Biography:Nicomachus
Nicomachus of Gerasa  

Plato (left) and Nicomachus (right), as inventors of music, from a 12thcentury manuscript  
Born  c. 60 Gerasa, Roman Syria 
Died  c. 120 
Notable work  Introduction to Arithmetic 'Manual of Harmonics 
Era  Ancient Roman philosophy 
School  Neopythagoreanism 
Main interests  Arithmetic, Music 
Notable ideas  Multiplication tables 
Influences
 
Influenced

Nicomachus of Gerasa (Greek: Νικόμαχος; c. 60 – c. 120 AD) was an Ancient Greek Neopythagorean philosopher from Gerasa, in the Roman province of Syria (now Jerash, Jordan). Like many Pythagoreans, Nicomachus wrote about the mystical properties of numbers, best known for his works Introduction to Arithmetic and Manual of Harmonics, which are an important resource on Ancient Greek mathematics and Ancient Greek music in the Roman period. Nicomachus' work on arithmetic became a standard text for Neoplatonic education in Late antiquity, with philosophers such as Iamblichus and John Philoponus writing commentaries on it. A Latin paraphrase by Boethius of Nicomachus's works on arithmetic and music became standard textbooks in medieval education.
Life
Little is known about the life of Nicomachus except that he was a Pythagorean who came from Gerasa.^{[1]} His Manual of Harmonics was addressed to a lady of noble birth, at whose request Nicomachus wrote the book, which suggests that he was a respected scholar of some status.^{[2]} He mentions his intent to write a more advanced work, and how the journeys he frequently undertakes leave him short of time.^{[2]}The approximate dates in which he lived (c. 100 AD) can only be estimated based on which other authors he refers to in his work, as well as which later mathematicians who refer to him.^{[1]} He mentions Thrasyllus in his Manual of Harmonics, and his Introduction to Arithmetic was apparently translated into Latin in the mid 2nd century by Apuleius,^{[2]}while he makes no mention at all of either Theon of Smyrna's work on arithmetic or Ptolemy's work on music, implying that they were either later contemporaries of lived in the time after he did.^{[1]}
Philosophy
Historians consider Nicomachus a Neopythagorean based on his tendency to view numbers as having mystical properties rather than their mathematical properties,^{[3]}^{[4]} citing an extensive amount of Pythagorean literature in his work, including works by Philolaus, Archytas, and Androcydes.^{[1]} He writes extensively on numbers, especially on the significance of prime numbers and perfect numbers and argues that arithmetic is ontologically prior to the other mathematical sciences (music, geometry, and astronomy), and is their cause. Nicomachus distinguishes between the wholly conceptual immaterial number, which he regards as the 'divine number', and the numbers which measure material things, the 'scientific' number.^{[2]} Nicomachus provided one of the earliest GrecoRoman multiplication tables; the oldest extant Greek multiplication table is found on a wax tablet dated to the 1st century AD (now found in the British Museum).^{[5]}
Metaphysics
Although Nicomachus is considered a Pythagorean, John M. Dillon says that Nicomachus's philosophy "fits comfortably within the spectrum of contemporary Platonism."^{[6]} In his work on arithmetic, Nicomachus quotes from Plato's Timaeus^{[7]} to make a distinction between the intelligible world of Forms and the sensible world, however, he also makes more Pythagorean distinctions, such as between Odd and even numbers.^{[6]} Unlike many other Neopythagoreans, such as Moderatus of Gades, Nicomachus makes no attempt to distinguish between the Demiurge, who acts on the material world, and The One which serves as the supreme first principle.^{[6]} For Nicomachus, God as the supreme first principle is both the demiurge and the Intellect (nous), which Nicomachus also equates to being the monad, the potentiality from which all actualities are created.^{[6]}
Works
Two of Nicomachus' works, the Introduction to Arithmetic and the Manual of Harmonics are extant in a complete form, and two others, a work on Theology of Arithmetic and a Life of Pythagoras survive in fragments, epitomes, and summaries by later authors.^{[1]} The Theology of Arithmetic (Ancient Greek:), on the Pythagorean mystical properties of numbers in two books is mentioned by Photius. There is an extant work sometimes attributed to Iamblichus under this title written two centuries later which contains a great deal of material thought to have been copied or paraphrased from Nicomachus' work. Nicomachus's Life of Pythagoras was one of the main sources used by Porphyry and Iamblichus, for their (extant) Lives of Pythagoras.^{[1]} An Introduction to Geometry, referred to by Nicomachus himself in the Introduction to Arithmetic,^{[8]} has not survived.^{[1]} Among his known lost work is another larger work on music, promised by Nicomachus himself, and apparently^{[citation needed]} referred to by Eutocius in his comment on the sphere and cylinder of Archimedes.
