor in Brahmagupta's work. Even numbers were written out in words rather than symbols! It is quite unlikely that al-Khwarizmi knew of the work of Diophantus, but he must have been familiar with at least the astronomical and computational portions of Brahmagupta; yet neither al-Khwarizmi nor other Arabic scholars made use of syncopation or of negative numbers. Nevertheless, theAl-jabrcomes closer to the elementary algebra of today than the works of either Diophantus or Brahmagupta, because the book is not concerned with difficult problems in indeterminant analysis but with a straight forward and elementary exposition of the solution of equations, especially that of second degree. The Arabs in general loved a good clear argument from premise to conclusion, as well as systematic organization - respects in which neither Diophantus nor the Hindus excelled.^{[38]}

Al-Khw?rizm?'s second most influential work was on the subject of arithmetic, which survived in Latin translations but lost in the original Arabic. His writings include the text *kit?b al-?is?b al-hind?* ('Book of Indian computation'^{[note 2]}), and perhaps a more elementary text, *kitab al-jam' wa'l-tafriq al-?is?b al-hind?* ('Addition and subtraction in Indian arithmetic').^{[40]}^{[41]} These texts described algorithms on decimal numbers (Hindu-Arabic numerals) that could be carried out on a dust board. Called *takht* in Arabic (Latin: *tabula*), a board covered with a thin layer of dust or sand was employed for calculations, on which figures could be written with a stylus and easily erased and replaced when necessary. Al-Khwarizmi's algorithms were used for almost three centuries, until replaced by Al-Uqlidisi's algorithms that could be carried out with pen and paper.^{[42]}

As part of 12th century wave of Arabic science flowing into Europe via translations, these texts proved to be revolutionary in Europe.^{[43]} Al-Khwarizmi's Latinized name, *Algorismus*, turned into the name of method used for computations, and survives in the modern term "algorithm". It gradually replaced the previous abacus-based methods used in Europe.^{[44]}

Four Latin texts providing adaptions of Al-Khwarizmi's methods have survived, even though none of them is believed to be a literal translation:^{[40]}

*Dixit Algorizmi*(published in 1857 under the title*Algoritmi de Numero Indorum*^{[45]})^{[46]}*Liber Alchoarismi de Practica Arismetice**Liber Ysagogarum Alchorismi**Liber Pulveris*

*Dixit Algorizmi* ('Thus spake Al-Khwarizmi') is the starting phrase of a manuscript in the University of Cambridge library, which is generally referred to by its 1857 title *Algoritmi de Numero Indorum*. It is attributed to the Adelard of Bath, who had also translated the astronomical tables in 1126. It is perhaps the closest to Al-Khwarizmi's own writings.^{[46]}

Al-Khwarizmi's work on arithmetic was responsible for introducing the Arabic numerals, based on the Hindu-Arabic numeral system developed in Indian mathematics, to the Western world. The term "algorithm" is derived from the algorism, the technique of performing arithmetic with Hindu-Arabic numerals developed by al-Khw?rizm?. Both "algorithm" and "algorism" are derived from the Latinized forms of al-Khw?rizm?'s name, *Algoritmi* and *Algorismi*, respectively.

Al-Khw?rizm?'s *Z?j al-Sindhind*^{[47]} (Arabic: , "astronomical tables of *Siddhanta*"^{[48]}) is a work consisting of approximately 37 chapters on calendrical and astronomical calculations and 116 tables with calendrical, astronomical and astrological data, as well as a table of sine values. This is the first of many Arabic *Zijes* based on the Indian astronomical methods known as the *sindhind*.^{[49]} The work contains tables for the movements of the sun, the moon and the five planets known at the time. This work marked the turning point in Islamic astronomy. Hitherto, Muslim astronomers had adopted a primarily research approach to the field, translating works of others and learning already discovered knowledge.

The original Arabic version (written c. 820) is lost, but a version by the Spanish astronomer Maslamah Ibn Ahmad al-Majriti (c. 1000) has survived in a Latin translation, presumably by Adelard of Bath (January 26, 1126).^{[50]} The four surviving manuscripts of the Latin translation are kept at the Bibliothèque publique (Chartres), the Bibliothèque Mazarine (Paris), the Biblioteca Nacional (Madrid) and the Bodleian Library (Oxford).

