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Greek mathematics

January 06, 2023

Greek mathematics refers to mathematics texts and ideas stemming from the Archaic through the Hellenistic and Roman periods, mostly attested from the late 7th century BC to the 4th century AD, around the shores of the Mediterranean. Greek mathematicians lived in cities spread over the entire region, from Anatolia (Turkey) to Italy and North Africa, but were united by Greek culture and the Greek language.[1] The study of mathematics for its own sake and the use of generalized mathematical theories and proofs is an important difference between Greek mathematics and those of preceding civilizations.[2][3]

An illustration of Euclid's proof of the Pythagorean theorem.

Origins and etymology

Greek mathēmatikē ("mathematics") derives from the Ancient Greek: μάθημα, romanizedmáthēma, Attic Greek[má.tʰɛː.ma] Koine Greek[ˈma.θi.ma], from the verb manthanein, "to learn". Strictly speaking, a máthēma could be any branch of learning, or anything learnt; however, since antiquity certain mathēmata (mainly arithmetic, geometry, astronomy, and harmonics) were granted special status.[4]

The origins of Greek mathematics are not well documented.[5][6] The earliest advanced civilizations in Greece and Europe were the Minoan and later Mycenaean civilizations, both of which flourished during the 2nd millennium BC. While these civilizations possessed writing and were capable of advanced engineering, including four-story palaces with drainage and beehive tombs, they left behind no mathematical documents.

Though no direct evidence is available, it is generally thought that the neighboring Babylonian and Egyptian civilizations had an influence on the younger Greek tradition.[7][8][5] Unlike the flourishing of Greek literature in the span of 800 to 600 BC, not much is known about Greek mathematics in this early period—nearly all of the information was passed down through later authors, beginning in the mid-4th century BC.[9][10]

Archaic and Classical periods

 
Detail of Pythagoras with a tablet of ratios, from The School of Athens by Raphael. Vatican Palace, Rome, 1509.

Greek mathematics allegedly began with Thales of Miletus (c. 624–548 BC). Very little is known about his life and works, although it is generally agreed that he was one of the Seven Wise Men of Greece. According to Proclus, he traveled to Babylon from where he learned mathematics and other subjects, and came up with the proof of what is now called Thales' Theorem.[11][12]

An equally enigmatic figure is Pythagoras of Samos (c. 580–500 BC), who supposedly visited Egypt and Babylon,[10][13] and ultimately settled in Croton, Magna Graecia, where he started a kind of cult. Pythagoreans believed that "all is number" and were keen in looking for mathematical relations between numbers and things.[14] Pythagoras himself was given credit for many later discoveries, including the construction of the five regular solids. However, Aristotle refused to attribute anything specifically to Pythagoras and only discussed the work of the Pythagoreans as a group.[15][16]

It has been customary to credit almost half of the material in Euclid's Elements to the Pythagoreans, as well as the discovery of irrationals, attributed to Hippassus (c. 530–450 BC), and the earliest attempt to square the circle, in the work of Hippocrates of Chios (c. 470–410 BC).[17] The greatest mathematician associated with the group, however, may have been Archytas (c. 435-360 BC), who solved the problem of doubling the cube, identified the harmonic mean, and possibly contributed to optics and mechanics.[17][18] Other mathematicians active in this period, without being associated with any school, include Theodorus (fl. 450 BC), Theaetetus (c. 417-369 BC), and Eudoxus (c. 408–355 BC).

Greek mathematics also drew the attention of philosophers during the Classical period. Plato (c. 428–348 BC), the founder of the Platonic Academy, mentions mathematics in several of his dialogues.[19] While not considered a mathematician, Plato seems to have been influenced by Pythagorean ideas about number and believed that the elements of matter could be broken down into geometric solids.[20] He also believed that geometrical proportions bound the cosmos together rather than physical or mechanical forces.[21] Aristotle (c. 384–322 BC), the founder of the Peripatetic school, often used mathematics to illustrate many of his theories, as when he used geometry in his theory of the rainbow and the theory of proportions in his analysis of motion.[21] Much of the knowledge known about ancient Greek mathematics in this period is thanks to records referenced by Aristotle in his own works.[10][22]

Hellenistic and Roman periods

 
A fragment from Euclid's Elements (c. 300 BC), considered the most influential mathematics textbook of all time.[23]

The Hellenistic era began in the late 4th century BC, following Alexander the Great's conquest of the Eastern Mediterranean, Egypt, Mesopotamia, the Iranian plateau, Central Asia, and parts of India, leading to the spread of the Greek language and culture across these regions. Greek became the lingua franca of scholarship throughout the Hellenistic world, and the mathematics of the Classical period merged with Egyptian and Babylonian mathematics to give rise to a Hellenistic mathematics.[24][25]

Greek mathematics and astronomy reached its acme during the Hellenistic and early Roman periods, and much of the work represented by scholars such as Euclid (fl. 300 BC), Archimedes (c. 287–212 BC), Apollonius (c. 240–190 BC), Hipparchus (c. 190–120 BC), and Ptolemy (c. 100–170 AD) was of a very advanced level.[26] There is also evidence of combining mathematical knowledge with technical or practical applications, as found for instance in the construction of analogue computers like the Antikythera mechanism,[27][28] in the accurate measurement for the circumference of the Earth by Eratosthenes (276–194 BC), or in the mechanical works of Hero (c. 10–70 AD).[29]

Several centers of learning appeared during the Hellenistic period, of which the most important one was the Musaeum in Alexandria, Egypt, which attracted scholars from across the Hellenistic world (mostly Greek, but also Egyptian, Jewish, Persian, among others).[30][31] Although few in number, Hellenistic mathematicians actively communicated with each other; publication consisted of passing and copying someone's work among colleagues.[32]

