A regular parallelepiped is a cube. A cube has 6 faces, 8 vertices and 12 edges.
A parallelepiped. A cube is a special case of a parallelepiped.
There are infinitely many sets. For example, a cube, cuboid, parallelepiped, rhombohedron and their less regular counterparts all have 6 quadrilateral faces, 12 edges and 8 vertices. There are similar sets for polyhedra with a different number of faces.
An hexahedron which is topologically similar to a cube has 6 faces, 8 vertices, and 12 edges. A parallelepiped is just one possibility, a cuboid is a more special case and the regular version is the cube. But each member of this family has the required number of faces, edges and vertices..
> A parallelepiped. A special case of which would be a cube. Actually, any hexahedron topologically similar to a cube has 6 faces, 8 vertices, and 12 edges. A parallelepiped is just one possibility.
it is nothing but a cuboid * * * * * It could be a rhombohedron or a parallelepiped - neither of which are cuboids.
A parallelepiped. A cube is a special case of a parallelepiped.
A cuboid, a parallelepiped.
There are infinitely many sets. For example, a cube, cuboid, parallelepiped, rhombohedron and their less regular counterparts all have 6 quadrilateral faces, 12 edges and 8 vertices. There are similar sets for polyhedra with a different number of faces.
> Assuming the 8 refers to 8 vertices, the answer is a parallelepiped. Actually, any hexahedron topologically similar to a cube has 6 faces, 8 vertices, and 12 edges. A parallelepiped is just one possibility.
A rhombohedron, a parallelepiped are two.
A parallelepiped, of which a cube is a special case.
A hexahedron, also known as a parallelepiped.
An hexahedron which is topologically similar to a cube has 6 faces, 8 vertices, and 12 edges. A parallelepiped is just one possibility, a cuboid is a more special case and the regular version is the cube. But each member of this family has the required number of faces, edges and vertices..
There are 20 faces 30 edges and 12 vertices.
6 faces 8 vertices 12 edges
> A parallelepiped. A special case of which would be a cube. Actually, any hexahedron topologically similar to a cube has 6 faces, 8 vertices, and 12 edges. A parallelepiped is just one possibility.
it is nothing but a cuboid * * * * * It could be a rhombohedron or a parallelepiped - neither of which are cuboids.