Al-Khw?rizm?'s *Z?j al-Sindhind* also contained tables for the trigonometric functions of sines and cosine.^{[49]} A related treatise on spherical trigonometry is also attributed to him.^{[35]}

Al-Khw?rizm? produced accurate sine and cosine tables, and the first table of tangents.^{[51]}^{[52]}

Al-Khw?rizm?'s third major work is his *Kit?b rat al-Ar?* (Arabic: ? ? , "Book of the Description of the Earth"),^{[53]} also known as his *Geography*, which was finished in 833. It is a major reworking of Ptolemy's 2nd-century *Geography*, consisting of a list of 2402 coordinates of cities and other geographical features following a general introduction.^{[54]}

There is only one surviving copy of *Kit?b rat al-Ar?*, which is kept at the Strasbourg University Library. A Latin translation is kept at the Biblioteca Nacional de España in Madrid.^{[]} The book opens with the list of latitudes and longitudes, in order of "weather zones", that is to say in blocks of latitudes and, in each weather zone, by order of longitude. As Paul Gallez^{[dubious – discuss]} points out, this excellent system allows the deduction of many latitudes and longitudes where the only extant document is in such a bad condition as to make it practically illegible. Neither the Arabic copy nor the Latin translation include the map of the world itself; however, Hubert Daunicht was able to reconstruct the missing map from the list of coordinates. Daunicht read the latitudes and longitudes of the coastal points in the manuscript, or deduces them from the context where they were not legible. He transferred the points onto graph paper and connected them with straight lines, obtaining an approximation of the coastline as it was on the original map. He then does the same for the rivers and towns.^{[55]}

Al-Khw?rizm? corrected Ptolemy's gross overestimate for the length of the Mediterranean Sea^{[56]} from the Canary Islands to the eastern shores of the Mediterranean; Ptolemy overestimated it at 63 degrees of longitude, while al-Khw?rizm? almost correctly estimated it at nearly 50 degrees of longitude. He "also depicted the Atlantic and Indian Oceans as open bodies of water, not land-locked seas as Ptolemy had done."^{[57]} Al-Khw?rizm?'s Prime Meridian at the Fortunate Isles was thus around 10° east of the line used by Marinus and Ptolemy. Most medieval Muslim gazetteers continued to use al-Khw?rizm?'s prime meridian.^{[56]}

Al-Khw?rizm? wrote several other works including a treatise on the Hebrew calendar, titled *Ris?la fi istikhr?j ta'r?kh al-yah?d* (Arabic: ? , "Extraction of the Jewish Era"). It describes the Metonic cycle, a 19-year intercalation cycle; the rules for determining on what day of the week the first day of the month Tishrei shall fall; calculates the interval between the Anno Mundi or Jewish year and the Seleucid era; and gives rules for determining the mean longitude of the sun and the moon using the Hebrew calendar. Similar material is found in the works of Ab? Rayn al-B?r?n? and Maimonides.^{[47]}

Ibn al-Nadim's *Kit?b al-Fihrist*, an index of Arabic books, mentions al-Khw?rizm?'s *Kit?b al-Ta?r?kh* (Arabic: ? ?), a book of annals. No direct manuscript survives; however, a copy had reached Nusaybin by the 11th century, where its metropolitan bishop, Mar Elyas bar Shinaya, found it. Elias's chronicle quotes it from "the death of the Prophet" through to 169 AH, at which point Elias's text itself hits a lacuna.^{[58]}

Several Arabic manuscripts in Berlin, Istanbul, Tashkent, Cairo and Paris contain further material that surely or with some probability comes from al-Khw?rizm?. The Istanbul manuscript contains a paper on sundials; the *Fihrist* credits al-Khw?rizm? with *Kit?b ar-Rukh?ma(t)* (Arabic: ? ?). Other papers, such as one on the determination of the direction of Mecca, are on the spherical astronomy.