Later mathematicians in the Roman era include Diophantus (c. 214–298 AD), who wrote on polygonal numbers and a work in pre-modern algebra (Arithmetica),[33][34] Pappus of Alexandria (c. 290–350 AD), who compiled many important results in the Collection,[35] Theon of Alexandria (c. 335–405 AD) and his daughter Hypatia (c. 370–415 AD), who edited Ptolemy's Almagest and other works,[36][37] and Eutocius of Ascalon (c. 480–540 AD), who wrote commentaries on treatises by Archimedes and Apollonius.[38] Although none of these mathematicians, save perhaps Diophantus, had notable original works, they are distinguished for their commentaries and expositions. These commentaries have preserved valuable extracts from works which have perished, or historical allusions which, in the absence of original documents, are precious because of their rarity.[39][40]

Most of the mathematical texts written in Greek survived through the copying of manuscripts over the centuries, though some fragments dating from antiquity have been found in Greece, Egypt, Asia Minor, Mesopotamia, and Sicily.[26]

Achievements

Greek mathematics constitutes an important period in the history of mathematics: fundamental in respect of geometry and for the idea of formal proof.[41] Greek mathematicians also contributed to number theory, mathematical astronomy, combinatorics, mathematical physics, and, at times, approached ideas close to the integral calculus.[42][43]

Eudoxus of Cnidus developed a theory of proportion that bears resemblance to the modern theory of real numbers using the Dedekind cut, developed by Richard Dedekind, who acknowledged Eudoxus as inspiration.[44][45][46][47]

Euclid collected many previous results and theorems in the Elements, a canon of geometry and elementary number theory for many centuries.[48][49][50]

Archimedes made use of a technique dependent on a form of proof by contradiction to reach answers to problems with an arbitrary degree of accuracy, while specifying the limits within which the answers lay. Known as the method of exhaustion, Archimedes employed it in several of his works, including to approximate the value of π (Measurement of the Circle),[51] and to prove that the area enclosed by a parabola and a straight line is 4/3 times the area of a triangle with equal base and height (Quadrature of the Parabola).[52] Archimedes also showed that the number of grains of sand filling the universe was not uncountable, devising his own counting scheme based on the myriad, which denoted 10,000 (The Sand-Reckoner).[53]

The most characteristic product of Greek mathematics may be the theory of conic sections, which was largely developed in the Hellenistic period, starting with the work of Menaechmus and perfected primarily under Apollonius.[54][55][56] The methods employed in these works made no explicit use of algebra, nor trigonometry, the latter appearing around the time of Hipparchus.[57][58]

Ancient Greek mathematics was not limited to theoretical works but was also used in other activities, such as business transactions and in land mensuration, as evidenced by extant texts where computational procedures and practical considerations took more of a central role.[59][60]

Transmission and the manuscript tradition

 
Cover of Diophantus' Arithmetica in Latin.

Although the earliest Greek language texts on mathematics that have been found were written after the Hellenistic period, many of these are considered to be copies of works written during and before the Hellenistic period.[61] The two major sources are

Nevertheless, despite the lack of original manuscripts, the dates of Greek mathematics are more certain than the dates of surviving Babylonian or Egyptian sources because a large number of overlapping chronologies exist. Even so, many dates are uncertain; but the doubt is a matter of decades rather than centuries.

Netz has counted 144 ancient authors in the mathematical or exact sciences, from whom only 29 works are extant in Greek: Aristarchus, Autolycus, Philo of Byzantium, Biton, Apollonius, Archimedes, Euclid, Theodosius, Hypsicles, Athenaeus, Geminus, Hero, Apollodorus, Theon of Smyrna, Cleomedes, Nicomachus, Ptolemy, Gaudentius, Anatolius, Aristides Quintilian, Porphyry, Diophantus, Alypius, Damianus, Pappus, Serenus, Theon of Alexandria, Anthemius, and Eutocius.[62]

The following works are extant only in Arabic translations:[63][64]

  • Apollonius, Conics books V to VII
  • Apollonius, De Rationis Sectione
  • Archimedes, Book of Lemmas
  • Archimedes, Construction of the Regular Heptagon
  • Diocles, On Burning Mirrors
  • Diophantus, Arithmetica books IV to VII
  • Euclid, On Divisions of Figures
  • Euclid, On Weights
  • Hero, Catoptrica
  • Hero, Mechanica
  • Menelaus, Sphaerica
  • Pappus, Commentary on Euclid's Elements book X
  • Ptolemy, Optics (extant in Latin from an Arabic translation of the Greek)
  • Ptolemy, Planisphaerium

