Pitot-Theorem {Anzeigestil |PA|=|PB|} {Anzeigestil {Start{ausgerichtet}&|AB|+|CD|\=&(a+b)+(c+d)\=&(b+c)+(a+d)\=&|BC|+|DA|Ende{ausgerichtet}}} [1] In der Geometrie, the Pitot theorem, named after the French engineer Henri Pitot, states that in a tangential quadrilateral (d.h. one in which a circle can be inscribed) the two sums of lengths of opposite sides are the same. Both sums of lengths equal the semiperimeter of the quadrilateral.[2] The theorem is a logical consequence of the fact that two tangent line segments from a point outside the circle to the circle have equal lengths. There are four equal pairs of tangent segments, and both sums of two sides can be decomposed into sums of these four tangent segment lengths. The converse implication is also true: a circle can be inscribed into every convex quadrilateral in which the lengths of opposite sides sum to the same value.[2] Henri Pitot proved his theorem in 1725, whereas the converse was proved by the Swiss mathematician Jakob Steiner in 1846.[2] Pitot's theorem generalizes to tangential 2n-gons, in which case the two sums of alternate sides are equal.[3] See also Tangent quadrilateral theorem and inscribed circles References ^ Boris:Pritsker: Geometrical Kaleidoscope. Dover, 2017, ISBN 9780486812410, p. 51 ^ Nach oben springen: a b c Josefsson, Martin (2011), "More characterizations of tangential quadrilaterals" (Pdf), Geometrisches Forum, 11: 65–82, HERR 2877281. See in particular pp. 65–66. ^ 1de Villiers, Michael (1993), "A unifying generalization of Turnbull's theorem", International Journal of Mathematical Education in Science and Technology, 24 (2): 65–82, doi:10.1080/0020739930240204, HERR 2877281. External links Alexander Bogomolny, "When A Quadrilateral Is Inscriptible?" at Cut-the-knot "A generalization of Pitot's theorem" Kategorien: Theorems about quadrilaterals and circles

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