Two texts deserve special interest on the morning width (*Ma'rifat sa'at al-mashriq f? kull balad*) and the determination of the azimuth from a height (*Ma'rifat al-samt min qibal al-irtif?'*).

He also wrote two books on using and constructing astrolabes.

- Al-Khwarizmi (crater) -- A crater on the far side of the moon named for al-Khw?rizm?.

**^**There is some confusion in the literature on whether al-Khw?rizm?'s full name is ? ? ? *Ab? ?Abdall?h Mu?ammad ibn M?s? al-Khw?rizm?*or ? ? ? *Ab? Ja'far Mu?ammad ibn M?s? al-Khw?rizm?*. Ibn Khaldun notes in his encyclopedic work: "The first who wrote upon this branch [algebra] was Abu 'Abdallah al-Khowarizmi, after whom came Abu Kamil Shoja' ibn Aslam." (MacGuckin de Slane)^{[]}. In the introduction to his critical commentary on Robert of Chester's Latin translation of al-Khw?rizm?'s*Algebra*, L.C. Karpinski notes that Ab? Ja'far Mu?ammad ibn M?s? refers to the eldest of the Ban? M?s? brothers. Karpinski notes in his review on (Ruska 1917) that in (Ruska 1918): "Ruska here inadvertently speaks of the author as Ab? Ga'far M. b. M., instead of Ab? Abdallah M. b. M." Donald Knuth writes it as*Ab? 'Abd All?h Mu?ammad ibn M?s? al-Khw?rizm?*and quotes it as meaning "literally, 'Father of Abdullah, Mohammed, son of Moses, native of Khw?rizm,'" citing previous work by Heinz Zemanek.^{[3]}**^**Some scholars translate the title*al-?is?b al-hind?*as "computation with Hindu numerals", but Arabic*Hind?*means 'Indian' rather than 'Hindu'. A. S. Saidan states that it should be understood as arithmetic done "in the Indian way", with Hindu-Arabic numerals, rather than as simply "Indian arithmetic". The Arab mathematicians incorporated their own innovations in their texts.^{[39]}

**^**Berggren 1986; Struik 1987, p. 93**^**O'Connor, John J.; Robertson, Edmund F., "Ab? K?mil Shuj?' ibn Aslam", MacTutor History of Mathematics archive, University of St Andrews.**^**Knuth, Donald (1997), "Basic Concepts",*The Art of Computer Programming*,**1**(3rd ed.), Addison-Wesley, p. 1, ISBN 978-0-201-89683-1- ^
^{a}^{b}Corbin, Henry (1998).*The Voyage and the Messenger: Iran and Philosophy*. North Atlantic Books. p. 44. ISBN 978-1-55643-269-9. **^**Clifford A. Pickover (2009).*The Math Book: From Pythagoras to the 57th Dimension, 250 Milestones in the History of Mathematics*. Sterling Publishing Company, Inc. p. 84. ISBN 978-1-4027-5796-9.- ^
^{a}^{b}Saliba, George (September 1998). "Science and medicine".*Iranian Studies*.**31**(3-4): 681-690. doi:10.1080/00210869808701940.Take, for example, someone like Muhammad b. Musa al-Khwarizmi (fl. 850) may present a problem for the EIr, for although he was obviously of Persian descent, he lived and worked in Baghdad and was not known to have produced a single scientific work in Persian.