See also

Notes

  1. ^ Boyer, C.B. (1991), A History of Mathematics (2nd ed.), New York: Wiley, ISBN 0-471-09763-2. p. 48
  2. ^ Knorr, W. (2000). Mathematics. Greek Thought: A Guide to Classical Knowledge: Harvard University Press. pp. 386–413.
  3. ^ Schiefsky, Mark (2012-07-20), "The Creation of Second-Order Knowledge in Ancient Greek Science as a Process in the Globalization of Knowledge", The Globalization of Knowledge in History, MPRL – Studies, Berlin: Max-Planck-Gesellschaft zur Förderung der Wissenschaften, ISBN 978-3-945561-23-2, retrieved 2021-03-27
  4. ^ Heath (1931). "A Manual of Greek Mathematics". Nature. 128 (3235): 5. Bibcode:1931Natur.128..739T. doi:10.1038/128739a0. S2CID 3994109.
  5. ^ a b Hodgkin, Luke (2005). "Greeks and origins". A History of Mathematics: From Mesopotamia to Modernity. Oxford University Press. ISBN 978-0-19-852937-8.
  6. ^ Knorr, W. (1981). On the early history of axiomatics: The interaction of mathematics and philosophy in Greek Antiquity. Theory Change, Ancient Axiomatics, and Galileo's Methodology, Vol. 1: D. Reidel Publishing Co. pp. 145–186.{{cite book}}: CS1 maint: location (link)
  7. ^ Kahn, C. H. (1991). Some remarks on the origins of Greek science and philosophy. Science and Philosophy in Classical Greece: Garland Publishing Inc. pp. 1–10.
  8. ^ "Sub-scientific mathematics: undercurrents and missing links in the mathematical technology of the Hellenistic and Roman world | Filosofi og videnskabsteori p? Roskilde Universitetscenter, 3. r?kke: Preprints og reprints". {{cite journal}}: Cite journal requires |journal= (help)
  9. ^ Zhmud, Leonid (2008-08-22). The Origin of the History of Science in Classical Antiquity. Peripatoi. De Gruyter. pp. 23–44. doi:10.1515/9783110194326. ISBN 978-3-11-019432-6.
  10. ^ a b c Boyer & Merzbach (2011) pp. 40–89.
  11. ^ Panchenko, D. V. (Dmitrii Vadimovich) (1993). "Thales and the Origin of Theoretical Reasoning". Configurations. 1 (3): 387–414. doi:10.1353/con.1993.0024. ISSN 1080-6520.
  12. ^ Boyer, Carl (1968). A History of Mathematics. pp. 42–43. ISBN 0471543977.
  13. ^ Heath (2003) pp. 36–111
  14. ^ Boyer, Carl (1968). A History of Science. p. 45. ISBN 0471543977.
  15. ^ Cornelli, Gabriele (2016-05-20). "A review of Aristotle's claim regarding Pythagoreans fundamental Beliefs: All is number?". Filosofia Unisinos / Unisinos Journal of Philosophy. 17 (1): 50–57. doi:10.4013/fsu.2016.171.06. ISSN 1984-8234.
  16. ^ Hans-Joachim Waschkies, "Introduction" to "Part 1: The Beginning of Greek Mathematics" in Classics in the History of Greek Mathematics, pp. 11–12
  17. ^ a b Netz, Reviel (2014), Huffman, Carl A. (ed.), "The problem of Pythagorean mathematics", A History of Pythagoreanism, Cambridge: Cambridge University Press, pp. 167–184, ISBN 978-1-107-01439-8, retrieved 2021-05-26
  18. ^ Burnyeat, M. F. (2005). "Archytas and Optics". Science in Context. 18 (1): 35–53. doi:10.1017/S0269889705000347. ISSN 1474-0664. S2CID 146652622.
  19. ^ Calian, Florin George (2021-12-09). Numbers, Ontologically Speaking: Plato on Numerosity. Brill. ISBN 978-90-04-46722-4.
  20. ^ Cherniss, Harold (1951). "Plato as Mathematician". The Review of Metaphysics. 4 (3): 395–425. ISSN 0034-6632. JSTOR 20123223.
  21. ^ a b Lindberg, David (2008). The Beginnings of Western Science. The University of Chicago Press. pp. 82–110. ISBN 9780226482057.
  22. ^ Mendell, Henry (26 March 2004). "Aristotle and Mathematics". Stanford Encyclopedia. Retrieved 22 April 2021.{{cite web}}: CS1 maint: url-status (link)
  23. ^ (Boyer 1991, "Euclid of Alexandria" p. 119)
  24. ^ Green, P. (1990). Alexander to Actium: The Historical Evolution of the Hellenistic Age (1 ed.). University of California Press. ISBN 978-0-520-08349-3. JSTOR 10.1525/j.ctt130jt89.
  25. ^ Russo, L. (2004), "Hellenistic Mathematics", The Forgotten Revolution: How Science Was Born in 300 BC and Why It Had to Be Reborn, Berlin, Heidelberg: Springer, pp. 31–55, doi:10.1007/978-3-642-18904-3_3, ISBN 978-3-642-18904-3
  26. ^ a b Jones, A. (1994). "Greek mathematics to AD 300". Companion Encyclopedia of the History and Philosophy of the Mathematical Sciences: Volume One. pp. 46–57. Retrieved 2021-05-26.{{cite web}}: CS1 maint: url-status (link)
