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A [[timeline]] of '''[[algebra]]''' and '''[[geometry]]'''


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==Before 1000 BC==
* ca. 2000 BC — [[Scotland]], [[Carved Stone Balls]] exhibit a variety of symmetries including all of the symmetries of [[Platonic solid]]s.
* 1800 BC — [[Moscow Mathematical Papyrus]], findings volume of a frustum
* 1650 BC — [[Rhind Mathematical Papyrus]], copy of a lost scroll from around 1850 BC, the scribe [[Ahmes]] presents one of the first known approximate values of [[pi|π]] at 3.16, the first attempt at [[squaring the circle]], earliest known use of a sort of [[cotangent]], and knowledge of solving first order linear equations
 
==1st millennium BC==
* 800 BC — [[Baudhayana]], author of the Baudhayana [[Sulba Sutras|Sulba Sutra]], a [[Vedic Sanskrit]] geometric text, contains [[quadratic equations]], and calculates the [[square root]] of 2 correct to five decimal places
* ca. 600 BC — the other [[Vedic civilization|Vedic]] “[[Sulba Sutras]]” (“rule of chords” in [[Sanskrit]]) use [[Pythagorean triples]], contain of a number of geometrical proofs, and approximate [[pi|π]] at 3.16
* 5th century BC — [[Hippocrates of Chios]] utilizes [[Lune (mathematics)|lunes]] in an attempt to [[squaring the circle|square the circle]]
* 5th century BC — [[Apastamba]], author of the Apastamba [[Sulba Sutras|Sulba Sutra]], another [[Vedic Sanskrit]] geometric text, makes an attempt at [[squaring the circle]] and also calculates the [[square root]] of 2 correct to five decimal places
* 530 BC — [[Pythagoras]] studies propositional [[geometry]] and vibrating lyre strings; his group also discover the [[irrational number|irrationality]] of the [[square root]] of [[two]],
* 370 BC — [[Eudoxus of Cnidus|Eudoxus]] states the [[method of exhaustion]] for [[area]] determination
* 300 BC — [[Euclid]] in his ''[[Euclid's Elements|Elements]]'' studies [[geometry]] as an [[axiomatic system]], proves the [[Infinite set|infinitude]] of [[prime number]]s and presents the [[Euclidean algorithm]]; he states the law of reflection in ''Catoptrics'', and he proves the [[fundamental theorem of arithmetic]]
* 260 BC — [[Archimedes]] [[method of exhaustion|proved]] that the value of [[pi|π]] lies between 3&nbsp;+&nbsp;1/7 (approx. 3.1429) and 3&nbsp;+&nbsp;10/71 (approx. 3.1408), that the area of a circle was equal to π multiplied by the square of the radius of the circle and that the area enclosed by a parabola and a straight line is 4/3 multiplied by the area of a triangle with equal base and height. He also gave a very accurate estimate of the value of the square root of 3.
* 225 BC — [[Apollonius of Perga]] writes  ''On [[Conic section|Conic Sections]]'' and names the [[ellipse]], [[parabola]], and [[hyperbola]],
* 150 BC — [[Jainism|Jain]] mathematicians in [[History of India|India]] write the “Sthananga Sutra”, which contains work on the theory of numbers, arithmetical operations, [[geometry]], operations with [[fractions]], simple equations, [[cubic equations]], quartic equations, and [[permutations]] and [[combinations]]
* 140 BC — [[Hipparchus]] develops the bases of [[trigonometry]].
 
