Affine-regular polygon

In geometry, an affine-regular polygon or affinely regular polygon is a polygon that is related to a regular polygon by an affine transformation. Affine transformations include translations, uniform and non-uniform scaling, reflections, rotations, shears, and other similarities and some, but not all linear maps.

Examples

All triangles are affine-regular. In other words, all triangles can be generated by applying affine transformations to an equilateral triangle. A quadrilateral is affine-regular if and only if it is a parallelogram, which includes rectangles and rhombuses as well as squares. In fact, affine-regular polygons may be considered a natural generalization of parallelograms.^[1]

Properties

Many properties of regular polygons are invariant under affine transformations, and affine-regular polygons share the same properties. For instance, an affine-regular quadrilateral can be equidissected into $m$ equal-area triangles if and only if $m$ is even, by affine invariance of equidissection and Monsky's theorem on equidissections of squares.^[2] More generally an $n$ -gon with $n>4$ may be equidissected into $m$ equal-area triangles if and only if $m$ is a multiple of $n$ .^[3]

References

↑ Coxeter, H. S. M. (December 1992), "Affine regularity", Abhandlungen aus dem Mathematischen Seminar der Universität Hamburg, 62 (1): 249–253, doi:10.1007/BF02941630 . See in particular p. 249.
↑ Monsky, P. (1970), "On Dividing a Square into Triangles", The American Mathematical Monthly, 77 (2): 161–164, doi:10.2307/2317329, MR 0252233 .
↑ Kasimatis, Elaine A. (December 1989), "Dissections of regular polygons into triangles of equal areas", Discrete & Computational Geometry, 4 (1): 375–381, doi:10.1007/BF02187738, Zbl 0675.52005 .

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