A dodecahedron's faces can be considered congruent of each other. Each face of the twelve-sided Platonic solid is a perfect pentacle, each angle at 72 degrees, each side equal with the others. All sides of the 12 pentacles join to form the dodecahedron. The sides and angles must remain equal, thus proving more than congruence in its form.
As I write this, I'm looking at a dodecahedron on my desk. It is part of my dice set when I play Dungeons and Dragons.
I assume you mean a regular dodecahedron. A regular dodecahedron has twelve faces, each of which are regular* pentagons. *(all sides are congruent, all angles are congruent)
A polyhedron with 12 congruent faces is a dodecahedron.
A dodecahedron.
The Platonic Solids: Tetrahedron, cube, octahedron, dodecahedron and icosahedron.
There are infinitely many such polyhedra. A regular dodecahedron, for example.
No, the faces of a regular dodecahedron are pentagonal.No, the faces of a regular dodecahedron are pentagonal.No, the faces of a regular dodecahedron are pentagonal.No, the faces of a regular dodecahedron are pentagonal.
A regular dodecahedron does not but it is possible to have a dodecahedron with some triangular faces.
No, a dodecahedron doesn't have perpendicular faces
A dodecahedron has twelve pentagonal faces.
A dodecahedron is a polyhedron with 12 faces, each of which is a regular pentagon. In a dodecahedron, the faces are not parallel to each other. The planes of the faces intersect at various angles, giving the dodecahedron its unique shape and properties.
A dodecahedron has 0 parallel faces
dodecahedron has 12 triangles as faces.