Arabic numeral

The ten Arabic numerals 0 1 2 3 4 5 6 7 8 and 9 are the most commonly used symbols for writing numbers The term often also implies a positional notation number with a decimal base in particular when contrasted with Roman numerals However the symbols are also used to write numbers in other bases such as octal as well as non numerical information such as trademarks or license plate identifiers Arabic numerals set in Source Sans typeface They are also called Western Arabic numerals Western digits European digits Ghubar numerals or Hindu Arabic numerals due to positional notation but not these digits originating in India The Oxford English Dictionary uses lowercase Arabic numerals while using the fully capitalized term Arabic Numerals for Eastern Arabic numerals In contemporary society the terms digits numbers and numerals often implies only these symbols although it can only be inferred from context Europeans first learned of Arabic numerals c the 10th century though their spread was a gradual process After Italian scholar Fibonacci of Pisa encountered the numerals in the Algerian city of Bejaia his 13th century work Liber Abaci became crucial in making them known in Europe However their use was largely confined to Northern Italy until the invention of the printing press in the 15th century European trade books and colonialism subsequently helped popularize the adoption of Arabic numerals around the world The numerals are used worldwide significantly beyond the contemporary spread of the Latin alphabet and have become common in the writing systems where other numeral systems existed previously such as Chinese and Japanese numerals HistoryOrigin Evolution of Indian numerals into Arabic numerals and their adoption in Europe Positional decimal notation including a zero symbol was developed by Tamils using symbols visually distinct from those that would eventually enter into international use As the concept spread the sets of symbols used in different regions diverged over time The immediate ancestors of the digits now commonly called Arabic numerals were introduced to Europe in the 10th century by Arabic speakers of Spain and North Africa with digits at the time in wide use from Libya to Morocco In the east from Egypt to Iraq and the Arabian Peninsula the Arabs were using the Eastern Arabic numerals or Mashriki numerals ٠ ١ ٢ ٣ ٤ ٥ ٦ ٧ ٨ ٩ Al Nasawi wrote in the early 11th century that mathematicians had not agreed on the form of the numerals but most of them had agreed to train themselves with the forms now known as Eastern Arabic numerals The oldest specimens of the written numerals available are from Egypt and date to 873 874 AD They show three forms of the numeral 2 and two forms of the numeral 3 and these variations indicate the divergence between what later became known as the Eastern Arabic numerals and the Western Arabic numerals The Western Arabic numerals came to be used in the Maghreb and Al Andalus from the 10th century onward Some amount of consistency in the Western Arabic numeral forms endured from the 10th century found in a Latin manuscript of Isidore of Seville s Etymologiae from 976 and the Gerbertian abacus into the 12th and 13th centuries in early manuscripts of translations from the city of Toledo Calculations were originally performed using a dust board takht Latin tabula which involved writing symbols with a stylus and erasing them The use of the dust board appears to have introduced a divergence in terminology as well whereas the Hindu reckoning was called ḥisab al hindi in the east it was called ḥisab al ghubar calculation with dust in the west The numerals themselves were referred to in the west as ashkal al ghubar dust figures or qalam al ghubar dust letters Al Uqlidisi later invented a system of calculations with ink and paper without board and erasing bi ghayr takht wa la maḥw bal bi dawat wa qirṭas A popular myth claims that the symbols were designed to indicate their numeric value through the number of angles they contained but there is no contemporary evidence of this and the myth is difficult to reconcile with any digits past 4 Etching from 1503 or earlier showing usage of Arabic numeralsAdoption and spread The first Arabic numerals in the West appeared in the Codex Albeldensis in Spain The first mentions of the numerals from 1 to 9 in the West are found in the 976 Codex Vigilanus an illuminated collection of various historical documents covering a period from antiquity to the 10th century in Hispania Other texts show that numbers from 1 to 9 were occasionally supplemented by a placeholder known as