- ^
^{a}^{b}Maher, P. (1998). From Al-Jabr to Algebra. Mathematics in School, 27(4), 14-15. **^**Oaks, J. (2009). Polynomials and equations in Arabic algebra. Archive for History of Exact Sciences, 63(2), 169-203.**^**(Boyer 1991, "The Arabic Hegemony" p. 229) "It is not certain just what the terms al-jabr and muqabalah mean, but the usual interpretation is similar to that implied in the translation above. The word al-jabr presumably meant something like "restoration" or "completion" and seems to refer to the transposition of subtracted terms to the other side of an equation; the word muqabalah is said to refer to "reduction" or "balancing" - that is, the cancellation of like terms on opposite sides of the equation."**^**Boyer, Carl B., 1985.*A History of Mathematics*, p. 252. Princeton University Press. "Diophantus sometimes is called the father of algebra, but this title more appropriately belongs to al-Khowarizmi..." , "...the Al-jabr comes closer to the elementary algebra of today than the works of either Diophantus or Brahmagupta..."**^**S Gandz, The sources of al-Khwarizmi's algebra, Osiris, i (1936), 263-277,"Al-Khwarizmi's algebra is regarded as the foundation and cornerstone of the sciences. In a sense, al-Khwarizmi is more entitled to be called "the father of algebra" than Diophantus because al-Khwarizmi is the first to teach algebra in an elementary form and for its own sake, Diophantus is primarily concerned with the theory of numbers."**^**Katz, Victor J. "STAGES IN THE HISTORY OF ALGEBRA WITH IMPLICATIONSFOR TEACHING" (PDF).*VICTOR J.KATZ, University of the District of Columbia Washington DC, USA*: 190. Archived from the original (PDF) on 2019-03-27. Retrieved – via University of the District of Columbia Washington DC, USA.The first true algebra text which is still extant is the work on al-jabr and al-muqabala by Mohammad ibn Musa al-Khwarizmi, written in Baghdad around 825.

**^**Esposito, John L. (2000-04-06).*The Oxford History of Islam*. Oxford University Press. p. 188. ISBN 978-0-19-988041-6.Al-Khwarizmi is often considered the founder of algebra, and his name gave rise to the term algorithm.

**^**Brentjes, Sonja (2007-06-01). "Algebra".*Encyclopaedia of Islam, THREE*.**^**Daffa 1977**^**Knuth, Donald (1979).*Algorithms in Modern Mathematics and Computer Science*(PDF). Springer-Verlag. ISBN 978-0-387-11157-5. Archived from the original (PDF) on 2006-11-07.**^**Struik 1987, p. 93**^**Philip Khuri Hitti (2002).*History of the Arabs*. p. 379. ISBN 978-1-137-03982-8.**^**Fred James Hill, Nicholas Awde (2003).*A History of the Islamic World*. Hippocrene Books. p. 55. ISBN 978-0-7818-1015-9."The Compendious Book on Calculation by Completion and Balancing" (Hisab al-Jabr wa H-Muqabala) on the development of the subject cannot be underestimated. Translated into Latin during the twelfth century, it remained the principal mathematics textbook in European universities until the sixteenth century

**^**Shawn Overbay, Jimmy Schorer, and Heather Conger, University of Kentucky. "Al-Khwarizmi". Archived from the original on 2013-12-12.CS1 maint: multiple names: authors list (link)**^**"Islam Spain and the history of technology".*www.sjsu.edu*. Retrieved .**^**L., V.D. (1985). A history of algebra: from al - Khwarizmi to emmy noether. Berlin: Springer-Verlag.**^**Cite error: The named reference`Arndt`

was invoked but never defined (see the help page).**^**Cristopher Moore and Stephan Mertens,*The Nature of Computation*, (Oxford University Press, 2011), 36.**^**"Iraq After the Muslim Conquest", by Michael G. Morony, ISBN 1-59333-315-3 (a 2005 facsimile from the original 1984 book), p. 145**^**Rashed, Roshdi (1988). "al-Khw?rizm?'s Concept of Algebra". In Zurayq, Qus?ann; Atiyeh, George Nicholas; Oweiss, Ibrahim M. (eds.).*Arab Civilization: Challenges and Responses : Studies in Honor of Constantine K. Zurayk*. SUNY Press. p. 108. ISBN 978-0-88706-698-6.CS1 maint: ref=harv (link)**^**Toomer 1990**^**Dunlop 1943**^**"Mathematics Education in Iran From Ancient to Modern" (PDF). Shima Salehi ( Stanford University ), Yahya Tabesh ( Sharif University of Technology ).CS1 maint: others (link)**^**"al-Khwarizmi".*Encyclopædia Britannica*. Retrieved .- ^
^{a}^{b}Rosen, Frederic. "The Compendious Book on Calculation by Completion and Balancing, al-Khw?rizm?".*1831 English Translation*. Retrieved . **^**Karpinski, L.C. (1912). "History of Mathematics in the Recent Edition of the Encyclopædia Britannica".*Science*.**35**(888): 29-31. Bibcode:1912Sci....35...29K. doi:10.1126/science.35.888.29. PMID 17752897.CS1 maint: ref=harv (link)**^**Boyer, Carl B. (1991). "The Arabic Hegemony".*A History of Mathematics*(Second ed.). John Wiley & Sons, Inc. p. 228. ISBN 978-0-471-54397-8."The Arabs in general loved a good clear argument from premise to conclusion, as well as systematic organization -- respects in which neither Diophantus nor the Hindus excelled."

