A rectangular prism has 3 pairs of congruent faces
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
There are three pairs of faces of a rectangular prism, each pair has the same dimensions.
a rectangular prism has 4 congruent faces. that is what i think so im not sure if it right but im pretty sure it is. * * * * * A rectangular prism has 3 pairs of congruent faces. If you think of a smooth brick, the following three pairs are congruent: Top and Bottom, Left and Right, Front and Back.
A rectangular pyramid has 5 faces, 8 edges and 5 vertices. And it is not vertices's or vertices's's.
rectangular prism
it is a rectangular prism...
A cuboid seems to fit the given description because it has 6 faces, 12 edges and 8 vertices.
rectangular prism.It has 6 faces and 12 edges. The 2 bases are congruent to each other, and the remaining 4 faces are congruent to each other, but the bases are not necessarily congruent to the other faces.
Topographically they are equivalent.They all have six rectangular faces consisting of three congruent and parallel pairs, there are 12 edges consisting of three sets of congruent and parallel quartets. The edges meet, in threes and at right angles, in eight vertices.Topographically they are equivalent.They all have six rectangular faces consisting of three congruent and parallel pairs, there are 12 edges consisting of three sets of congruent and parallel quartets. The edges meet, in threes and at right angles, in eight vertices.Topographically they are equivalent.They all have six rectangular faces consisting of three congruent and parallel pairs, there are 12 edges consisting of three sets of congruent and parallel quartets. The edges meet, in threes and at right angles, in eight vertices.Topographically they are equivalent.They all have six rectangular faces consisting of three congruent and parallel pairs, there are 12 edges consisting of three sets of congruent and parallel quartets. The edges meet, in threes and at right angles, in eight vertices.
A rectangular prism has 3 pairs of congruent faces
faces ,edges and vertices of a rectangular prism
It has two congruent hexagonal faces that are parallel to one another and six rectangular faces joining these together. A hexagonal prism has 8 faces, 12 vertices and 18 edges.It has two congruent hexagonal faces that are parallel to one another and six rectangular faces joining these together. A hexagonal prism has 8 faces, 12 vertices and 18 edges.It has two congruent hexagonal faces that are parallel to one another and six rectangular faces joining these together. A hexagonal prism has 8 faces, 12 vertices and 18 edges.It has two congruent hexagonal faces that are parallel to one another and six rectangular faces joining these together. A hexagonal prism has 8 faces, 12 vertices and 18 edges.
Look at the prism. If all faces are rectangular (or square) then so are the bases. Otherwise they are the two congruent parallel faces that are not rectangular. Look at the prism. If all faces are rectangular (or square) then so are the bases. Otherwise they are the two congruent parallel faces that are not rectangular. Look at the prism. If all faces are rectangular (or square) then so are the bases. Otherwise they are the two congruent parallel faces that are not rectangular. Look at the prism. If all faces are rectangular (or square) then so are the bases. Otherwise they are the two congruent parallel faces that are not rectangular.
A rectangular prism with 6 congruent faces is called a cube.
In a prism, the number of faces, vertices, and edges are related by the formula F + V - E = 2, known as Euler's formula. For a prism, which has two parallel and congruent faces connected by rectangular faces, the number of faces (F) is equal to the sum of the number of rectangular faces and the two congruent bases. The number of vertices (V) is equal to the number of corners where edges meet, and the number of edges (E) is equal to the sum of the edges around the bases and the edges connecting the corresponding vertices of the bases.
A box, also known as a rectangular prism, has 6 faces, 12 edges, and 8 vertices. The faces of a box are all rectangles, with 3 pairs of congruent faces. The edges are where the faces meet, and there are 4 edges meeting at each vertex.