  27. ^ Karin Tybjerg (2004-12-01). "Hero of Alexandria's Mechanical Geometry". Apeiron. 37 (4): 29–56. doi:10.1515/APEIRON.2004.37.4.29. ISSN 2156-7093. S2CID 170916259.
  28. ^ Edmunds, M. G. (2014-10-02). "The Antikythera mechanism and the mechanical universe". Contemporary Physics. 55 (4): 263–285. Bibcode:2014ConPh..55..263E. doi:10.1080/00107514.2014.927280. S2CID 122403901.
  29. ^ Russo, Lucio (2004). The Forgotten Revolution. Berlin: Springer. pp. 273–277.
  30. ^ Luce, J. V. (1988). "Greek Science in its Hellenistic Phase". Hermathena (145): 23–38. ISSN 0018-0750. JSTOR 23040930.
  31. ^ Berrey, M. (2017). Hellenistic Science at Court. De Gruyter. doi:10.1515/9783110541939. ISBN 978-3-11-054193-9.
  32. ^ Acerbi, F. (2018). Keyser, Paul T; Scarborough, John (eds.). "Hellenistic Mathematics". Oxford Handbook of Science and Medicine in the Classical World. pp. 268–292. doi:10.1093/oxfordhb/9780199734146.013.69. ISBN 978-0-19-973414-6. Retrieved 2021-05-26.{{cite web}}: CS1 maint: url-status (link)
  33. ^ Acerbi, F. (2011). "Completing Diophantus, De polygonis numeris, prop. 5". Historia Mathematica. 38 (4): 548–560. doi:10.1016/j.hm.2011.05.002. ISSN 0315-0860.
  34. ^ Christianidis, J.; Oaks, J. (2013). "Practicing algebra in late antiquity: The problem-solving of Diophantus of Alexandria". Historia Mathematica. 40 (2): 127–163. doi:10.1016/j.hm.2012.09.001. ISSN 0315-0860.
  35. ^ Rideout, Bronwyn (2008). Pappus Reborn : Pappus of Alexandria and the Changing Face of Analysis and Synthesis in Late Antiquity (Thesis). doi:10.26021/3834.
  36. ^ Lambrou, M. (2003). "Theon of Alexandria and Hypatia". History of the Ancient World. Retrieved 2021-05-26.{{cite web}}: CS1 maint: url-status (link)
  37. ^ Cameron, A. (1990). "Isidore of Miletus and Hypatia: On the Editing of Mathematical Texts". Greek, Roman, and Byzantine Studies. 31 (1): 103–127. ISSN 2159-3159.
  38. ^ Mansfeld, J. (2016). Prolegomena Mathematica: From Apollonius of Perga to the Late Neoplatonism. Brill. ISBN 978-90-04-32105-2.
  39. ^ Mansfeld, J. (2016). Prolegomena Mathematica: From Apollonius of Perga to the Late Neoplatonism. With an Appendix on Pappus and the History of Platonism. Brill. ISBN 978-90-04-32105-2.
  40. ^ Heath, Thomas (1921). A History of Greek Mathematics. Humphrey Milford.
  41. ^ Grant, H.; Kleiner, I. (2015), "Axiomatics—Euclid's and Hilbert's: From Material to Formal", Turning Points in the History of Mathematics, Springer, pp. 1–8, doi:10.1007/978-1-4939-3264-1_1, ISBN 978-1-4939-3264-1
  42. ^ Knorr, W. (1996). The method of indivisibles in Ancient Geometry. Vita Mathematica: MAA Press. pp. 67–86.
  43. ^ Powers, J. (2020). Did Archimedes do calculus? History of Mathematics Special Interest Group of the MAA [1]
  44. ^ Stein, Howard (1990-08-01). "Eudoxos and Dedekind: On the ancient Greek theory of ratios and its relation to modern mathematics". Synthese. 84 (2): 163–211. doi:10.1007/BF00485377. ISSN 1573-0964. S2CID 46974744.
  45. ^ Wigderson, Y. (April 2019). Eudoxus, the most important mathematician you've never heard of. https://web.stanford.edu/~yuvalwig/math/teaching/Eudoxus.pdf 2021-07-28 at the Wayback Machine
  46. ^ Filep, L. (2003). "Proportion theory in Greek mathematics". Acta Mathematica Academiae Paedagogicae Nyí regyháziensis. 19: 167–174.
  47. ^ J J O'Connor and E F Robertson (April 1999). "Eudoxus of Cnidus". MacTutor History of Mathematics archive. University of St. Andrews. Retrieved 18 April 2011.
  48. ^ Artmann, Benno (1999). Euclid—The Creation of Mathematics. New York: Springer-Verlag. ISBN 978-0-387-98423-0.
  49. ^ MUELLER, IAN (1969-12-01). "Euclid's Elements and the Axiomatic Method". The British Journal for the Philosophy of Science. 20 (4): 289–309. doi:10.1093/bjps/20.4.289. ISSN 0007-0882.
  50. ^ Pierce, D. (2015). The Foundations of Arithmetic in Euclid.
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  52. ^ Swain, Gordon; Dence, Thomas (1998). "Archimedes' Quadrature of the Parabola Revisited". Mathematics Magazine. 71 (2): 123–130. doi:10.2307/2691014. ISSN 0025-570X. JSTOR 2691014.
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  54. ^ Court, N. A. (1961). "The problem of Apollonius". The Mathematics Teacher. 54 (6): 444–452. doi:10.5951/MT.54.6.0444. ISSN 0025-5769. JSTOR 27956431.
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References

