Prismatic compound of antiprisms
Compound of n p/q-gonal antiprisms | |||
---|---|---|---|
n=2
| |||
Type | Uniform compound | ||
Index |
| ||
Polyhedra | n p/q-gonal antiprisms | ||
Schläfli symbols (n=2) | ß{2,2p/q} ßr{2,p/q} | ||
Coxeter diagrams (n=2) | |||
Faces | 2n {p/q} (unless p/q=2), 2np triangles | ||
Edges | 4np | ||
Vertices | 2np | ||
Symmetry group |
| ||
Subgroup restricting to one constituent |
|
In geometry, a prismatic compound of antiprism is a category of uniform polyhedron compound. Each member of this infinite family of uniform polyhedron compounds is a symmetric arrangement of antiprisms sharing a common axis of rotational symmetry.
Infinite family
[edit]This infinite family can be enumerated as follows:
- For each positive integer n≥1 and for each rational number p/q>3/2 (expressed with p and q coprime), there occurs the compound of n p/q-gonal antiprisms, with symmetry group:
- Dnpd if nq is odd
- Dnph if nq is even
Where p/q=2, the component is the tetrahedron (or dyadic antiprism). In this case, if n=2 then the compound is the stella octangula, with higher symmetry (Oh).
Compounds of two antiprisms
[edit]Compounds of two n-antiprisms share their vertices with a 2n-prism, and exist as two alternated set of vertices.
Cartesian coordinates for the vertices of an antiprism with n-gonal bases and isosceles triangles are
with k ranging from 0 to 2n−1; if the triangles are equilateral,
2 digonal antiprisms (tetrahedra) | 2 triangular antiprisms (octahedra) | 2 square antiprisms | 2 hexagonal antiprisms | 2 pentagrammic crossed antiprism |
Compound of two trapezohedra (duals)
[edit]The duals of the prismatic compound of antiprisms are compounds of trapezohedra:
Two cubes (trigonal trapezohedra) |
Compound of three antiprisms
[edit]For compounds of three digonal antiprisms, they are rotated 60 degrees, while three triangular antiprisms are rotated 40 degrees.
Three tetrahedra | Three octahedra |
---|
References
[edit]- Skilling, John (1976), "Uniform Compounds of Uniform Polyhedra", Mathematical Proceedings of the Cambridge Philosophical Society, 79 (3): 447–457, doi:10.1017/S0305004100052440, MR 0397554.