Introduction to Arithmetic
Introduction to Arithmetic (Greek: Ἀριθμητικὴ εἰσαγωγή, Arithmetike eisagoge) is the only extant work on mathematics by Nicomachus. The work contains both philosophical prose and basic mathematical ideas. Nicomachus refers to Plato quite often, and writes that philosophy can only be possible if one knows enough about mathematics. Nicomachus also describes how natural numbers and basic mathematical ideas are eternal and unchanging, and in an abstract realm. It consists of two books, twentythree and twentynine chapters, respectively.
However Introduction of Arithmetic does contain quite elementary errors which show that Nicomachus chose not to give proofs of his results because he did not in general have such proofs. Many of the results were known by Nicomachus to be true since they appeared with proofs in Euclid's Elements, although in a geometrical formulation. Sometimes Nicomachus states a result which is simply false and then illustrates it with an example that happens to have the properties described in the result. We can deduce from this that some of the results are merely guesses based on the evidence of the numerical examples.^{[citation needed]}
Boethius' De institutione arithmetica is in large part a Latin translation of this work.
Manual of Harmonics
Manuale Harmonicum (Ἐγχειρίδιον ἁρμονικῆς, Encheiridion Harmonikes) is the first important music theory treatise since the time of Aristoxenus and Euclid. It provides the earliest surviving record of the legend of Pythagoras's epiphany outside of a smithy that pitch is determined by numeric ratios. Nicomachus also gives the first indepth account of the relationship between music and the ordering of the universe via the "music of the spheres." Nicomachus's discussion of the governance of the ear and voice in understanding music unites Aristoxenian and Pythagorean concerns, normally regarded as antitheses.^{[9]} In the midst of theoretical discussions, Nicomachus also describes the instruments of his time, also providing a valuable resource. In addition to the Manual, ten extracts survive from what appear to have originally been a more substantial work on music.
Legacy
Late antiquity
The Introduction to Arithmetic of Nicomachus was a standard textbook in Neoplatonic schools, and commentaries on it were written by Iamblichus (3rd century) and John Philoponus (6th century).^{[1]}
The Arithmetic (in Latin: De Institutione Arithmetica) of Boethius was a Latin paraphrase and a partial translation of the Introduction to Arithmetic.^{[10]} The Manual of Harmonics also became the basis of the Boethius' Latin treatise titled De institutione musica.^{[11]}
Medieval European philosophy
The work of Boethius on arithmetic and music was a core part of the Quadrivium liberal arts and had a great diffusion during the Middle Ages.^{[12]}
Nicomachus's theorem
At the end of Chapter 20 of his Introduction to Arithmetic, Nicomachus points out that if one writes a list of the odd numbers, the first is the cube of 1, the sum of the next two is the cube of 2, the sum of the next three is the cube of 3, and so on. He does not go further than this, but from this it follows that the sum of the first n cubes equals the sum of the first [math]\displaystyle{ n(n+1)/2 }[/math] odd numbers, that is, the odd numbers from 1 to [math]\displaystyle{ n(n+1)1 }[/math]. The average of these numbers is obviously [math]\displaystyle{ n(n+1)/2 }[/math], and there are [math]\displaystyle{ n(n+1)/2 }[/math] of them, so their sum is [math]\displaystyle{ \bigl(n(n+1)/2\bigr)^2. }[/math] Many early mathematicians have studied and provided proofs of Nicomachus's theorem.^{[13]}
See also
 Superparticular number
 Superpartient number
Notes
 ↑ ^{1.0} ^{1.1} ^{1.2} ^{1.3} ^{1.4} ^{1.5} ^{1.6} ^{1.7} Dillon 1996, pp. 352353.
 ↑ ^{2.0} ^{2.1} ^{2.2} ^{2.3} Midonick 1965, pp. 1516.
 ↑ Eric Temple Bell (1940), The development of mathematics, page 83.
 ↑ Frank J. Swetz (2013), The European Mathematical Awakening, page 17, Courier
 ↑ David E. Smith (1958), History of Mathematics, Volume I: General Survey of the History of Elementary Mathematics, New York: Dover Publications (a reprint of the 1951 publication), ISBN:0486204294, pp 58, 129.
 ↑ ^{6.0} ^{6.1} ^{6.2} ^{6.3} Dillon 1996, pp. 353358.
 ↑ Plato, Timaeus 27D
 ↑ Nicomachus, Arithmetica, ii. 6. 1.
