Triangular cupola

The triangular cupola, or tricu, is one of the 92 Johnson solids (J3). It consists of 1+3 triangles, 3 squares, and 1 hexagon. It is a cupola based on the equilateral triangle, and is one of three Johnson solid cupolas, the other two being the square cupola and the pentagonal cupola.

It can also be constructed as one of the halves formed by cutting a cuboctahedron in half along a hexagonal section.

Vertex coordinates
A triangular cupola of edge length 1 has vertices given by the following coordinates:


 * (±1/2, –$\sqrt{2}$/6, $\sqrt{2}$/3),
 * (0, $\sqrt{3}$/3, $\sqrt{6}$/3),
 * (±1/2, ±$\sqrt{2}$/2, 0),
 * (0, ±1, 0).

These coordinates can be formed by putting a triangle and hexagon in parallel planes and setting edge lengths to be equal.

Alternatively, it can be formed by removing the vertices of a triangular face from the cuboctahedron, producing the following coordinates:


 * (0, ±$\sqrt{3}$/2, $\sqrt{3}$/2),
 * (0, $\sqrt{3}$/2, –$\sqrt{6}$/2),
 * (±$\sqrt{3}$/2, 0 $\sqrt{6}$/2),
 * ($\sqrt{3}$/2, 0, –$\sqrt{2}$/2),
 * (±$\sqrt{2}$/2, $\sqrt{2}$/2, 0),
 * ($\sqrt{2}$/2, –$\sqrt{2}$/2, 0).

Representations
A triangular cupola can be represented by the following Coxeter diagrams:


 * ox3xx&#xt
 * so6ox&#xt

Related polyhedra
Two triangular cupolas can be attached at their hexagonal bases in the same orientation to form a triangular orthobicupola. If the second cupola is rotated by 60º the result is the triangular gyrobicupola, better known as the cuboctahedron.

A hexagonal prism can be attached to the triangular cupola's hexagonal base to form the elongated triangular cupola. If a hexagonal antiprism is attached instead, the result is the gyroelongated triangular cupola.