External links

 
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January 06, 2023
greek, mathematics, refers, mathematics, texts, ideas, stemming, from, archaic, through, hellenistic, roman, periods, mostly, attested, from, late, century, century, around, shores, mediterranean, greek, mathematicians, lived, cities, spread, over, entire, reg. Greek mathematics refers to mathematics texts and ideas stemming from the Archaic through the Hellenistic and Roman periods mostly attested from the late 7th century BC to the 4th century AD around the shores of the Mediterranean Greek mathematicians lived in cities spread over the entire region from Anatolia Turkey to Italy and North Africa but were united by Greek culture and the Greek language 1 The study of mathematics for its own sake and the use of generalized mathematical theories and proofs is an important difference between Greek mathematics and those of preceding civilizations 2 3 An illustration of Euclid s proof of the Pythagorean theorem Contents 1 Origins and etymology 2 Archaic and Classical periods 3 Hellenistic and Roman periods 4 Achievements 5 Transmission and the manuscript tradition 6 See also 7 Notes 8 References 9 External linksOrigins and etymology EditGreek mathematike mathematics derives from the Ancient Greek ma8hma romanized mathema Attic Greek ma tʰɛː ma Koine Greek ˈma 8i ma from the verb manthanein to learn Strictly speaking a mathema could be any branch of learning or anything learnt however since antiquity certain mathemata mainly arithmetic geometry astronomy and harmonics were granted special status 4 The origins of Greek mathematics are not well documented 5 6 The earliest advanced civilizations in Greece and Europe were the Minoan and later Mycenaean civilizations both of which flourished during the 2nd millennium BC While these civilizations possessed writing and were capable of advanced engineering including four story palaces with drainage and beehive tombs they left behind no mathematical documents Though no direct evidence is available it is generally thought that the neighboring Babylonian and Egyptian civilizations had an influence on the younger Greek tradition 7 8 5 Unlike the flourishing of Greek literature in the span of 800 to 600 BC not much is known about Greek mathematics in this early period nearly all of the information was passed down through later authors beginning in the mid 4th century BC 9 10 Archaic and Classical periods Edit Detail of Pythagoras with a tablet of ratios from The School of Athens by Raphael Vatican Palace Rome 1509 Greek mathematics allegedly began with Thales of Miletus c 624 548 BC Very little is known about his life and works although it is generally agreed that he was one of the Seven Wise Men of Greece According to Proclus he traveled to Babylon from where he learned mathematics and other subjects and came up with the proof of what is now called Thales Theorem 11 12 An equally enigmatic figure is Pythagoras of Samos c 580 500 BC who supposedly visited Egypt and Babylon 10 13 and ultimately settled in Croton Magna Graecia where he started a kind of cult Pythagoreans believed that all is number and were keen in looking for mathematical relations between numbers and things 14 Pythagoras himself was given credit for many later discoveries including the construction of the five regular solids However Aristotle refused to attribute anything specifically to Pythagoras and only discussed the work of the Pythagoreans as a group 15 16 It has been customary to credit almost half of the material in Euclid s Elements to the Pythagoreans as well as the discovery of irrationals attributed to Hippassus c 530 450 BC and the earliest attempt to square the circle in the work of Hippocrates of Chios c 470 410 BC 17 The greatest mathematician associated with the group however may have been Archytas c 435 360 BC who solved the problem of doubling the cube identified the harmonic mean and possibly contributed to optics and mechanics 17 18 Other mathematicians active in this period without being associated with any school include Theodorus fl 450 BC Theaetetus c 417 369 BC and Eudoxus c 408 355 BC Greek mathematics also drew the attention of philosophers during the Classical period Plato c 428 348 BC the founder of the Platonic Academy mentions mathematics in several of his dialogues 19 While not considered a mathematician Plato seems to have been influenced by Pythagorean ideas about number and believed that the elements of matter could be broken down into geometric solids 20 He also believed that geometrical proportions bound the cosmos together rather than physical or mechanical forces 21 Aristotle c 384 322 BC the founder of the Peripatetic school often used mathematics to illustrate many of his theories as when he used geometry in his theory of the rainbow and the theory of proportions in his analysis of motion 21 Much of the knowledge known about ancient Greek mathematics in this period is thanks to records referenced by Aristotle in his own works 10 22 Hellenistic and Roman periods Edit A fragment from Euclid s Elements c 300 BC considered the most influential mathematics textbook of all time 23 The Hellenistic era began in the late 4th century BC following Alexander the Great s conquest of the Eastern Mediterranean Egypt Mesopotamia the Iranian plateau Central Asia and parts of India leading to the spread of the Greek language and culture across these regions Greek became the lingua franca of scholarship throughout the Hellenistic world and the mathematics of the Classical period merged with Egyptian and Babylonian mathematics to give rise to a Hellenistic mathematics 24 25 Greek mathematics and astronomy reached its acme during the Hellenistic and early Roman periods and much of the work represented by scholars such as Euclid fl 300 BC Archimedes