Timeline of geometry

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Short description: Notable events in the history of geometry

The following is a timeline of key developments of geometry:

Before 1000 BC

  • ca. 2000 BC – Scotland, carved stone balls exhibit a variety of symmetries including all of the symmetries of Platonic solids.
  • 1800 BC – Moscow Mathematical Papyrus, findings volume of a frustum
  • 1800 BC – Plimpton 322 contains the oldest reference to the Pythagorean triplets.[1]
  • 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 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

1st millennium

  • ca. 340 – Pappus of Alexandria states his hexagon theorem and his 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 earliest tables of sine and cosine values (in 3.75-degree intervals from 0 to 90 degrees)
  • 7th century – Bhaskara I gives a rational approximation of the sine function
  • 8th century – Virasena gives explicit rules for the Fibonacci sequence, gives the derivation of the volume of a frustum using an infinite procedure.
  • 8th century – 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 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]\displaystyle{ 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]\displaystyle{ \sin \alpha = \tan \alpha / \sqrt{1+\tan^2 \alpha} }[/math] and [math]\displaystyle{ \cos \alpha = 1 / \sqrt{1 + \tan^2 \alpha} }[/math].

1000–1500

17th century

  • 17th century – 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

19th century

  • 1806 – Louis Poinsot discovers the two remaining Kepler-Poinsot polyhedra.
  • 1829 – Bolyai, Gauss, and Lobachevsky invent hyperbolic non-Euclidean geometry,
  • 1837 – Pierre Wantzel 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 constructibility of regular polygons
  • 1843 – William Hamilton discovers the calculus of quaternions and deduces that they are non-commutative,
  • 1854 – Bernhard Riemann introduces Riemannian geometry,
  • 1854 – Arthur Cayley shows that quaternions 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 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 discovers the Klein bottle,
  • 1899 – David Hilbert presents a set of self-consistent geometric axioms in Foundations of Geometry

20th century

21st century

See also

References