A rectangular parallelepiped. A cuboid is a special case.

A rectangular parallelepiped. A cuboid is a special case.

A rectangular parallelepiped. A cuboid is a special case.

A rectangular parallelepiped. A cuboid is a special case.

The volume of a tetrahedron is one-sixth of the volume of a parallelepiped because a tetrahedron can be thought of as a pyramid with a triangular base. When a tetrahedron is inscribed within a parallelepiped, it occupies one-sixth of the space defined by the parallelepiped's volume. Since a parallelepiped can be divided into six such tetrahedra, this means the volume of the tetrahedron is 1/6 of the parallelepiped. However, if the parallelepiped is defined by its full height and includes the whole base area, the tetrahedron's volume is one-sixteenth of the total volume when considering the full dimensions of the parallelepiped.

rhombic prism, rhomboid, parallelepiped

ffew

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

It is a parallelepiped.

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

It is a parallelepiped.

A prism whose bases are parallelogram

Rectangular parallelepiped

A 3d parallelogram is called a "Parallelepiped"

Parallelepiped.

A parallelepiped.

A prism whose bases are parallelogram

cube

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A hexahedron of which a parallelepiped is a special case.

A cuboid is a special case of a parallelepiped and a cube is an even more specific example.

A 3d parallelogram is called a "Parallelepiped"

rhomboid or parallelepiped

rectangular parallelepiped.. :)

A parallelepiped.

A rhombohedron or parallelepiped.

A parallelepiped has 6 faces.

A parallelepiped is a three-dimensional geometric shape formed by six parallelogram faces. It is a type of polyhedron where opposite faces are parallel and congruent. Common examples include cubes and rectangular prisms, where the angles between the faces can vary. The volume of a parallelepiped can be calculated using the scalar triple product of its defining vectors.

A 3-dimensional parallelogram is a parallelepiped .

a parallel piped figure has 6 faces

It is the point of intersection of its three main diagonals.

right parallelepiped

The likely word is "cuboid" (cubelike 3D shape, or a parallelepiped).

A triangular bipryramid (two triangular pyramids stuck together on one face), a parallelepiped (like a squished cuboid), a pentagonal pyramid.

A cube or rectangular prism are special cases of a parallelepiped.

It is shaped like cuboid prism

A cuboid, a parallelepiped.

A hexahedron such as a parallelepiped, a cuboid or a cube.

In its most general form, a parallelepiped.

The area of a parallelepiped refers to its surface area, which can be calculated by finding the sum of the areas of its six rectangular faces. If the parallelepiped has edge lengths (a), (b), and (c), and the angles between them are known, the surface area (S) can be calculated using the formula: (S = 2(ab + ac + bc)). Alternatively, if the parallelepiped is defined by vectors, the surface area can also be determined through vector cross products.

> 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.

length times with times height

A parellelepiped (pronounced parellel pie ped) is any shape with 6 faces and 12 edges.

A cuboid, also called a rectangular parallelepiped, is a parallelepiped of which all faces are rectangular.

A cube is a cuboid with square faces.

A rhombohedron is a parallelepiped with all rhombic faces.

A trigonal trapezohedron is a rhombohedron with congruent rhombic faces.

http://commons.wikimedia.org/wiki/File:Parallelepipede.png

> 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.

A 3-d shape, all of whose faces are rhombi, is called a parallelepiped.

A hexahedron. A parallelepiped, cuboid, quadrilateral frustum are examples.

A rectangular parallelepiped, also called a right-angled block, is more commonly known as a cuboid.

it is nothing but a cuboid

* * * * *

It could be a rhombohedron or a parallelepiped - neither of which are cuboids.

A cube or a cuboid would fit the given description

Assuming that a 3D parallelogram is a parallelepiped, it must have three sets of quartets of parallel lines.

A hexahedron of which a parallelepiped is a special case.

A cuboid is a special case of a parallelepiped and a cube is an even more specific example. All the faces are quadrilaterals.

A rectangular dipyramid (two rectangular pyramids stuck together along their rectangular faces) is another example. All faces are triangular.

A cube !

Yes, but also a cuboid, rhombohedron, parallelepiped are other examples.

One possible pair is a cube and a parallelepiped.

Vertices and corners are the same thing!

A six sided polyhedron is a hexahedron. This may be a triangle based dipyramid, a pentagonal pyramid of a variant of a parallelepiped.