**^**(Boyer 1991, "The Arabic Hegemony" p. 229) "It is not certain just what the terms*al-jabr*and*muqabalah*mean, but the usual interpretation is similar to that implied in the translation above. The word*al-jabr*presumably meant something like "restoration" or "completion" and seems to refer to the transposition of subtracted terms to the other side of an equation; the word*muqabalah*is said to refer to "reduction" or "balancing" -- that is, the cancellation of like terms on opposite sides of the equation."- ^
^{a}^{b}O'Connor, John J.; Robertson, Edmund F., "Muhammad ibn Musa al-Khwarizmi",*MacTutor History of Mathematics archive*, University of St Andrews. **^**Rashed, R.; Armstrong, Angela (1994).*The Development of Arabic Mathematics*. Springer. pp. 11-12. ISBN 978-0-7923-2565-9. OCLC 29181926.CS1 maint: ref=harv (link)**^**Florian Cajori (1919).*A History of Mathematics*. Macmillan. p. 103.That it came from Indian source is impossible, for Hindus had no rules like "restoration" and "reduction". They were never in the habit of making all terms in an equation positive, as is done in the process of "restoration.

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^{a}^{b}Burnett 2017, p. 39. **^**Avari, Burjor (2013),*Islamic Civilization in South Asia: A history of Muslim power and presence in the Indian subcontinent*, Routledge, pp. 31-32, ISBN 978-0-415-58061-8**^**Van Brummelen, Glen (2017), "Arithmetic", in Thomas F. Glick (ed.),*Routledge Revivals: Medieval Science, Technology and Medicine (2006): An Encyclopedia*, Taylor & Francis, p. 46, ISBN 978-1-351-67617-5**^**Thomas F. Glick, ed. (2017), "Al-Khwarizmi",*Routledge Revivals: Medieval Science, Technology and Medicine (2006): An Encyclopedia*, Taylor & Francis, ISBN 978-1-351-67617-5**^**Van Brummelen, Glen (2017), "Arithmetic", in Thomas F. Glick (ed.),*Routledge Revivals: Medieval Science, Technology and Medicine (2006): An Encyclopedia*, Taylor & Francis, pp. 46-47, ISBN 978-1-351-67617-5**^**"Algoritmi de numero Indorum",*Trattati D'Aritmetica*, Rome: Tipografia delle Scienze Fisiche e Matematiche, 1857, pp. 1-- ^
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^{a}^{b}Kennedy 1956, pp. 26-29 **^**Kennedy 1956, p. 128**^**Jacques Sesiano, "Islamic mathematics", p. 157, in Selin, Helaine; D'Ambrosio, Ubiratan, eds. (2000).*Mathematics Across Cultures: The History of Non-western Mathematics*. Springer Science+Business Media. ISBN 978-1-4020-0260-1.**^**"trigonometry".*Encyclopædia Britannica*. Retrieved .**^**The full title is "The Book of the Description of the Earth, with its Cities, Mountains, Seas, All the Islands and the Rivers, written by Abu Ja'far Muhammad ibn Musa al-Khw?rizm?, according to the Geographical Treatise written by Ptolemy the Claudian", although due to ambiguity in the word*surah*it could also be understood as meaning "The Book of the Image of the Earth" or even "The Book of the Map of the World".**^**"The history of cartography". GAP computer algebra system. Archived from the original on 2008-05-24. Retrieved .**^**Daunicht.- ^
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