| Acronym | sirsid |
| TOCID symbol | s*IID* |
| Name |
small (inverted) retrosnub icosicosidodecahedron, retrosnub disicosidodecahedron, yog sothoth |
| VRML |
|
| Circumradius | sqrt[13+3 sqrt(5)-sqrt[102+46 sqrt(5)]]/4 = 0.580695 |
| Coordinates |
|
| Vertex figure | [5/3,35] |
| Colonel of regiment | (is itself not locally convex, but no other uniform polyhedral members) |
| Face vector | 60, 180, 112 |
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External links |
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As abstract polytope sirsid is isomorphic to seside, thereby replacing retrograde icosahedral triangles by prograde ones. – As such sirsid is a lieutenant.
As mere alternated faceting the 2{3}-compound is regular, for sure. It is by the afterwards to be applied step back to equally sized edges that those compounds become non-regular.
Incidence matrix according to Dynkin symbol
s
3/2 / \ 3/2
s---s
5/2
s3/2s3/2s5/2*a
demi( . . . ) | 60 | 2 2 2 | 1 1 1 3
-----------------------+----+----------+------------
sefa( s3/2s . ) | 2 | 60 * * | 1 0 0 1
sefa( s . s5/2*a ) | 2 | * 60 * | 0 1 0 1
sefa( . s3/2s ) | 2 | * * 60 | 0 0 1 1
-----------------------+----+----------+------------
s3/2s . ♦ 3 | 3 0 0 | 20 * * *
s . s5/2*a ♦ 5 | 0 5 0 | * 12 * *
. s3/2s ♦ 3 | 0 0 3 | * * 20 *
sefa( s3/2s3/2s5/2*a ) | 3 | 1 1 1 | * * * 60
starting figure: x3/2x3/2x5/2*a
β3/2β5o
both( . . . ) | 60 | 4 2 | 2 1 3
----------------+----+--------+---------
sefa( s3/2s . ) | 2 | 120 * | 1 0 1
sefa( . β5o ) | 2 | * 60 | 0 1 1
----------------+----+--------+---------
both( s3/2s . ) ♦ 3 | 3 0 | 40 * * as coplanar pair of {3}
. β5o ♦ 5 | 0 5 | * 12 *
sefa( β3/2β5o ) | 3 | 2 1 | * * 60
starting figure: x3/2x5o
or
both( . . . ) | 60 | 4 2 | 2 1 3
----------------+----+--------+---------
sefa( s3/2s . ) | 2 | 120 * | 1 0 1
sefa( . β5o ) | 2 | * 60 | 0 1 1
----------------+----+--------+---------
both( s3/2s . ) ♦ 6 | 6 0 | 20 * * as non-regular compound of 2{3}
. β5o ♦ 5 | 0 5 | * 12 *
sefa( β3/2β5o ) | 3 | 2 1 | * * 60
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