Rectified 10-orthoplexes
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10-orthoplex | Rectified 10-orthoplex | Birectified 10-orthoplex | Trirectified 10-orthoplex |
Quadirectified 10-orthoplex | Quadrirectified 10-cube | Trirectified 10-cube | Birectified 10-cube |
Rectified 10-cube | 10-cube | ||
Orthogonal projections in A10 Coxeter plane |
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In ten-dimensional geometry, a rectified 10-orthoplex is a convex uniform 10-polytope, being a rectification of the regular 10-orthoplex.
There are 10 rectifications of the 10-orthoplex. Vertices of the rectified 10-orthoplex are located at the edge-centers of the 9-orthoplex. Vertices of the birectified 10-orthoplex are located in the triangular face centers of the 10-orthoplex. Vertices of the trirectified 10-orthoplex are located in the tetrahedral cell centers of the 10-orthoplex.
These polytopes are part of a family 1023 uniform 10-polytopes with BC10 symmetry.
Rectified 10-orthoplex
[edit]Rectified 10-orthoplex | |
---|---|
Type | uniform 10-polytope |
Schläfli symbol | t1{38,4} |
Coxeter-Dynkin diagrams | |
7-faces | |
6-faces | |
5-faces | |
4-faces | |
Cells | |
Faces | |
Edges | 2880 |
Vertices | 180 |
Vertex figure | 8-orthoplex prism |
Petrie polygon | icosagon |
Coxeter groups | C10, [4,38] D10, [37,1,1] |
Properties | convex |
In ten-dimensional geometry, a rectified 10-orthoplex is a 10-polytope, being a rectification of the regular 10-orthoplex.
Rectified 10-orthoplex
[edit]The rectified 10-orthoplex is the vertex figure for the demidekeractic honeycomb.
- or
Alternate names
[edit]- rectified decacross (Acronym rake) (Jonathan Bowers)[1]
Construction
[edit]There are two Coxeter groups associated with the rectified 10-orthoplex, one with the C10 or [4,38] Coxeter group, and a lower symmetry with two copies of 9-orthoplex facets, alternating, with the D10 or [37,1,1] Coxeter group.
Cartesian coordinates
[edit]Cartesian coordinates for the vertices of a rectified 10-orthoplex, centered at the origin, edge length are all permutations of:
- (±1,±1,0,0,0,0,0,0,0,0)
Root vectors
[edit]Its 180 vertices represent the root vectors of the simple Lie group D10. The vertices can be seen in 3 hyperplanes, with the 45 vertices rectified 9-simplices facets on opposite sides, and 90 vertices of an expanded 9-simplex passing through the center. When combined with the 20 vertices of the 9-orthoplex, these vertices represent the 200 root vectors of the simple Lie group B10.
Images
[edit]B10 | B9 | B8 |
---|---|---|
[20] | [18] | [16] |
B7 | B6 | B5 |
[14] | [12] | [10] |
B4 | B3 | B2 |
[8] | [6] | [4] |
A9 | A5 | |
— | — | |
[10] | [6] | |
A7 | A3 | |
— | — | |
[8] | [4] |
Birectified 10-orthoplex
[edit]Birectified 10-orthoplex | |
---|---|
Type | uniform 10-polytope |
Schläfli symbol | t2{38,4} |
Coxeter-Dynkin diagrams | |
7-faces | |
6-faces | |
5-faces | |
4-faces | |
Cells | |
Faces | |
Edges | |
Vertices | |
Vertex figure | |
Coxeter groups | C10, [4,38] D10, [37,1,1] |
Properties | convex |
Alternate names
[edit]- Birectified decacross
Cartesian coordinates
