Newton's theorem (quadrilateral) P lies on the Newton line EF In Euclidean geometry Newton's theorem states that in every tangential quadrilateral other than a rhombus, the center of the incircle lies on the Newton line.

Let ABCD be a tangential quadrilateral with at most one pair of parallel sides. Par ailleurs, let E and F the midpoints of its diagonals AC and BD and P be the center of its incircle. Given such a configuration the point P is located on the Newton line, that is line EF connecting the midpoints of the diagonals.

A tangential quadrilateral with two pairs of parallel sides is a rhombus. In this case both midpoints and the center of the incircle coincide and by definition no Newton line exists.

Newton's theorem can easily be derived from Anne's theorem considering that in tangential quadrilaterals the combined lengths of opposite sides are equal (Pitot theorem: un + c = b + ré). Now according to Anne's theorem showing that the combined areas of opposite triangles PAD and PBC and the combined areas of triangles PAB and PCD are equal is sufficient to ensure that P lies on EF. Let r be the radius of the incircle, then r is also the altitude of all four triangles.

{style d'affichage {commencer{aligné}&A(triangle PAB)+UN(triangle PCD)\[5pt]={}&{tfrac {1}{2}}ra+{tfrac {1}{2}}rc={tfrac {1}{2}}r(a+c)\[5pt]={}&{tfrac {1}{2}}r(b+d)={tfrac {1}{2}}rb+{tfrac {1}{2}}rd\[5pt]={}&A(triangle PBC)+UN(triangle PAD)fin{aligné}}} References Claudi Alsina, Roger B.. Nelson: Preuves charmantes: Un voyage dans les mathématiques élégantes. MAA, 2010, ISBN 9780883853481, pp. 117–118 (copie en ligne, p. 117, chez Google Livres) External links Newton’s and Léon Anne’s Theorems at cut-the-knot.org Categories: Theorems about quadrilaterals and circles

Si vous voulez connaître d'autres articles similaires à Newton's theorem (quadrilateral) vous pouvez visiter la catégorie Theorems about quadrilaterals and circles.

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