Truncated tetrahedron
In geometry, the truncated tetrahedron is an Archimedean solid. It has 4 regular hexagonal faces, 4 equilateral triangle faces, 12 vertices and 18 edges. It can be constructed by truncating all 4 vertices of a regular tetrahedron at one third of the original edge length.
A deeper truncation, removing a tetrahedron of half the original edge length from each vertex, is called rectification. The rectification of a tetrahedron produces an octahedron.
A truncated tetrahedron is the Goldberg polyhedron GIII, containing triangular and hexagonal faces.
A truncated tetrahedron can be called a cantic cube, with Coxeter diagram,, having half of the vertices of the cantellated cube,. There are two dual positions of this construction, and combining them creates the uniform compound of two truncated tetrahedra.
Area and volume
The area A and the volume V of a truncated tetrahedron of edge length a are:Densest Packing
The densest packing of the Archimedean truncated tetrahedron is believed to be Φ = , as reported by two independent groups using Monte Carlo methods. Although no mathematical proof exists that this is the best possible packing for the truncated tetrahedron, the high proximity to the unity and independency of the findings make it unlikely that an even denser packing is to be found. In fact, if the truncation of the corners is slightly smaller than that of an Archimedean truncated tetrahedron, this new shape can be used to completely fill space.Cartesian coordinates
for the 12 vertices of a truncated tetrahedron centered at the origin, with edge length √8, are all permutations of with an even number of minus signs:- ,,
- ,,
- ,,
- ,,
| Orthogonal projection showing Cartesian coordinates inside it bounding box:. | The hexagonal faces of the truncated tetrahedra can be divided into 6 coplanar equilateral triangles. The 4 new vertices have Cartesian coordinates: ,, ,. As solid this can represent a 3D dissection making 4 red octahedra and 6 yellow tetrahedra. | The set of vertex permutations with an odd number of minus signs forms a complementary truncated tetrahedron, and combined they form a uniform compound polyhedron. |
Another simple construction exists in 4-space as cells of the truncated 16-cell, with vertices as coordinate permutation of:
Orthogonal projection
Spherical tiling
The truncated tetrahedron can also be represented as a spherical tiling, and projected onto the plane via a stereographic projection. This projection is conformal, preserving angles but not areas or lengths. Straight lines on the sphere are projected as circular arcs on the plane.Friauf polyhedron
A lower symmetry version of the truncated tetrahedron is called a Friauf polyhedron in crystals such as complex metallic alloys. This form fits 5 Friauf polyhedra around an axis, giving a 72-degree dihedral angle on a subset of 6-6 edges. It is named after J. B. Friauf and his 1927 paper "The crystal structure of the intermetallic compound MgCu2".Uses
Giant truncated tetrahedra were used for the "Man the Explorer" and "Man the Producer" theme pavilions in Expo 67. They were made of massive girders of steel bolted together in a geometric lattice. The truncated tetrahedra were interconnected with lattice steel platforms. All of these buildings were demolished after the end of Expo 67, as they had not been built to withstand the severity of the Montreal weather over the years. Their only remnants are in the Montreal city archives, the Public Archives Of Canada and the photo collections of tourists of the times.The Tetraminx puzzle has a truncated tetrahedral shape. This puzzle shows a dissection of a truncated tetrahedron into 4 octahedra and 6 tetrahedra. It contains 4 central planes of rotations.