Tetrahedral bipyramid

Orthogonal projection.
4 red vertices and 6 blue edges make central tetrahedron. 2 yellow vertices are bipyramid apexes.
Type Polyhedral bipyramid
Schläfli symbol {3,3} + { }
dt{2,3,3}
Coxeter diagram
Cells 8 {3,3} (4+4)
Faces 16 {3} (4+6+6)
Edges 14 (6+4+4)
Vertices 6 (4+2)
Dual Tetrahedral prism
Symmetry group [2,3,3], order 48
Properties convex, regular-faced, Blind polytope

In 4-dimensional geometry, the tetrahedral bipyramid is the direct sum of a tetrahedron and a segment, {3,3} + { }. Each face of a central tetrahedron is attached with two tetrahedra, creating 8 tetrahedral cells, 16 triangular faces, 14 edges, and 6 vertices,.[1] A tetrahedral bipyramid can be seen as two tetrahedral pyramids augmented together at their base.

It is the dual of a tetrahedral prism, , so it can also be given a Coxeter-Dynkin diagram, , and both have Coxeter notation symmetry [2,3,3], order 48.

Being convex with all regular cells (tetrahedra) means that it is a Blind polytope.

This bipyramid exists as the cells of the dual of the uniform rectified 5-simplex, and rectified 5-cube or the dual of any uniform 5-polytope with a tetrahedral prism vertex figure. And, as well, it exists as the cells of the dual to the rectified 24-cell honeycomb.

See also

References

  • Klitzing, Richard, "Johnson solids, Blind polytopes, and CRFs", Polytopes, retrieved 2022-11-14
This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.