Lattice equable quadrilaterals I: Parallelograms

L’Enseignement Mathématique Pub Date : 2020-06-13 DOI:10.4171/lem/1013
Christian Aebi, G. Cairns
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引用次数: 1

Abstract

. This paper studies equable parallelograms whose vertices lie on the integer lattice. Using Rosenberger’s Theorem on generalised Markov equations, we show that the g.c.d. of the side lengths of such parallelograms can only be 3, 4 or 5, and in each of these cases the set of parallelograms naturally forms an infinite tree all of whose vertices have degree 4, bar the root. The paper then focuses on what we call Pythagorean equable paral- lelograms. These are lattice equable parallelograms whose complement in a circumscribing rectangle consists of two Pythagorean triangles. We prove that for these parallelograms the shortest side can only be 3, 4, 5, 6 or 10, and there are five infinite families of such parallelograms, given by solutions to corresponding Pell-like equations.
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格等四边形I:平行四边形
. 研究顶点位于整数格上的相等平行四边形。利用广义马尔可夫方程上的罗森伯格定理,我们证明了这些平行四边形的边长的gc.d.只能是3,4或5,并且在每种情况下,平行四边形的集合自然形成了一个无限树,其所有顶点都是4度,除了根。然后,本文着重于我们所说的毕达哥拉斯相等平行四边形。这些是格等平行四边形,它们在一个外围矩形中的补由两个毕达哥拉斯三角形组成。我们证明了这些平行四边形的最短边只能是3、4、5、6或10,并且这些平行四边形有5个无限族,由相应的类佩尔方程的解给出。
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L’Enseignement Mathématique
L’Enseignement Mathématique
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