sipos represented as a circle or wheel reminiscent of the eventual symbol for zero The Arabic term for zero is ṣifr صفر transliterated into Latin as cifra which became the English word cipher From the 980s Gerbert of Aurillac later Pope Sylvester II used his position to spread knowledge of the numerals in Europe Gerbert studied in Barcelona in his youth He was known to have requested mathematical treatises concerning the astrolabe from Lupitus of Barcelona after he had returned to France The reception of Arabic numerals in the West was gradual and lukewarm as other numeral systems circulated in addition to the older Roman numbers As a discipline the first to adopt Arabic numerals as part of their own writings were astronomers and astrologists evidenced from manuscripts surviving from mid 12th century Bavaria Reinher of Paderborn 1140 1190 used the numerals in his calendrical tables to calculate the dates of Easter more easily in his text Computus emendatus Italy A page of the Liber Abaci The list on the right shows the Fibonacci sequence 1 2 3 5 8 13 21 34 55 89 144 233 377 The 2 8 and 9 resemble Arabic numerals more than Eastern Arabic numerals or Indian numerals Leonardo Fibonacci was a Pisan mathematician who had studied in the Pisan trading colony of Bugia in what is now Algeria and he endeavored to promote the numeral system in Europe with his 1202 book Liber Abaci When my father who had been appointed by his country as public notary in the customs at Bugia acting for the Pisan merchants going there was in charge he summoned me to him while I was still a child and having an eye to usefulness and future convenience desired me to stay there and receive instruction in the school of accounting There when I had been introduced to the art of the Indians nine symbols through remarkable teaching knowledge of the art very soon pleased me above all else and I came to understand it The Liber Abaci s analysis highlighting the advantages of positional notation was widely influential Likewise Fibonacci s use of the Bejaia digits in his exposition ultimately led to their widespread adoption in Europe Fibonacci s work coincided with the European commercial revolution of the 12th and 13th centuries centered in Italy Positional notation facilitated complex calculations such as currency conversion to be completed more quickly than was possible with the Roman system In addition the system could handle larger numbers did not require a separate reckoning tool and allowed the user to check their work without repeating the entire procedure Late medieval Italian merchants did not stop using Roman numerals or other reckoning tools instead Arabic numerals were adopted for use in addition to their preexisting methods Europe A German manuscript page teaching use of Arabic numerals Talhoffer Thott 1459 presented together with the Hebrew alphabet and astrology Table of numerals in many variants 1757 by Jean Etienne Montucla By the late 14th century only a few texts using Arabic numerals appeared outside of Italy This suggests that the use of Arabic numerals in commercial practice and the significant advantage they conferred remained a virtual Italian monopoly until the late 15th century This may in part have been due to language barriers although Fibonacci s Liber Abaci was written in Latin the Italian abacus traditions were predominantly written in Italian vernaculars that circulated in the private collections of abacus schools or individuals The European acceptance of the numerals was accelerated by the invention of the printing press and they became widely known during the 15th century Their use grew steadily in other centers of finance and trade such as Lyon Early evidence of their use in Britain includes an equal hour horary quadrant from 1396 in England a 1445 inscription on the tower of Heathfield Church Sussex a 1448 inscription on a wooden lych gate of Bray Church Berkshire and a 1487 inscription on the belfry door at Piddletrenthide church Dorset and in Scotland a 1470 inscription on the tomb of the first Earl of Huntly in Elgin Cathedral In central Europe the King of Hungary Ladislaus the Posthumous started the use of Arabic numerals which appear for the first time in a royal document of 1456 By the mid 16th century they had been widely adopted in Europe and by 1800 had almost completely replaced the use of counting boards and Roman numerals in accounting Roman numerals were mostly relegated to niche uses such as years and numbers on clock faces Russia Prior to the introduction of Arabic numerals Cyrillic numerals derived from the Cyrillic alphabet were used by