Hindu–Arabic numeral system

The Hindu Arabic numeral system also known as the Indo Arabic numeral system Hindu numeral system and Arabic numeral system is a positional base ten numeral system for representing integers its extension to non integers is the decimal numeral system which is presently the most common numeral system Modern day Arab telephone keypad with two forms of Arabic numerals Western Arabic numerals on the left and Eastern Arabic numerals on the right The system was invented between the 1st and 4th centuries by Indian mathematicians By the 9th century the system was adopted by Arabic mathematicians who extended it to include fractions It became more widely known through the writings in Arabic of the Persian mathematician Al Khwarizmi On the Calculation with Hindu Numerals c 825 and Arab mathematician Al Kindi On the Use of the Hindu Numerals c 830 The system had spread to medieval Europe by the High Middle Ages notably following Fibonacci s 13th century Liber Abaci until the evolution of the printing press in the 15th century use of the system in Europe was mainly confined to Northern Italy It is based upon ten glyphs representing the numbers from zero to nine and allows representing any natural number by a unique sequence of these glyphs The symbols glyphs used to represent the system are in principle independent of the system itself The glyphs in actual use are descended from Brahmi numerals and have split into various typographical variants since the Middle Ages These symbol sets can be divided into three main families Western Arabic numerals used in the Greater Maghreb and in Europe Eastern Arabic numerals used in the Middle East and the Indian numerals in various scripts used in the Indian subcontinent OriginsSometime around 600 CE a change began in the writing of dates in the Brahmi derived scripts of India and Southeast Asia transforming from an additive system with separate numerals for numbers of different magnitudes to a positional place value system with a single set of glyphs for 1 9 and a dot for zero gradually displacing additive expressions of numerals over the following several centuries When this system was adopted and extended by medieval Arabs and Persians they called it al ḥisab al hindi Indian arithmetic These numerals were gradually adopted in Europe starting around the 10th century probably transmitted by Arab merchants medieval and Renaissance European mathematicians generally recognized them as Indian in origin however a few influential sources credited them to the Arabs and they eventually came to be generally known as Arabic numerals in Europe According to some sources this number system may have originated in Chinese Shang numerals 1200 BCE which was also a decimal positional numeral system Positional notationThe Hindu Arabic system is designed for positional notation in a decimal system In a more developed form positional notation also uses a decimal marker at first a mark over the ones digit but now more commonly a decimal point or a decimal comma which separates the ones place from the tenths place and also a symbol for these digits recur ad infinitum In modern usage this latter symbol is usually a vinculum a horizontal line placed over the repeating digits In this more developed form the numeral system can symbolize any rational number using only 13 symbols the ten digits decimal marker vinculum and a prepended minus sign to indicate a negative number Although generally found in text written with the Arabic abjad alphabet which is written right to left numbers written with these numerals place the most significant digit to the left