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In geometry, when quadrilaterals tessellate, they fill a finite or infinite space with no overlaps or gaps between shapes. All quadrilaterals tessellate because they can all be linked together side by side in some shape or form with no overlaps. In geometry, when quadrilaterals tessellate, they fill a finite or infinite space with no overlaps or gaps between shapes. All quadrilaterals tessellate because they can all be linked together side by side in some shape or form with no overlaps.
Oh, dude, a monogon is a shape with just one side. Yeah, like a single line segment pretending to be a polygon. It's like the loner of the geometry world, hanging out all by itself with no sides to chat with.
A line segment would define the given description.
"The Diamond Theorem" -- see below -- is described as "... finite projective geometry," showing the number of permutations possible in "... the four-diamond figure as a 4x4 array of two-colour, diagnnally-divided squares."