South and East Slavs The system was used in Russia as late as the early 18th century although it was formally replaced in official use by Peter the Great in 1699 Reasons for Peter s switch from the alphanumerical system are believed to go beyond a surface level desire to imitate the West Historian Peter Brown makes arguments for sociological militaristic and pedagogical reasons for the change At a broad societal level Russian merchants soldiers and officials increasingly came into contact with counterparts from the West and became familiar with the communal use of Arabic numerals Peter also covertly travelled throughout Northern Europe from 1697 to 1698 during his Grand Embassy and was likely informally exposed to Western mathematics during this time The Cyrillic system was found to be inferior for calculating practical kinematic values such as the trajectories and parabolic flight patterns of artillery With its use it was difficult to keep pace with Arabic numerals in the growing field of ballistics whereas Western mathematicians such as John Napier had been publishing on the topic since 1614 China Chinese Shang dynasty oracle bone numerals of 14th century BC The Chinese Shang dynasty numerals from the 14th century BC predates the Indian Brahmi numerals by over 1000 years and shows substantial similarity to the Brahmi numerals Similar to the modern Arabic numerals the Shang dynasty numeral system was also decimal based and positional While positional Chinese numeral systems such as the counting rod system and Suzhou numerals had been in use prior to the introduction of modern Arabic numerals the externally developed system was eventually introduced to medieval China by the Hui people In the early 17th century European style Arabic numerals were introduced by Spanish and Portuguese Jesuits EncodingThe ten Arabic numerals are encoded in virtually every character set designed for electric radio and digital communication such as Morse code They are encoded in ASCII and therefore in Unicode encodings at positions 0x30 to 0x39 Masking all but the four least significant binary digits gives the value of the decimal digit a design decision facilitating the digitization of text onto early computers EBCDIC used a different offset but also possessed the aforementioned masking property ASCII Unicode EBCDIC hexbinary octal decimal hex0 0011 0000 060 48 30 U 0030 DIGIT ZERO F01 0011 0001 061 49 31 U 0031 DIGIT ONE F12 0011 0010 062 50 32 U 0032 DIGIT TWO F23 0011 0011 063 51 33 U 0033 DIGIT THREE F34 0011 0100 064 52 34 U 0034 DIGIT FOUR F45 0011 0101 065 53 35 U 0035 DIGIT FIVE F56 0011 0110 066 54 36 U 0036 DIGIT SIX F67 0011 0111 067 55 37 U 0037 DIGIT SEVEN F78 0011 1000 070 56 38 U 0038 DIGIT EIGHT F89 0011 1001 071 57 39 U 0039 DIGIT NINE F9See alsoArabic numeral variations Regional variations in modern handwritten Arabic numerals Seven segment display Text figuresFootnotesTerminology for Digits Archived 26 October 2021 at the Wayback Machine Unicode Consortium Arabic numeral American Heritage Dictionary Houghton Mifflin Harcourt 2020 Archived from the original on 21 November 2021 Retrieved 21 November 2021 Arabic Oxford English Dictionary 2nd edition Danna Raffaele 13 January 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 Burnett Charles 2002 Dold Samplonius Yvonne Van Dalen Benno Dauben Joseph Folkerts Menso eds From China to Paris 2000 Years Transmission of Mathematical Ideas Franz Steiner Verlag pp 237 288 ISBN 978 3 515 08223 5 Kunitzsch 2003 p 7 Les personnes qui se sont occupees de la science du calcul n ont pas ete d accord sur une partie des formes de ces neuf signes mais la plupart d entre elles sont convenues de les former comme il suit Kunitzsch 2003 p 5 Kunitzsch 2003 pp 12 13 While specimens of Western Arabic numerals from the early period the tenth to thirteenth centuries are still not available we know at least that Hindu reckoning called ḥisab al ghubar was known in the West from the 10th century onward Kunitzsch 2003 p 8 Kunitzsch 2003 p 10 Kunitzsch 2003 pp 7 8 Ifrah Georges 1998 The universal history of numbers from prehistory to the invention of the computer Translated by Bellos David London Harvill pp 356 357 ISBN 978 1 860 46324 2 Nothaft C Philipp E 3 May 2020 Medieval Europe s satanic ciphers on the genesis of a modern myth British Journal for the History of Mathematics 35 2 107 136 doi 10 1080 26375451 2020 1726050 ISSN 2637 5451 S2CID 213113566 Herold Werner 2005 Der computus emendatus des Reinher von Paderborn ixtheo de in German Archived from the original on 30 July 2022 Retrieved 29 July 2022 Tung K K 2016 Topics in