Truncated dodecahedron

The truncated dodecahedron, or tid, is one of the 13 Archimedean solids. It consists of 20 triangles and 12 decagons. Each vertex joins one triangle and two decagons. As the name suggests, it can be obtained by truncation of the dodecahedron.

Vertex coordinates
A truncated dodecahedron of edge length 1 has vertex coordinates given by all even permutations of:
 * (0, ±1/2, ±(5+3$\sqrt{(37+15√5)/8}$)/4),
 * (±1/2, ±(3+$\sqrt{5}$)/4, ±(3+$\sqrt{(5+√5)/2}$)/2),
 * (±(3+$\sqrt{(5+√5)/2}$)/4, ±(1+$\sqrt{(5+2√5)/15}$)/2, ±(2+$\sqrt{5}$)/2).

Related polyhedra
The truncated dodecahedron can be augmented by attaching pentagonal cupolae onto its decagonal faces, with the squares of the pentagonal cupola adjacent to the triangles of the truncated dodecahedron. This leads to several Johnson solids:


 * Augmented truncated dodecahedron – One decagon is augmented.
 * Parabiaugmented truncated dodecahedron – Two ooposite decagons are augmented.
 * Metabiaugmented truncated dodecahedron – Two non-adjacent, non-opposite decagons are augmented.
 * Triaugmented truncated dodecahedron – Three mutually non-adjacent decagons are augmented.

If the cupolae are gyrated so that the triangular faces of both solids are adjacent, these faces turn out coplanar, so they don't create any new Johnson solids.