[edit]Cartesian coordinates for the vertices of a birectified 10-orthoplex, centered at the origin, edge length are all permutations of:
- (±1,±1,±1,0,0,0,0,0,0,0)
Images
[edit]B10 | B9 | B8 |
---|---|---|
[20] | [18] | [16] |
B7 | B6 | B5 |
[14] | [12] | [10] |
B4 | B3 | B2 |
[8] | [6] | [4] |
A9 | A5 | |
— | — | |
[10] | [6] | |
A7 | A3 | |
— | — | |
[8] | [4] |
Trirectified 10-orthoplex
[edit]Trirectified 10-orthoplex | |
---|---|
Type | uniform 10-polytope |
Schläfli symbol | t3{38,4} |
Coxeter-Dynkin diagrams | |
7-faces | |
6-faces | |
5-faces | |
4-faces | |
Cells | |
Faces | |
Edges | |
Vertices | |
Vertex figure | |
Coxeter groups | C10, [4,38] D10, [37,1,1] |
Properties | convex |
Alternate names
[edit]- Trirectified decacross (Acronym trake) (Jonathan Bowers)[2]
Cartesian coordinates
[edit]Cartesian coordinates for the vertices of a trirectified 10-orthoplex, centered at the origin, edge length are all permutations of:
- (±1,±1,±1,±1,0,0,0,0,0,0)
Images
[edit]B10 | B9 | B8 |
---|---|---|
[20] | [18] | [16] |
B7 | B6 | B5 |
[14] | [12] | [10] |
B4 | B3 | B2 |
[8] | [6] | [4] |
A9 | A5 | |
— | — | |
[10] | [6] | |
A7 | A3 | |
— | — | |
[8] | [4] |
Quadrirectified 10-orthoplex
[edit]Quadrirectified 10-orthoplex | |
---|---|
Type | uniform 10-polytope |
Schläfli symbol | t4{38,4} |
Coxeter-Dynkin diagrams | |
7-faces | |
6-faces | |
5-faces | |
4-faces | |
Cells | |
Faces | |
Edges | |
Vertices | |
Vertex figure | |
Coxeter groups | C10, [4,38] D10, [37,1,1] |
Properties | convex |
Alternate names
[edit]- Quadrirectified decacross (Acronym brake) (Jonthan Bowers)[3]
Cartesian coordinates
[edit]Cartesian coordinates for the vertices of a quadrirectified 10-orthoplex, centered at the origin, edge length are all permutations of:
- (±1,±1,±1,±1,±1,0,0,0,0,0)
Images
[edit]B10 | B9 | B8 |
---|---|---|
[20] | [18] | [16] |
B7 | B6 | B5 |
[14] | [12] | [10] |
B4 | B3 | B2 |
[8] | [6] | [4] |
A9 | A5 | |
— | — | |
[10] | [6] | |
A7 | A3 | |
— | — | |
[8] | [4] |
Notes
[edit]References
[edit]- H.S.M. Coxeter:
- H.S.M. Coxeter, Regular Polytopes, 3rd Edition, Dover New York, 1973
- Kaleidoscopes: Selected Writings of H.S.M. Coxeter, edited by F. Arthur Sherk, Peter McMullen, Anthony C. Thompson, Asia Ivic Weiss, Wiley-Interscience Publication, 1995, ISBN 978-0-471-01003-6 [1]
- (Paper 22) H.S.M. Coxeter, Regular and Semi Regular Polytopes I, [Math. Zeit. 46 (1940) 380-407, MR 2,10]
- (Paper 23) H.S.M. Coxeter, Regular and Semi-Regular Polytopes II, [Math. Zeit. 188 (1985) 559-591]
- (Paper 24) H.S.M. Coxeter, Regular and Semi-Regular Polytopes III, [Math. Zeit. 200 (1988) 3-45]
- Norman Johnson Uniform Polytopes, Manuscript (1991)
- N.W. Johnson: The Theory of Uniform Polytopes and Honeycombs, Ph.D. (1966)
- Klitzing, Richard. "10D uniform polytopes (polyxenna)". x3o3o3o3o3o3o3o3o4o - ka, o3x3o3o3o3o3o3o3o4o - rake, o3o3x3o3o3o3o3o3o4o - brake, o3o3o3x3o3o3o3o3o4o - trake, o3o3o3o3x3o3o3o3o4o - terake, o3o3o3o3o3x3o3o3o4o - terade, o3o3o3o3o3o3x3o3o4o - trade, o3o3o3o3o3o3o3x3o4o - brade, o3o3o3o3o3o3o3o3x4o - rade, o3o3o3o3o3o3o3o3o4x - deker