 ↑ Levin, Flora R. (2001). "Nicomachus [Nikomachos of Gerasa"]. Grove Music Online. Oxford: Oxford University Press. doi:10.1093/gmo/9781561592630.article.19911. ISBN 9781561592630. https://www.oxfordmusiconline.com/grovemusic/view/10.1093/gmo/9781561592630.001.0001/omo9781561592630e0000019911. Retrieved 25 September 2021. Template:Grove Music subscription
 ↑ Edward Grant (1974). A Source Book in Medieval Science. Source books in the history of the sciences. 13. Harvard University Press. p. 17. ISBN 9780674823600. OCLC 1066603. https://books.google.com/books?id=fAPN_3w4hAUC&pg=PA17.
 ↑ Arnold, Jonathan; Bjornlie, Shane; Sessa, Kristina (April 18, 2016). A Companion to Ostrogothic Italy. Brill's Companions to European History. Brill. p. 332. ISBN 9789004315938. OCLC 1016025625. https://books.google.com/books?id=48wJDAAAQBAJ&pg=PA332. Retrieved May 16, 2021.
 ↑ Ivor BulmerThomas (April 1, 1985). "Boethian Number Theory  Michael Masi: Boethian Number Theory: A Translation of the De Institutione Arithmetica (with Introduction and Notes)". The Classical Review (The Classical Association, Harvard University Press) 35 (1): 86–87. doi:10.1017/S0009840X00107462. https://www.cambridge.org/core/journals/classicalreview/article/abs/boethiannumbertheorymichaelmasiboethiannumbertheoryatranslationofthedeinstitutionearithmeticawithintroductionandnotesstudiesinclassicalantiquity6pp1988figureswithmathematicaldiagramsandmusicalnotationintextamsterdameditionsrodopi1983paperfl60/65CB044CD9E4688B98D23D37E9915443.
 ↑ Pengelley, David (2002), "The bridge between continuous and discrete via original sources", Study the Masters: The AbelFauvel Conference, National Center for Mathematics Education, Univ. of Gothenburg, Sweden, http://www.math.nmsu.edu/~davidp/bridge.pdf
Bibliography
Editions and translations
Introduction to Arithmetic
 Nicomachus, of Gerasa; Hoche, Richard Gottfried (1866). Nicomachi Geraseni Pythagorei Introductionis arithmeticae libri II. Lipsiae : in aedibvs B.G. Teubneri. https://archive.org/details/nicomachigerasen00nicouoft. Retrieved 16 April 2023.
 D'Ooge, Martin Luther; Robbins, Frank Egleston; Karpinski, Louis Charles (1926) (in en). Nicomachus' Introduction to Arithmetic. Macmillan. https://books.google.com/books?id=Ut7uAAAAMAAJ. Retrieved 16 April 2023.
Manual of Harmonics
 Jan, Karl von; Nicomachus (1895). Musici scriptores graeci. Aristoteles, Euclides, Nicomachus, Bacchius, Gaudentius, Alypius et melodiarum veterum quidquid exstat. Lipsiae, in aedibus B. G. Teubneri. pp. 209–282. https://archive.org/details/musiciscriptoresjank. Retrieved 16 April 2023.
 Andrew Barker, editor, Greek Musical Writings vol 2: Harmonic and Acoustic Theory (Cambridge: Cambridge University Press, 1989), pp. 245–69.
Primary sources
 Iamblichus (January 1989). Gillian Clark. ed. On the Pythagorean Life. Liverpool University Press. ISBN 9780853233268. https://books.google.com/books?id=N9vrHlJVck8C&q=Nicomachos+of+Gerasa&pg=PR9.
 Photius, Bibliotheca
 Anonymous, Theology of Arithmetic
 Boethius (1488) (in Latin). De institutione arithmetica. Erhard Ratdolt. pp. 110. https://archive.org/details/itabncin100000520001/page/n13/mode/2up?q=nicomac.
References
 Dillon, John M. (1996). "Nicomachus of Gerasa" (in en). The Middle Platonists, 80 B.C. to A.D. 220. Cornell University Press. pp. 352–361. ISBN 9780801483165. https://books.google.com/books?id=aJQ9dvgh6BwC. Retrieved 16 April 2023.
 Midonick, Henrietta O. (1965). The treasury of mathematics: a collection of source material in mathematics edited and presented with introductory biographical and historical sketches. Philosophical Library. pp. 15–16. https://archive.org/details/treasuryofmathem0000mido.
External links
 O'Connor, John J.; Robertson, Edmund F., "Nicomachus", MacTutor History of Mathematics archive, University of St Andrews, http://wwwhistory.mcs.standrews.ac.uk/Biographies/Nicomachus.html.
Original source: https://en.wikipedia.org/wiki/Nicomachus.
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