c 287 212 BC Apollonius c 240 190 BC Hipparchus c 190 120 BC and Ptolemy c 100 170 AD was of a very advanced level 26 There is also evidence of combining mathematical knowledge with technical or practical applications as found for instance in the construction of analogue computers like the Antikythera mechanism 27 28 in the accurate measurement for the circumference of the Earth by Eratosthenes 276 194 BC or in the mechanical works of Hero c 10 70 AD 29 Several centers of learning appeared during the Hellenistic period of which the most important one was the Musaeum in Alexandria Egypt which attracted scholars from across the Hellenistic world mostly Greek but also Egyptian Jewish Persian among others 30 31 Although few in number Hellenistic mathematicians actively communicated with each other publication consisted of passing and copying someone s work among colleagues 32 Later mathematicians in the Roman era include Diophantus c 214 298 AD who wrote on polygonal numbers and a work in pre modern algebra Arithmetica 33 34 Pappus of Alexandria c 290 350 AD who compiled many important results in the Collection 35 Theon of Alexandria c 335 405 AD and his daughter Hypatia c 370 415 AD who edited Ptolemy s Almagest and other works 36 37 and Eutocius of Ascalon c 480 540 AD who wrote commentaries on treatises by Archimedes and Apollonius 38 Although none of these mathematicians save perhaps Diophantus had notable original works they are distinguished for their commentaries and expositions These commentaries have preserved valuable extracts from works which have perished or historical allusions which in the absence of original documents are precious because of their rarity 39 40 Most of the mathematical texts written in Greek survived through the copying of manuscripts over the centuries though some fragments dating from antiquity have been found in Greece Egypt Asia Minor Mesopotamia and Sicily 26 Achievements EditGreek mathematics constitutes an important period in the history of mathematics fundamental in respect of geometry and for the idea of formal proof 41 Greek mathematicians also contributed to number theory mathematical astronomy combinatorics mathematical physics and at times approached ideas close to the integral calculus 42 43 Eudoxus of Cnidus developed a theory of proportion that bears resemblance to the modern theory of real numbers using the Dedekind cut developed by Richard Dedekind who acknowledged Eudoxus as inspiration 44 45 46 47 Euclid collected many previous results and theorems in the Elements a canon of geometry and elementary number theory for many centuries 48 49 50 Archimedes made use of a technique dependent on a form of proof by contradiction to reach answers to problems with an arbitrary degree of accuracy while specifying the limits within which the answers lay Known as the method of exhaustion Archimedes employed it in several of his works including to approximate the value of p Measurement of the Circle 51 and to prove that the area enclosed by a parabola and a straight line is 4 3 times the area of a triangle with equal base and height Quadrature of the Parabola 52 Archimedes also showed that the number of grains of sand filling the universe was not uncountable devising his own counting scheme based on the myriad which denoted 10 000 The Sand Reckoner 53 The most characteristic product of Greek mathematics may be the theory of conic sections which was largely developed in the Hellenistic period starting with the work of Menaechmus and perfected primarily under Apollonius 54 55 56 The methods employed in these works made no explicit use of algebra nor trigonometry the latter appearing around the time of Hipparchus 57 58 Ancient Greek mathematics was not limited to theoretical works but was also used in other activities such as business transactions and in land mensuration as evidenced by extant texts where computational procedures and practical considerations took more of a central role 59 60 Transmission and the manuscript tradition Edit Cover of Diophantus Arithmetica in Latin Although the earliest Greek language texts on mathematics that have been found were written after the Hellenistic period many of these are considered to be copies of works written during and before the Hellenistic period 61 The two major sources are Byzantine codices written some 500 to 1500 years after their originals and Syriac or Arabic translations of Greek works and Latin translations of the Arabic versions Nevertheless despite the lack of original manuscripts the dates of Greek mathematics are more certain than the dates of surviving Babylonian or Egyptian sources because a large number of overlapping chronologies exist Even so many dates are uncertain but the doubt is a matter of decades rather than centuries Netz has counted 144 ancient authors in the mathematical or exact sciences from whom only 29 works are extant in Greek Aristarchus Autolycus Philo of Byzantium Biton Apollonius Archimedes Euclid Theodosius Hypsicles Athenaeus Geminus Hero Apollodorus Theon of Smyrna Cleomedes Nicomachus Ptolemy Gaudentius Anatolius Aristides Quintilian Porphyry Diophantus Alypius Damianus Pappus Serenus Theon of Alexandria Anthemius and Eutocius 62 The following works are extant only in Arabic translations 63 64 Apollonius Conics books V to VII Apollonius De Rationis Sectione Archimedes Book of Lemmas Archimedes Construction of the Regular Heptagon Diocles On Burning Mirrors Diophantus Arithmetica books IV to VII Euclid On Divisions of Figures Euclid On Weights Hero Catoptrica Hero Mechanica Menelaus Sphaerica Pappus Commentary on Euclid s Elements book X Ptolemy Optics extant in Latin from an Arabic translation of the Greek Ptolemy PlanisphaeriumSee also Edit Greece portal Mathematics portalAl Mansur 2nd Abbasid caliph r 754 775 Chronology of ancient Greek