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In mathematics, the Gershgorin circle theorem may be used to bound the spectrum of a square matrix. It was first published by the Soviet mathematician Semyon Aronovich Gershgorin in 1931. Gershgorin's name has been transliterated in several different ways, including Geršgorin, Gerschgorin, Gershgorin, Hershhorn, and Hirschhorn.
Gelfand–Mazur theorem (Banach algebra) Gelfand–Naimark theorem (functional analysis) Gelfond–Schneider theorem (transcendental number theory) Gell-Mann and Low theorem (quantum field theory) Geometric mean theorem ; Geroch's splitting theorem (differential geometry) Gershgorin circle theorem (matrix theory)
Theorems in linear algebra (2 C, 24 P) T. Theorems about polynomials (27 P) ... Gershgorin circle theorem; H. Haran's diamond theorem; Harish-Chandra isomorphism;
k = 1 is the tangent line to the right of the circles looking from c 1 to c 2. k = −1 is the tangent line to the right of the circles looking from c 2 to c 1. The above assumes each circle has positive radius. If r 1 is positive and r 2 negative then c 1 will lie to the left of each line and c 2 to the right, and the two tangent lines will ...
The second theorem considers five circles in general position passing through a single point M. Each subset of four circles defines a new point P according to the first theorem. Then these five points all lie on a single circle C. The third theorem considers six circles in general position that pass through a single point M. Each subset of five ...
3.1 Fundamental theorem of algebra. 3.2 No entire function dominates another entire function. ... and is the circle about 0 of radius > . Suppose is bounded ...
In geometry, Descartes' theorem states that for every four kissing, or mutually tangent, circles, the radii of the circles satisfy a certain quadratic equation. By solving this equation, one can construct a fourth circle tangent to three given, mutually tangent circles. The theorem is named after René Descartes, who stated it in 1643.
In geometry, Thales's theorem states that if A, B, and C are distinct points on a circle where the line AC is a diameter, the angle ∠ ABC is a right angle. Thales's theorem is a special case of the inscribed angle theorem and is mentioned and proved as part of the 31st proposition in the third book of Euclid's Elements. [1]