so they read from left to right though digits are not always said in order from most to least significant The requisite changes in reading direction are found in text that mixes left to right writing systems with right to left systems SymbolsVarious symbol sets are used to represent numbers in the Hindu Arabic numeral system most of which developed from the Brahmi numerals The symbols used to represent the system have split into various typographical variants since the Middle Ages arranged in three main groups The widespread Western Arabic numerals used with the Latin Cyrillic and Greek alphabets in the table descended from the West Arabic numerals which were developed in al Andalus and the Maghreb there are two typographic styles for rendering western Arabic numerals known as lining figures and text figures The Arabic Indic or Eastern Arabic numerals used with Arabic script developed primarily in what is now Iraq citation needed A variant of the Eastern Arabic numerals is used in Persian and Urdu The Indian numerals in use with scripts of the Brahmic family in India and Southeast Asia Each of the roughly dozen major scripts of India has its own numeral glyphs as one will note when perusing Unicode character charts Glyph comparison Symbol Used with scripts Numerals0 1 2 3 4 5 6 7 8 9 Arabic Latin Cyrillic and Greek Arabic numerals٠ ١ ٢ ٣ ٤ ٥ ٦ ٧ ٨ ٩ Arabic Eastern Arabic numerals۰ ۱ ۲ ۳ ۴ ۵ ۶ ۷ ۸ ۹ Persian Dari Pashto۰ ۱ ۲ ۳ ۴ ۵ ۶ ۷ ۸ ۹ Urdu Shahmukhi Braille Braille numerals 一 二 三 四 五 六 七 八 九 Chinese Japanese Chinese and Japanese numerals𑁦 𑁧 𑁨 𑁩 𑁪 𑁫 𑁬 𑁭 𑁮 𑁯 Brahmi Brahmi numerals० १ २ ३ ४ ५ ६ ७ ८ ९ Devanagari Devanagari numerals௦ ௧ ௨ ௩ ௪ ௫ ௬ ௭ ௮ ௯ Tamil Tamil numerals০ ১ ২ ৩ ৪ ৫ ৬ ৭ ৮ ৯ Eastern Nagari Bengali numerals𐴰 𐴱 𐴲 𐴳 𐴴 𐴵 𐴶 𐴷 𐴸 𐴹 Hanifi Rohingya Hanifi Rohingya script Numbers੦ ੧ ੨ ੩ ੪ ੫ ੬ ੭ ੮ ੯ Gurmukhi Gurmukhi numerals૦ ૧ ૨ ૩ ૪ ૫ ૬ ૭ ૮ ૯ Gujarati Gujarati numerals𑙐 𑙑 𑙒 𑙓 𑙔 𑙕 𑙖 𑙗 𑙘 𑙙 Modi Modi numerals𑋰 𑋱 𑋲 𑋳 𑋴 𑋵 𑋶 𑋷 𑋸 𑋹 Khudabadi Khudabadi script Numerals୦ ୧ ୨ ୩ ୪ ୫ ୬ ୭ ୮ ୯ Odia Odia numerals᱐ ᱑ ᱒ ᱓ ᱔ ᱕ ᱖ ᱗ ᱘ ᱙ Santali Santali numerals𑇐 𑇑 𑇒 𑇓 𑇔 𑇕 𑇖 𑇗 𑇘 𑇙 Sharada Sharada numerals౦ ౧ ౨ ౩ ౪ ౫ ౬ ౭ ౮ ౯ Telugu Telugu script Numerals೦ ೧ ೨ ೩ ೪ ೫ ೬ ೭ ೮ ೯ Kannada Kannada script Numerals൦ ൧ ൨ ൩ ൪ ൫ ൬ ൭ ൮ ൯ Malayalam Malayalam numerals꯰ ꯱ ꯲ ꯳ ꯴ ꯵ ꯶ ꯷ ꯸ ꯹ Meitei Meitei script Numerals෦ ෧ ෨ ෩ ෪ ෫ ෬ ෭ ෮ ෯ Sinhala Sinhala numerals𑓐 𑓑 𑓒 𑓓 𑓔 𑓕 𑓖 𑓗 𑓘 𑓙 Tirhuta Mithilakshar Maithili numerals༠ ༡ ༢ ༣ ༤ ༥ ༦ ༧ ༨ ༩ Tibetan Tibetan numerals᠐ ᠑ ᠒ ᠓ ᠔ ᠕ ᠖ ᠗ ᠘ ᠙ Mongolian Mongolian numerals᥆ ᥇ ᥈ ᥉ ᥊ ᥋ ᥌ ᥍ ᥎ ᥏ Limbu Limbu script Digits၀ ၁ ၂ ၃ ၄ ၅ ၆ ၇ ၈ ၉ Burmese Burmese numerals႐ ႑ ႒ ႓ ႔ ႕ ႖ ႗ ႘ ႙ Shan Shan alphabet Numerals០ ១ ២ ៣ ៤ ៥ ៦ ៧ ៨ ៩ Khmer Khmer numerals0 1 2 3 4 5 6 7 8 9 Thai Thai numerals໐ ໑ ໒ ໓ ໔ ໕ ໖ ໗ ໘ ໙ Lao Lao script Numerals᧐ ᧑ ᧒ ᧓ ᧔ ᧕ ᧖ ᧗ ᧘ ᧙ New Tai Lue New Tai Lue script Digits꩐ ꩑ ꩒ ꩓ ꩔ ꩕ ꩖ ꩗ ꩘ ꩙ Cham Cham script Numerals Kawi Kawi script Digits꧐ ꧑ ꧒ ꧓ ꧔ ꧕ ꧖ ꧗ ꧘ ꧙ Javanese Javanese numerals᭐ ᭑ ᭒ ᭓ ᭔ ᭕ ᭖ ᭗ ᭘ ᭙ Balinese Balinese numerals᮰ ᮱ ᮲ ᮳ ᮴ ᮵ ᮶ ᮷ ᮸ ᮹ Sundanese Sundanese numeralsHistoryPredecessors The first Brahmi numerals ancestors of Hindu Arabic numerals used by Ashoka in his Edicts of Ashoka c 250 BC The Brahmi numerals at the basis of the system predate the Common Era They replaced the earlier Kharosthi numerals used since the 4th century BCE Brahmi and Kharosthi numerals were used alongside one another in the Maurya Empire period both appearing on the 3rd century BCE edicts of Ashoka Nagari and Devanagari numerals with handwritten variants Buddhist inscriptions from around 300 BCE use the symbols that became 1 4 and 6 One century later their use of the symbols that became 