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No. Four regular polygons cannot be combined for this purpose.
If it also covers a surface without overlap, then it is a regular tessellation.
I think it's only 3: triangle, square and hexagon.
An [equilateral] triangle, square and hexagon are the only regular polygons which, by themselves, will tile a surface.
No. The interior angle of a regular pentagon is 108 degrees, the interior angle of a regular hexagon is 120 degrees. So, at the vertex, the three polygons will have angles adding up to 108+120+120 = 348 degrees. To tessellate, or cover the surface, they must add to 360 degrees.
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No. Four regular polygons cannot be combined for this purpose.
No, a regular tessellation uses multiple copies of only one regular polygon.
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It is a regular tessellation.
A semi-regular tessellation is covering a plane surface with two or more different regular polygons, all of which have sides of the same length. In addition, each polygon vertex is surrounded by polygons in the same order.
A semi-regular tessellation is covering a plane surface with two or more different regular polygons, all of which have sides of the same length. In addition, each polygon vertex is surrounded by polygons in the same order.
If it also covers a surface without overlap, then it is a regular tessellation.
I think it's only 3: triangle, square and hexagon.
Regular polygons with 5, 7 or more sides.