List of B4 polytopes

Orthographic projections in the B4 Coxeter plane

Tesseract

16-cell

In 4-dimensional geometry, there are 15 uniform 4-polytopes with B4 symmetry. There are two regular forms, the tesseract, and 16-cell with 16 and 8 vertices respectively.

Visualizations

They can be visualized as symmetric orthographic projections in Coxeter planes of the B5 Coxeter group, and other subgroups.

Symmetric orthographic projections of these 32 polytopes can be made in the B5, B4, B3, B2, A3, Coxeter planes. Ak has [k+1] symmetry, and Bk has [2k] symmetry.

These 32 polytopes are each shown in these 5 symmetry planes, with vertices and edges drawn, and vertices colored by the number of overlapping vertices in each projective position.

The pictures are drawn as Schlegel diagram perspective projections, centered on the cell at pos. 3, with a consistent orientation, and the 16 cells at position 0 are shown solid, alternately colored.

# Name Coxeter plane projections Schlegel
diagrams
Net
B4
[8]
B3
[6]
B2
[4]
A3
[4]
Cube
centered
Tetrahedron
centered
10 8-cell or tesseract
= {4,3,3}
11 rectified 8-cell
= r{4,3,3}
12 16-cell
= {3,3,4}
13 truncated 8-cell
= t{4,3,3}
14 cantellated 8-cell
= rr{4,3,3}
15 runcinated 8-cell
(also runcinated 16-cell)
= t03{4,3,3}
16 bitruncated 8-cell
(also bitruncated 16-cell)
= 2t{4,3,3}
17 truncated 16-cell
= t{3,3,4}
18 cantitruncated 8-cell
= tr{3,3,4}
19 runcitruncated 8-cell
= t013{4,3,3}
20 runcitruncated 16-cell
= t013{3,3,4}
21 omnitruncated 8-cell
(also omnitruncated 16-cell)
= t0123{4,3,3}
# Name Coxeter plane projections Schlegel
diagrams
Net
F4
[12]
B4
[8]
B3
[6]
B2
[4]
A3
[4]
Cube
centered
Tetrahedron
centered
22 *rectified 16-cell
(Same as 24-cell)
=
r{3,3,4} = {3,4,3}
23 *cantellated 16-cell
(Same as rectified 24-cell)
=
rr{3,3,4} = r{3,4,3}
24 *cantitruncated 16-cell
(Same as truncated 24-cell)
=
tr{3,3,4} = t{3,4,3}
# Name Coxeter plane projections Schlegel
diagrams
Net
F4
[12]
B4
[8]
B3
[6]
B2
[4]
A3
[4]
Cube
centered
Tetrahedron
centered
31 alternated cantitruncated 16-cell
(Same as the snub 24-cell)
=
sr{3,3,4} = s{3,4,3}

Coordinates

The tesseractic family of 4-polytopes are given by the convex hulls of the base points listed in the following table, with all permutations of coordinates and sign taken. Each base point generates a distinct uniform 4-polytopes. All coordinates correspond with uniform 4-polytopes of edge length 2.

Coordinates for uniform 4-polytopes in Tesseract/16-cell family
# Base point Name Coxeter diagram Vertices
12 (0,0,0,1)√2 16-cell 824-34!/3!
10 (1,1,1,1) Tesseract 16244!/4!
22 (0,0,1,1)√2 Rectified 16-cell (24-cell) 2424-24!/(2!2!)
11 (0,1,1,1)√2 Rectified tesseract 32244!/(3!2!)
17 (0,0,1,2)√2 Truncated 16-cell 4824-24!/2!
15 (1,1,1,1) + (0,0,0,1)√2 Runcinated tesseract 64244!/3!
13 (1,1,1,1) + (0,1,1,1)√2 Truncated tesseract 64244!/3!
23 (0,1,1,2)√2 Cantellated 16-cell (rectified 24-cell) 96244!/(2!2!)
16 (0,1,2,2)√2 Bitruncated 16-cell 96244!/(2!2!)
14 (1,1,1,1) + (0,0,1,1)√2 Cantellated tesseract 96244!/(2!2!)
24 (0,1,2,3)√2 cantitruncated 16-cell (truncated 24-cell) 192244!/2!
20 (1,1,1,1) + (0,0,1,2)√2 Runcitruncated 16-cell 192244!/2!
19 (1,1,1,1) + (0,1,1,2)√2 Runcitruncated tesseract 192244!/2!
18 (1,1,1,1) + (0,1,2,2)√2 Cantitruncated tesseract 192244!/2!
21 (1,1,1,1) + (0,1,2,3)√2 Omnitruncated 16-cell 384244!

References

    External links

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