==1st millennium==
* ca. 340 — [[Pappus of Alexandria]] states his [[Pappus's hexagon theorem|hexagon theorem]] and his [[Pappus's centroid theorem|centroid theorem]]
* 500 — [[Aryabhata]] writes the “Aryabhata-Siddhanta”, which first introduces the trigonometric functions and methods of calculating their approximate numerical values. It defines the concepts of [[sine]] and [[cosine]], and also contains the [[Aryabhata's sine table|earliest tables of sine]] and cosine values (in 3.75-degree intervals from 0 to 90 degrees)
* 600s — [[Bhaskara I]] gives a rational approximation of the sine function
* 700s — [[Virasena]] gives explicit rules for the [[Fibonacci sequence]], gives the derivation of the [[volume]] of a [[frustum]] using an [[Infinity|infinite]] procedure, and also deals with the [[logarithm]] to [[base 2]] and knows its laws
* 700s — [[Shridhara]] gives the rule for finding the volume of a sphere and also the formula for solving quadratic equations
* 820 — [[Al-Mahani]] conceived the idea of reducing [[Geometry|geometrical]] problems such as [[doubling the cube]] to problems in algebra.
* ca. 900 — [[Abu Kamil]] of Egypt had begun to understand what we would write in symbols as <math>x^n \cdot x^m = x^{m+n}</math>
* 975 — [[Al-Batani]] — Extended the Indian concepts of sine and cosine to other trigonometrical ratios, like tangent, secant and their inverse functions. Derived the formula: <math> \sin \alpha = \tan \alpha / \sqrt{1+\tan^2 \alpha} </math> and <math> \cos \alpha = 1 / \sqrt{1 + \tan^2 \alpha}</math>.
 
==1000–1500==
*ca. 1000 — [[Law of sines]] is discovered by [[Islamic mathematics|Muslim mathematicians]], but it is uncertain who discovers it first between [[Abu-Mahmud al-Khujandi]], [[Abu Nasr Mansur]], and [[Abū al-Wafā' al-Būzjānī|Abu al-Wafa]].
* ca. 1100 — [[Omar Khayyám]] “gave a complete classification of [[cubic equation]]s with geometric solutions found by means of intersecting [[conic section]]s.” He became the first to find general [[geometry|geometric]] solutions of [[cubic equation]]s and laid the foundations for the development of [[analytic geometry]] and [[non-Euclidean geometry]]. He also extracted [[root of a function|roots]] using the [[decimal]] system ([[Hindu-Arabic numeral system]]).
* 1135 — [[Sharafeddin Tusi]] followed al-Khayyam's application of algebra to geometry, and wrote a treatise on [[cubic equation]]s which “represents an essential contribution to another [[algebra]] which aimed to study [[curve]]s by means of [[equation]]s, thus inaugurating the beginning of [[algebraic geometry]].<ref name=MacTutor>[http://www-groups.dcs.st-and.ac.uk/~history/HistTopics/Arabic_mathematics.html Arabic mathematics], ''[[MacTutor History of Mathematics archive]]'', [[University of St Andrews]], Scotland</ref>
* ca. 1250 — [[Nasir Al-Din Al-Tusi]] attempts to develop a form of [[non-Euclidean geometry]].
* 15th century — [[Nilakantha Somayaji]], a [[Kerala school of astronomy and mathematics|Kerala school]] mathematician, writes the “Aryabhatiya Bhasya”, which contains work on infinite-series expansions, problems of algebra, and spherical geometry
 
==17th century==
* 1600s – Putumana Somayaji writes the "Paddhati", which presents a detailed discussion of various trigonometric series
* 1619 –  [[Johannes Kepler]] discovers two of the [[Kepler-Poinsot polyhedra]].
 
==18th century==
* 1722 –  [[Abraham de Moivre]] states [[de Moivre's formula]] connecting [[trigonometric function]]s and [[complex number]]s,
* 1733 –  [[Giovanni Gerolamo Saccheri]] studies what geometry would be like if [[parallel postulate|Euclid's fifth postulate]] were false,
* 1796 –  [[Carl Friedrich Gauss]] proves that the [[heptadecagon|regular 17-gon]] can be constructed using only a [[compass and straightedge]]
* 1797 –  [[Caspar Wessel]] associates vectors with [[complex number]]s and studies complex number operations in geometrical terms,
 
