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they are used by bees, its the only structure they use
Out of a hexagon, only a hexagon.If you have many hexagons, they can tessellate a plane, although the boundaries of this shape will be concave in parts.Out of a hexagon, only a hexagon.If you have many hexagons, they can tessellate a plane, although the boundaries of this shape will be concave in parts.Out of a hexagon, only a hexagon.If you have many hexagons, they can tessellate a plane, although the boundaries of this shape will be concave in parts.Out of a hexagon, only a hexagon.If you have many hexagons, they can tessellate a plane, although the boundaries of this shape will be concave in parts.
Only when they are equilateral triangles and regular hexagons that both will have sides of equal lengths.
Yes
cylinder or a sphere Actually, it is only a cylinder, not a sphere. A sphere has only 1 face and no edges.
Only equiangular and regular hexagons have six equal angles. Hexagons do not have to have six equal angles, and the only way a hexagon can have six equal angles if it is equiangular or regular.
Because the literal meaning of polyhedron means 'many faces' A sphere has only one face.
they are used by bees, its the only structure they use
Out of a hexagon, only a hexagon.If you have many hexagons, they can tessellate a plane, although the boundaries of this shape will be concave in parts.Out of a hexagon, only a hexagon.If you have many hexagons, they can tessellate a plane, although the boundaries of this shape will be concave in parts.Out of a hexagon, only a hexagon.If you have many hexagons, they can tessellate a plane, although the boundaries of this shape will be concave in parts.Out of a hexagon, only a hexagon.If you have many hexagons, they can tessellate a plane, although the boundaries of this shape will be concave in parts.
Only when they are equilateral triangles and regular hexagons that both will have sides of equal lengths.
It is called an unicellular microorganism. Protoctist are examples.
Yes
They aren't - only. If you only used hexagons, you wouldn't be able to make them into a ball. Sticking only hexagons together would give you a flat piece of fabric. To get a ball shape, you use 12 pentagons, and 20 hexagons, with the same length sides. That combination is what allows you to make something nearly perfectly round out of bits that are actually flat.
The sphere.
There is only one edge on a sphere.
a sphere
A sphere has only one face,