57-cell
From Infogalactic: the planetary knowledge core
| 57-cell | |
|---|---|
 Some drawings of the Perkel graph. |
|
| Type | Abstract regular 4-polytope |
| Cells | 57 hemi-dodecahedra |
| Faces | 171 {5} |
| Edges | 171 |
| Vertices | 57 |
| Vertex figure | (hemi-icosahedron) |
| Schläfli symbol | {5,3,5} |
| Symmetry group | L2(19) (order 3420) |
| Dual | self-dual |
| Properties | Regular |
In mathematics, the 57-cell (pentacontakaiheptachoron) is a self-dual abstract regular 4-polytope (four-dimensional polytope). Its 57 cells are hemi-dodecahedra. It also has 57 vertices, 171 edges and 171 two-dimensional faces. Its symmetry group is the projective special linear group L2(19), so it has 3420 symmetries.
It has Schläfli symbol {5,3,5} with 5 hemi-dodecahedral cells around each edge. It was discovered by H. S. M. Coxeter (1982).
Perkel graph
The vertices and edges form the Perkel graph, the unique distance-regular graph with intersection array {6,5,2;1,1,3}, discovered by Manley Perkel (1979).
See also
- 11-cell – abstract regular polytope with hemi-icosahedral cells.
- 120-cell – regular 4-polytope with dodecahedral cells
- Order-5 dodecahedral honeycomb - regular hyperbolic honeycomb with same Schläfli symbol {5,3,5}. (The 57-cell can be considered as being derived from it by identification of appropriate elements.)
References
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External links
- Siggraph 2007: 11-cell and 57-cell by Carlo Sequin
- Weisstein, Eric W., "Perkel graph", MathWorld.
- Perkel graph
- Richard Klitzing, Explanations, Grünbaum-Coxeter Polytopes
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