2 4 6 7 and 9 was recorded These Brahmi numerals are the ancestors of the Hindu Arabic glyphs 1 to 9 but they were not used as a positional system with a zero and there were rather clarification needed separate numerals for each of the tens 10 20 30 etc The actual numeral system including positional notation and use of zero is in principle independent of the glyphs used and significantly younger than the Brahmi numerals Development The place value system is used in the Bakhshali manuscript the earliest leaves being radiocarbon dated to the period 224 383 CE The development of the positional decimal system takes its origins in clarification needed Indian mathematics during the Gupta period Around 500 the astronomer Aryabhata uses the word kha emptiness to mark zero in tabular arrangements of digits The 7th century Brahmasphuta Siddhanta contains a comparatively advanced understanding of the mathematical role of zero The Sanskrit translation of the lost 5th century Prakrit Jaina cosmological text Lokavibhaga may preserve an early instance of the positional use of zero The first dated and undisputed inscription showing the use of a symbol for zero appears on a stone inscription found at the Chaturbhuja Temple at Gwalior in India dated 876 CE Medieval Islamic world These Indian developments were taken up in Islamic mathematics in the 8th century as recorded in al Qifti s Chronology of the scholars early 13th century In 10th century Islamic mathematics the system was extended to include fractions as recorded in a treatise by Abbasid Caliphate mathematician Abu l Hasan al Uqlidisi who was the first to describe positional decimal fractions According to J L Berggren the Muslims were the first to represent numbers as we do since they were the ones who initially extended this system of numeration to represent parts of the unit by decimal fractions something that the Hindus did not accomplish Thus we refer to the system as Hindu Arabic rather appropriately The numeral system came to be known to both the Persian mathematician Khwarizmi who wrote a book On the Calculation with Hindu Numerals in about 825 CE and the Arab mathematician Al Kindi who wrote a book On the Use of the Hindu Numerals كتاب في استعمال العداد الهندي kitab fi isti mal al adad al hindi around 830 CE Persian scientist Kushyar Gilani who wrote Kitab fi usul hisab al hind Principles of Hindu Reckoning is one of the oldest surviving manuscripts using the Hindu numerals These books are principally responsible for the diffusion of the Hindu system of numeration throughout the Islamic world and ultimately also to Europe Adoption in Europe The Arabic numeral system first appeared in Europe in the Spanish Codex Vigilanus year 976 In Christian Europe the first mention and representation of Hindu Arabic numerals from one to nine without zero is in the Codex Vigilanus aka Albeldensis an illuminated compilation of various historical documents from the Visigothic period in Spain written in the year 976 CE by three monks of the Riojan monastery of San Martin de Albelda Between 967 and 969 CE Gerbert of Aurillac discovered and studied Arab science in the Catalan abbeys Later he obtained from these places the book De multiplicatione et divisione On multiplication and division After becoming Pope Sylvester II in the year 999 CE he introduced a new model of abacus the so called Abacus of Gerbert by adopting tokens representing Hindu Arabic numerals from one to nine Leonardo Fibonacci brought this system to Europe His book Liber Abaci introduced Modus Indorum the method of the Indians today known as Hindu Arabic numeral system or base 10 