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A regular parallelepiped is a cube. A cube has 6 faces, 8 vertices and 12 edges.

Q: How many faces vertices and edges does a Regular parallelepiped have?

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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.

Related questions

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.

There are 20 faces 30 edges and 12 vertices.

6 faces 8 vertices 12 edges

A parallelepiped, of which a cube is a special case.

A rhombohedron, a parallelepiped are two.

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..

> 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.