mathematicians Greek numerals System of writing numbers History of geometry Historical development of geometry History of mathematics Historical development of mathematics Timeline of ancient Greek mathematicians Timeline and summary of ancient Greek mathematicians and their discoveriesNotes Edit Boyer C B 1991 A History of Mathematics 2nd ed New York Wiley ISBN 0 471 09763 2 p 48 Knorr W 2000 Mathematics Greek Thought A Guide to Classical Knowledge Harvard University Press pp 386 413 Schiefsky Mark 2012 07 20 The Creation of Second Order Knowledge in Ancient Greek Science as a Process in the Globalization of Knowledge The Globalization of Knowledge in History MPRL Studies Berlin Max Planck Gesellschaft zur Forderung der Wissenschaften ISBN 978 3 945561 23 2 retrieved 2021 03 27 Heath 1931 A Manual of Greek Mathematics Nature 128 3235 5 Bibcode 1931Natur 128 739T doi 10 1038 128739a0 S2CID 3994109 a b Hodgkin Luke 2005 Greeks and origins A History of Mathematics From Mesopotamia to Modernity Oxford University Press ISBN 978 0 19 852937 8 Knorr W 1981 On the early history of axiomatics The interaction of mathematics and philosophy in Greek Antiquity Theory Change Ancient Axiomatics and Galileo s Methodology Vol 1 D Reidel Publishing Co pp 145 186 a href Template Cite book html title Template Cite book cite book a CS1 maint location link Kahn C H 1991 Some remarks on the origins of Greek science and philosophy Science and Philosophy in Classical Greece Garland Publishing Inc pp 1 10 Sub scientific mathematics undercurrents and missing links in the mathematical technology of the Hellenistic and Roman world Filosofi og videnskabsteori p Roskilde Universitetscenter 3 r kke Preprints og reprints a href Template Cite journal html title Template Cite journal cite journal a Cite journal requires journal help Zhmud Leonid 2008 08 22 The Origin of the History of Science in Classical Antiquity Peripatoi De Gruyter pp 23 44 doi 10 1515 9783110194326 ISBN 978 3 11 019432 6 a b c Boyer amp Merzbach 2011 pp 40 89 Panchenko D V Dmitrii Vadimovich 1993 Thales and the Origin of Theoretical Reasoning Configurations 1 3 387 414 doi 10 1353 con 1993 0024 ISSN 1080 6520 Boyer Carl 1968 A History of Mathematics pp 42 43 ISBN 0471543977 Heath 2003 pp 36 111 Boyer Carl 1968 A History of Science p 45 ISBN 0471543977 Cornelli Gabriele 2016 05 20 A review of Aristotle s claim regarding Pythagoreans fundamental Beliefs All is number Filosofia Unisinos Unisinos Journal of Philosophy 17 1 50 57 doi 10 4013 fsu 2016 171 06 ISSN 1984 8234 Hans Joachim Waschkies Introduction to Part 1 The Beginning of Greek Mathematics in Classics in the History of Greek Mathematics pp 11 12 a b Netz Reviel 2014 Huffman Carl A ed The problem of Pythagorean mathematics A History of Pythagoreanism Cambridge Cambridge University Press pp 167 184 ISBN 978 1 107 01439 8 retrieved 2021 05 26 Burnyeat M F 2005 Archytas and Optics Science in Context 18 1 35 53 doi 10 1017 S0269889705000347 ISSN 1474 0664 S2CID 146652622 Calian Florin George 2021 12 09 Numbers Ontologically Speaking Plato on Numerosity Brill ISBN 978 90 04 46722 4 Cherniss Harold 1951 Plato as Mathematician The Review of Metaphysics 4 3 395 425 ISSN 0034 6632 JSTOR 20123223 a b Lindberg David 2008 The Beginnings of Western Science The University of Chicago Press pp 82 110 ISBN 9780226482057 Mendell Henry 26 March 2004 Aristotle and Mathematics Stanford Encyclopedia Retrieved 22 April 2021 a href Template Cite web html title Template Cite web cite web a CS1 maint url status link Boyer 1991 Euclid of Alexandria p 119 harv error no target CITEREFBoyer1991 help Green P 1990 Alexander to Actium The Historical Evolution of the Hellenistic Age 1 ed University of California Press ISBN 978 0 520 08349 3 JSTOR 10 1525 j ctt130jt89 Russo L 2004 Hellenistic Mathematics The Forgotten Revolution How Science Was Born in 300 BC and Why It Had to Be Reborn Berlin Heidelberg Springer pp 31 55 doi 10 1007 978 3 642 18904 3 3 ISBN 978 3 642 18904 3 a b Jones A 1994 Greek mathematics to AD 300 Companion Encyclopedia of the History and Philosophy of the Mathematical Sciences Volume One pp 46 57 Retrieved 2021 05 26 a href Template Cite web html title Template Cite web cite web a CS1 maint url status link Karin Tybjerg 2004 12 01 Hero of Alexandria s Mechanical Geometry Apeiron 37 4 29 56 doi 10 1515 APEIRON 2004 37 4 29 ISSN 2156 7093 S2CID 170916259 Edmunds M G 2014 10 02 The Antikythera mechanism and the mechanical universe Contemporary Physics 55 4 263 285 Bibcode 2014ConPh 55 263E doi 10 1080 00107514 2014 927280 S2CID 122403901 Russo Lucio 2004 The Forgotten Revolution Berlin Springer pp 273 277 Luce J V 1988 Greek Science in its Hellenistic Phase Hermathena 145 23 38 ISSN 0018 0750 JSTOR 23040930 Berrey M 2017 Hellenistic Science at Court De Gruyter doi 10 1515 9783110541939 ISBN 978 3 11 054193 9 Acerbi F 2018 Keyser Paul T Scarborough John eds Hellenistic Mathematics Oxford Handbook of Science and Medicine in the Classical World pp 268 292 doi 10 1093 oxfordhb 9780199734146 013 69 ISBN 978 0 19 973414 6 Retrieved 2021 05 26 a href Template Cite web html title Template Cite web cite web a CS1 maint url status link Acerbi F 2011 Completing Diophantus De polygonis numeris prop 5 Historia Mathematica 38 4 548 560 doi 10 1016 j hm 2011 05 002 ISSN 0315 0860 Christianidis J Oaks J 2013 Practicing algebra in late antiquity The problem solving of Diophantus of Alexandria Historia Mathematica 40 2 127 163 doi 10 1016 j hm 2012 09 001 ISSN 0315 0860 Rideout Bronwyn 2008 Pappus Reborn Pappus of Alexandria and the Changing Face of Analysis and Synthesis in Late Antiquity Thesis doi 10 26021 3834 Lambrou M 2003 Theon of Alexandria and Hypatia History of the Ancient World Retrieved 2021 05 26 a href Template Cite web html title Template Cite web cite web a CS1 maint url status