Expansion (Geometry) Information (Expansion Geometry, Regular) @ Compaw.com

Expansion (Geometry) Information

In geometry, expansion is a polytope operation where facets are separated and moved radially apart, and new facets are formed at separated elements (vertices, edges, etc). Equivalently this operation can be imagined by keeping facets in the same position but reducing their size.

According to Coxeter, this multidimensional term was defined by Alicia Boole Stott^[1] for creating new polytopes, specifically starting from regular polytopes to construct new uniform polytopes.

The expansion operation is symmetric with respect to a regular polytope and its dual. The resulting figure contains the facets of both the regular and its dual, along with various prismatic facets filling the gaps created between intermediate dimensional elements.

It has somewhat different meanings by dimension. In a Wythoff construction, an expansion is generated by reflections from the first and last mirrors.

By dimension:

A regular {p} polygon expands into a regular 2n-gon.
- The operation is identical to truncation for polygons, t_0,1{p} and has Coxeter-Dynkin diagram .
A regular {p,q} polyhedron (3-polytope) expands into a polyhedron with vertex figure p.4.q.4.
- This operation for polyhedra is also called cantellation, t_0,2{p,q}, and has Coxeter-Dynkin diagram .
  
  For example, a rhombicuboctahedron can be called an expanded cube, expanded octahedron, as well as a cantellated cube or cantellated octahedron.
A regular {p,q,r} polychoron (4-polytope) expands into a new polychoron with the original {p,q} cells, new cells {r,q} in place of the old vertices, p-gonal prisms in place of the old faces, and r-gonal prisms in place of the old edges.
- This operation for polychora is also called runcination, t_0,3{p,q,r}, and has Coxeter-Dynkin diagram .
Similarly a regular {p,q,r,s} polyteron (5-polytope) expands into a new polyteron with facets {p,q,r}, {s,r,q}, {p,q} hyperprisms, {s,r} hyperprisms, and {p}x{s} duoprisms.
- This operation is called sterication, t_0,4{p,q,r,s} and has Coxeter-Dynkin diagram .

The general operator for expansion of a regular n-polytope is t_0,n-1{p,q,r,...}. New regular facets are added at each vertex, and new prismatic polytopes are added at each divided edge, face, ... ridge, etc.

Notes

^ Coxeter, H. S. M., Regular Polytopes. 3rd edition, Dover, 1973, p. 123. ISBN 0-486-61480-8. p.210

References

Weisstein, Eric W., "Expansion" from MathWorld.
Norman Johnson Uniform Polytopes, Manuscript (1991)
- N.W. Johnson: The Theory of Uniform Polytopes and Honeycombs, Ph.D. Dissertation, University of Toronto, 1966

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