Mathematical Modeling Princeton University Press p 1 ISBN 978 1 4008 8405 6 Danna Raffaele 12 July 2021 The Spread of Hindu Arabic Numerals in the European Tradition of Practical Arithmetic a Socio Economic Perspective 13th 16th centuries PhD thesis University of Cambridge doi 10 17863 cam 72497 Archived from the original on 27 July 2021 Retrieved 29 July 2022 Danna Raffaele Iori Martina Mina Andrea 22 June 2022 A Numerical Revolution The Diffusion of Practical Mathematics and the Growth of Pre modern European Economies SSRN 4143442 14th century timepiece unearthed in Qld farm shed ABC News Archived from the original on 29 February 2012 Retrieved 10 November 2011 See G F Hill The Development of Arabic Numerals in Europe for more examples Erdelyi Magyar muvelodestortenet 1 2 kotet Kolozsvar 1913 1918 Conatser Segura Sylvia 26 May 2020 Orthographic Reform and Language Planning in Russian History Honors thesis Archived from the original on 30 July 2022 Retrieved 29 July 2022 Brown Peter B 2012 Muscovite Arithmetic in Seventeenth Century Russian Civilization Is It Not Time to Discard the Backwardness Label Russian History 39 4 393 459 doi 10 1163 48763316 03904001 ISSN 0094 288X Archived from the original on 30 July 2022 Retrieved 29 July 2022 Lockwood E H October 1978 Mathematical discoveries 1600 1750 by P L Griffiths Pp 121 2 75 1977 ISBN 0 7223 1006 4 Stockwell The Mathematical Gazette 62 421 219 doi 10 2307 3616704 ISSN 0025 5572 JSTOR 3616704 Archived from the original on 30 July 2022 Retrieved 29 July 2022 Campbell Douglas M Higgins John C 1984 Mathematics People Problems Results Taylor amp Francis ISBN 978 0 534 02879 4 The Shorter Science amp Civilisation in China Vol 2 An abridgement by Colin Ronan of Joseph Needham s original text Table 20 p 6 Cambridge University Press ISBN 0 521 23582 0 Shell Gellasch Amy 2015 Algebra in context introductory algebra from origins to applications J B Thoo Baltimore ISBN 978 1 4214 1728 8 a href wiki Template Cite book title Template Cite book cite book a CS1 maint location missing publisher link Uy Frederick L January 2003 The Chinese Numeration System and Place Value Teaching Children Mathematics 9 5 243 247 doi 10 5951 tcm 9 5 0243 ISSN 1073 5836 Selin Helaine ed 1997 Encyclopaedia of the history of science technology and medicine in non western cultures Springer p 198 ISBN 978 0 7923 4066 9 Archived from the original on 27 October 2015 Retrieved 18 October 2015 Meuleman Johan H 2002 Islam in the era of globalization Muslim attitudes towards modernity and identity Psychology Press p 272 ISBN 978 0 7007 1691 3 Archived from the original on 27 October 2015 Retrieved 18 October 2015 Peng Yoke Ho 2000 Li Qi and Shu An Introduction to Science and Civilization in China Mineola NY Courier Dover Publications p 106 ISBN 978 0 486 41445 4 Archived from the original on 27 October 2015 Retrieved 18 October 2015 The Unicode Standard Version 13 0 PDF unicode org Archived PDF from the original on 2 June 2001 Retrieved 1 September 2021 SourcesKunitzsch Paul 2003 The Transmission of Hindu Arabic Numerals Reconsidered In J P Hogendijk A I Sabra eds The Enterprise of Science in Islam New Perspectives MIT Press pp 3 22 ISBN 978 0 262 19482 2 Further readingBurnett Charles 2006 The Semantics of Indian Numerals in Arabic Greek and Latin Journal of Indian Philosophy 34 1 2 Springer Netherlands 15 30 doi 10 1007 s10781 005 8153 z S2CID 170783929 Hayashi Takao 1995 The Bakhshali Manuscript An Ancient Indian Mathematical Treatise Groningen Netherlands Egbert Forsten ISBN 906980087X Ifrah Georges 2000 A Universal History of Numbers From Prehistory to Computers New York Wiley ISBN 0471393401 Katz Victor J ed 20 July 2007 The Mathematics of Egypt Mesopotamia China India and Islam A Sourcebook Princeton New Jersey Princeton University Press ISBN 978 0691114859 Mathematics in South Asia Nature 189 4761 273 1961 Bibcode 1961Natur 189S 273 doi 10 1038 189273c0 S2CID 4288165 Ore Oystein 1988 Hindu Arabic numerals Number Theory and Its History Dover pp 19 24 ISBN 0486656209 External linksWikimedia Commons has media related to Arabic numerals category Lam Lay Yong Development of Hindu Arabic and Traditional Chinese Arithmetic Chinese Science 13 1996 35 54 Counting Systems and Numerals Historyworld Retrieved 11 December 2005 The Evolution of Numbers 16 April 2005 O Connor J J and E F Robertson Indian numerals Archived 6 July 2015 at the Wayback Machine November 2000 History of the numerals Arabic numerals Hindu Arabic numerals Numeral amp Numbers history and curiosities Gerbert d Aurillac s early use of Hindu Arabic numerals at Convergence