positional notation the use of zero and the decimal place system to the Latin world The numeral system came to be called Arabic by the Europeans It was used in European mathematics from the 12th century and entered common use from the 15th century to replace Roman numerals The familiar shape of the Western Arabic glyphs as now used with the Latin alphabet 0 1 2 3 4 5 6 7 8 9 are the product of the late 15th to early 16th century when they entered early typesetting Muslim scientists used the Babylonian numeral system and merchants used the Abjad numerals a system similar to the Greek numeral system and the Hebrew numeral system Similarly Fibonacci s introduction of the system to Europe was restricted to learned circles The credit for first establishing widespread understanding and usage of the decimal positional notation among the general population goes to Adam Ries an author of the German Renaissance whose 1522 Rechenung auff der linihen und federn Calculating on the Lines and with a Quill was targeted at the apprentices of businessmen and craftsmen Gregor Reisch Madame Arithmatica 1508 A de used for arithmetic using Roman numerals Adam Ries Rechenung auff der linihen und federn 1522 Two arithmetic books published in 1514 Kobel left using a calculation table and Boschenteyn using numerals Adam Ries Rechenung auff der linihen und federn 2nd Ed 1525 Robert Recorde The ground of artes 1543 Peter Apian Kaufmanns Rechnung 1527 Adam Ries Rechenung auff der linihen und federn 2nd Ed 1525Adoption in East Asia In 690 CE Empress Wu promulgated Zetian characters one of which was The word is now used as a synonym for the number zero In China Gautama Siddha introduced Hindu numerals with zero in 718 CE but Chinese mathematicians did not find them useful as they had already had the decimal positional counting rods In Chinese numerals a circle is used to write zero in Suzhou numerals Many historians think it was imported from Indian numerals by Gautama Siddha in 718 CE but some Chinese scholars think it was created from the Chinese text space filler Chinese and Japanese finally adopted the Hindu Arabic numerals in the 19th century abandoning counting rods Spread of the Western Arabic variant The Western Arabic numerals as they were in common use in Europe since the Baroque period have secondarily found worldwide use together with the Latin alphabet and even significantly beyond the contemporary spread of the Latin alphabet intruding into the writing systems in regions where other variants of the Hindu Arabic numerals had been in use but also in conjunction with Chinese and Japanese writing see Chinese numerals Japanese numerals See alsoHistory of mathematics Numeral systemNotesHindu was the Persian name for Indian in the 10th century when the Arabs adopted the number system The use of Hindu to refer to a religion was a later development References Geometry Our Cultural Heritage 2000 William Darrach Halsey Emanuel Friedman 1983 Collier s Encyclopedia with bibliography and index When the Arabian empire was expanding and contact was made with India the Hindu numeral system and the early algorithms were adopted by the Arabs Brezina Corona 2006 Al Khwarizmi The Inventor of Algebra The Rosen Publishing Group pp 39 40 ISBN 978 1 4042 0513 0 Danna Raffaele 13 Jan 2021 Figuring Out The Spread of Hindu Arabic Numerals in the European Tradition of Practical Mathematics 13th 16th Centuries Nuncius 36 1 5 48 doi 10 1163 18253911 bja10004 ISSN 0394 7394 Chrisomalis 2010 pp 194 197 Smith amp Karpinski 1911 Ch 7 pp 99 127 Smith amp Karpinski 1911 p 2 Of particular note is Johannes de Sacrobosco s 13th century