link Cameron A 1990 Isidore of Miletus and Hypatia On the Editing of Mathematical Texts Greek Roman and Byzantine Studies 31 1 103 127 ISSN 2159 3159 Mansfeld J 2016 Prolegomena Mathematica From Apollonius of Perga to the Late Neoplatonism Brill ISBN 978 90 04 32105 2 Mansfeld J 2016 Prolegomena Mathematica From Apollonius of Perga to the Late Neoplatonism With an Appendix on Pappus and the History of Platonism Brill ISBN 978 90 04 32105 2 Heath Thomas 1921 A History of Greek Mathematics Humphrey Milford Grant H Kleiner I 2015 Axiomatics Euclid s and Hilbert s From Material to Formal Turning Points in the History of Mathematics Springer pp 1 8 doi 10 1007 978 1 4939 3264 1 1 ISBN 978 1 4939 3264 1 Knorr W 1996 The method of indivisibles in Ancient Geometry Vita Mathematica MAA Press pp 67 86 Powers J 2020 Did Archimedes do calculus History of Mathematics Special Interest Group of the MAA 1 Stein Howard 1990 08 01 Eudoxos and Dedekind On the ancient Greek theory of ratios and its relation to modern mathematics Synthese 84 2 163 211 doi 10 1007 BF00485377 ISSN 1573 0964 S2CID 46974744 Wigderson Y April 2019 Eudoxus the most important mathematician you ve never heard of https web stanford edu yuvalwig math teaching Eudoxus pdf Archived 2021 07 28 at the Wayback Machine Filep L 2003 Proportion theory in Greek mathematics Acta Mathematica Academiae Paedagogicae Nyi regyhaziensis 19 167 174 J J O Connor and E F Robertson April 1999 Eudoxus of Cnidus MacTutor History of Mathematics archive University of St Andrews Retrieved 18 April 2011 Artmann Benno 1999 Euclid The Creation of Mathematics New York Springer Verlag ISBN 978 0 387 98423 0 MUELLER IAN 1969 12 01 Euclid s Elements and the Axiomatic Method The British Journal for the Philosophy of Science 20 4 289 309 doi 10 1093 bjps 20 4 289 ISSN 0007 0882 Pierce D 2015 The Foundations of Arithmetic in Euclid Knorr Wilbur R 1976 Archimedes and the Measurement of the Circle A New Interpretation Archive for History of Exact Sciences 15 2 115 140 doi 10 1007 BF00348496 ISSN 0003 9519 JSTOR 41133444 S2CID 120954547 Swain Gordon Dence Thomas 1998 Archimedes Quadrature of the Parabola Revisited Mathematics Magazine 71 2 123 130 doi 10 2307 2691014 ISSN 0025 570X JSTOR 2691014 Reviel Netz 2003 12 01 The Goal of Archimedes Sand Reckoner Apeiron 36 4 251 290 doi 10 1515 APEIRON 2003 36 4 251 ISSN 2156 7093 S2CID 147307969 Court N A 1961 The problem of Apollonius The Mathematics Teacher 54 6 444 452 doi 10 5951 MT 54 6 0444 ISSN 0025 5769 JSTOR 27956431 Knorr Wilbur Richard 1981 The Hyperbola Construction in the Conics Book II Ancient Variations on a Theorem of Apollonius Centaurus 25 3 253 291 Bibcode 1981Cent 25 253K doi 10 1111 j 1600 0498 1981 tb00647 x ISSN 1600 0498 Baltus Christopher 2020 Baltus Christopher ed Conics in Greek Geometry Apollonius Harmonic Division and Later Greek Geometry Collineations and Conic Sections An Introduction to Projective Geometry in its History Cham Springer International Publishing pp 45 57 doi 10 1007 978 3 030 46287 1 4 ISBN 978 3 030 46287 1 S2CID 226745369 retrieved 2021 03 27 Toomer G J 1974 The Chord Table of Hipparchus and the Early History of Greek Trigonometry Centaurus 18 1 6 28 Bibcode 1974Cent 18 6T doi 10 1111 j 1600 0498 1974 tb00205 x ISSN 1600 0498 Duke D 2011 The very early history of trigonometry PDF DIO The International Journal of Scientific History 17 34 42 Hoyrup J 1990 Sub scientific mathematics Undercurrents and missing links in the mathematical technology of the Hellenistic and Roman world Filosofi og Videnskabsteori P Roskilde Universitetscenter 3 R kke Preprints og Reprints Robbins F E 1934 Greco Egyptian Arithmetical Problems P Mich 4966 Isis 22 1 95 103 doi 10 1086 346874 S2CID 144052363 J J O Connor and E F Robertson October 1999 How do we know about Greek mathematics The MacTutor History of Mathematics archive University of St Andrews Archived from the original on 30 January 2000 Retrieved 18 April 2011 Netz R The Bibliosphere of Ancient Science Outside of Alexandria N T M 19 239 2011 https doi org 10 1007 s00048 011 0057 2 Lorch R 2001 Greek Arabic Latin The Transmission of Mathematical Texts in the Middle Ages Science in Context 14 1 2 313 331 doi 10 1017 S0269889701000114 Toomer G J Lost greek mathematical works in arabic translation The Mathematical Intelligencer 6 32 38 1984 https doi org 10 1007 BF03024153References EditBoyer Carl B 1985 A History of Mathematics Princeton University Press ISBN 978 0 691 02391 5 Boyer Carl B Merzbach Uta C 2011 A History of Mathematics 3rd ed John Wiley amp Sons Inc ISBN 978 0 471 54397 8 Jean Christianidis ed 2004 Classics in the History of Greek Mathematics Kluwer Academic Publishers ISBN 978 1 4020 0081 2 Cooke Roger 1997 The History of Mathematics A Brief Course Wiley Interscience ISBN 978 0 471 18082 1 Derbyshire John 2006 Unknown Quantity A Real And Imaginary History of Algebra Joseph Henry Press ISBN 978 0 309 09657 7 Stillwell John 2004 Mathematics and its History 2nd ed Springer Science Business Media Inc ISBN 978 0 387 95336 6 Burton David M 1997 The History of Mathematics An Introduction 3rd ed The McGraw Hill Companies Inc ISBN 978 0 07 009465 9 Heath Thomas Little 1981 First published 1921 A History of Greek Mathematics Dover publications ISBN 978 0 486 24073 2 Heath Thomas Little 2003 First published 1931 A Manual of Greek Mathematics Dover publications ISBN 978 0 486 43231 1 Szabo Arpad 1978 First published 1978 The Beginnings of Greek Mathematics Reidel amp Akademiai Kiado ISBN 978 963 05 1416 3External links Edit Wikiquote has quotations related to Ancient Greek mathematics Vatican Exhibit Famous Greek Mathematicians Retrieved from https en wikipedia org w index php title Greek mathematics amp oldid 1130535057, wikipedia, wiki, book, books, library,

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