Infinite.
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.
A monogon (more commonly called the Henagon) is a one-sided polygon. In Euclidean Geometry, (on a flat plane) it is considered a impossible because lines continue on forever. In Spherical Geometry, [on a spherical (circular) plane] a finite monogon can be drawn by placing a placing a single vertex on a circle because circles are basically a polygon with infinite sides.
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."
It is finite.
'Finite' is the antonym of 'infinite'. 'Infinite' literally means 'not finite'.
finite
Finite.
A set which containing $and pi are the end blocks are the finite and without these are infinite
not-infinite
A finite set has a finite number of elements, an infinite set has infinitely many.
A set which containing $and pi are the end blocks are the finite and without these are infinite
Infinite means never ending while finite means it ends.
The way I understand it, a finite set can not be an infinite set, because if it were an infinite set, then it would not be a finite set, and the original premise would be violated.
infinite is never ending while finite means it canend
infinite means never ending whilst finite means it has a end