Algorismus which was extremely popular and influential See Smith amp Karpinski 1911 pp 134 135 Swetz Frank 1984 The Evolution of Mathematics in Ancient China In Campbell Douglas M Higgins John C eds Mathematics People Problems Results Taylor amp Francis ISBN 978 0 534 02879 4 Lam Lay Yong 1988 A Chinese Genesis Rewriting the History of Our Numeral System Archive for History of Exact Sciences 38 2 101 108 doi 10 1007 BF00348453 JSTOR 41133830 Lam Lay Yong 2008 Computation Chinese Counting Rods In Selin Selaine ed Encyclopaedia of the History of Science Technology and Medicine in Non Western Cultures Springer ISBN 978 1 4020 4559 2 In German a number like 21 is said like one and twenty as though being read from right to left In Biblical Hebrew this is sometimes done even with larger numbers as in Esther 1 1 which literally says Ahasuerus which reigned from India even unto Ethiopia over seven and twenty and a hundred provinces Flegg 1984 p 67ff Pearce Ian May 2002 The Bakhshali manuscript The MacTutor History of Mathematics archive Retrieved 2007 07 24 Ifrah G The Universal History of Numbers From prehistory to the invention of the computer John Wiley and Sons Inc 2000 Translated from the French by David Bellos E F Harding Sophie Wood and Ian Monk Bill Casselman Feb 2007 All for Nought Feature Column AMS al Qifti s Chronology of the scholars early 13th century a person from India presented himself before the Caliph al Mansur in the year 776 who was well versed in the siddhanta method of calculation related to the movement of the heavenly bodies and having ways of calculating equations based on the half chord essentially the sine calculated in half degrees Al Mansur ordered this book to be translated into Arabic and a work to be written based on the translation to give the Arabs a solid base for calculating the movements of the planets Berggren J Lennart 2007 Mathematics in Medieval Islam In Katz Victor J ed The Mathematics of Egypt Mesopotamia China India and Islam A Sourcebook Princeton University Press p 530 ISBN 978 0 691 11485 9 Berggren J L 18 Jan 2017 Episodes in the Mathematics of Medieval Islam Springer ISBN 978 1 4939 3780 6 Berggren J Lennart 2007 Mathematics in Medieval Islam The Mathematics of Egypt Mesopotamia China India and Islam A Sourcebook Princeton University Press p 518 ISBN 978 0 691 11485 9 Ibn Labban Kushyar 1965 Kitab fi usul hisab al hind Principles of Hindu Reckoning Translated by Petruck Marvin Madison University of Wisconsin Press p 3 ISBN 978 0 299 03610 2 LCCN 65012106 OL 5941486M Fibonacci Numbers www halexandria org HLeonardo Pisano Contributions to number theory Encyclopaedia Britannica Online 2006 p 3 Retrieved 18 September 2006 Qian Baocong 1964 Zhongguo Shuxue Shi The history of Chinese mathematics Beijing Kexue Chubanshe Wang Qingxiang 1999 Sangi o koeta otoko The man who exceeded counting rods Tokyo Tōyō Shoten ISBN 4 88595 226 3BibliographyChrisomalis Stephen 2010 Numerical Notation A Comparative History Cambridge University Press ISBN 978 0 521 87818 0 Flegg Graham 1984 Numbers Their History and Meaning Penguin ISBN 978 0 14 022564 8 O Connor John J Robertson Edmund F 2001 The Arabic numeral system MacTutor History of Mathematics Archive University of St Andrews O Connor John J Robertson Edmund F 2000 Indian numerals MacTutor History of Mathematics Archive University of St Andrews Smith David Eugene Karpinski Louis Charles 1911 The Hindu Arabic Numerals Boston Ginn Further readingMenninger Karl W 1969 Number Words and Number Symbols A Cultural History of Numbers MIT Press ISBN 0 262 13040 8 On the genealogy of modern numerals by Edward Clive Bayley