==19th century==
* 1806 –  [[Louis Poinsot]] discovers the two remaining [[Kepler-Poinsot polyhedra]].
* 1829 –  [[Bolyai]], [[Carl Friedrich Gauss|Gauss]], and [[Nikolai Ivanovich Lobachevsky|Lobachevsky]] invent hyperbolic [[non-Euclidean geometry]],
* 1837 –  [[Pierre Wanzel]] proves that doubling the cube and [[trisecting the angle]] are impossible with only a compass and straightedge, as well as the full completion of the problem of [[Constructible polygon|constructibility]] of regular polygons
* 1843 –  [[William Rowan Hamilton|William Hamilton]] discovers the calculus of [[quaternion]]s and deduces that they are non-commutative,
* 1854 –  [[Bernhard Riemann]] introduces [[Riemannian geometry]],
* 1854 –  [[Arthur Cayley]] shows that [[quaternion]]s can be used to represent rotations in four-dimensional [[space]],
* 1858 –  [[August Ferdinand Möbius]] invents the [[Möbius strip]],
* 1870 –  [[Felix Klein]] constructs an analytic geometry for Lobachevski's geometry thereby establishing its self-consistency and the logical independence of Euclid's fifth postulate,
* 1873 –  [[Charles Hermite]] proves that [[e (mathematical constant)|e]] is transcendental,
* 1878 – Charles Hermite solves the general quintic equation by means of elliptic and modular functions
* 1882 –  [[Ferdinand von Lindemann]] proves that π is transcendental and that therefore the circle cannot be squared with a compass and straightedge,
* 1882 –  Felix Klein invents the [[Klein bottle]],
* 1899 –  [[David Hilbert]] presents a set of self-consistent geometric axioms in ''Foundations of Geometry''
 
==20th century==
* 1901 –  [[Élie Cartan]] develops the [[exterior derivative]],
* 1905 – [[Albert Einstein|Einstein's]] theory of [[special relativity]].
* 1912 –  [[Luitzen Egbertus Jan Brouwer]] presents the [[Brouwer fixed-point theorem]],
* 1916 – [[Albert Einstein|Einstein's]] theory of [[general relativity]].
* 1930 –  [[Casimir Kuratowski]] shows that the [[three-cottage problem]] has no solution,
* 1931 –  [[Georges de Rham]] develops theorems in [[cohomology]] and [[characteristic class]]es,
* 1933 –  [[Karol Borsuk]] and [[Stanislaw Ulam]] present the [[Borsuk-Ulam Theorem|Borsuk-Ulam antipodal-point theorem]],
* 1955 –  [[H. S. M. Coxeter]] et al. publish the complete list of [[uniform polyhedron]],
* 1975 –  [[Benoit Mandelbrot]], [[fractal]]s theory,
* 1981 – [[Mikhail Gromov (mathematician)|Mikhail Gromov]] develops the theory of [[hyperbolic group]]s, revolutionizing both infinite group theory and global differential geometry,
* 1983 –  the [[classification of finite simple groups]], a collaborative work involving some hundred mathematicians and spanning thirty years, is completed,
* 1991 –  [[Alain Connes]] and [[John Lott (mathematician)|John Lott]] develop [[non-commutative geometry]],
* 1998 – [[Thomas Callister Hales]] (almost certainly) proves the [[Kepler conjecture]],
 
==21st century==
* 2003 – [[Grigori Perelman]] proves the [[Poincaré conjecture]],
* 2007 – a team of researches throughout North America and Europe used networks of computers to map [[E8 (mathematics)]].<ref>Elizabeth A. Thompson, MIT News Office, ''Math research team maps E8'' http://www.huliq.com/15695/mathematicians-map-e8</ref>
 
==References==
{{Reflist}}<!--added above categories/infobox footers by script-assisted edit-->
 
{{DEFAULTSORT:Timeline Of Algebra And Geometry}}
[[Category:Mathematics timelines|Algebra and geometry]]
[[Category:Algebra| Timeline]]
[[Category:Geometry| ]]

Latest revision as of 19:06, 12 November 2013

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Before 1000 BC

1st millennium BC

1st millennium

1000–1500

17th century

18th century

19th century

20th century

21st century

References

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