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.
There are several possible answers: A triangle (or other polygon) on a spherical surface. A plane regular polygon with 5 or more sides. A shape comprising an obtuse angle and an arc, for example a slice of a pizza that is more than a quarter.
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First off it is spelled as follows tessellation a tessellation or tiling of a surface plane is a collection of objects or figures that fills the surface with no overlaps and no gaps. One may also speak of tessellations of the parts of the plane or of other surfaces. Usually you see tessellations with mosiacs and collages and such where there is no remainder of space in the backround.
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If it also covers a surface without overlap, then it is a regular tessellation.
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No, a regular tessellation uses multiple copies of only one regular polygon.
No. Because tessellation is about using lost (infinitely many) copies of a polygon to cover a surface, One polygon does not comprise a 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.
Tessellation involves using copies of a shape, usually a polygon, to cover a plane surface without gaps or overlaps. The study of plane surfaces and regular shapes are part of geometry and, therefore, of mathematics.
No. Four regular polygons cannot be combined for this purpose.
It is a way of covering a surface using multiple copies of one shape (usually a polygon), without gaps or overlaps. The resulting surface is therefore smooth.