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5-5 duoprism

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Uniform 5-5 duoprism
5-5 duoprism.png
Schlegel diagram
Type Uniform duoprism
Schläfli symbol {5}×{5} = {5}2
Coxeter diagram CDel node 1.pngCDel 5.pngCDel node.pngCDel 2.pngCDel node 1.pngCDel 5.pngCDel node.png
Cells 10 pentagonal prisms
Faces 25 squares,
10 pentagons
Edges 50
Vertices 25
Vertex figure 55-duoprism verf.png
Tetragonal disphenoid
Symmetry [[5,2,5]] = [10,2+,10], order 200
Dual 5-5 duopyramid
Properties convex, vertex-uniform, facet-transitive

In geometry of 4 dimensions, a 5-5 duoprism or pentagonal duoprism is a polygonal duoprism, a 4-polytope resulting from the Cartesian product of two pentagons.

It has 25 vertices, 50 edges, 35 faces (25 squares, and 10 pentagons), in 10 pentagonal prism cells. It has Coxeter diagram CDel node 1.pngCDel 5.pngCDel node.pngCDel 2.pngCDel node 1.pngCDel 5.pngCDel node.png, and symmetry [[5,2,5]], order 200.

Images

5-5 duoprism ortho square.png
Orthogonal projection 		5-5 duoprism ortho-5.png
Orthogonal projection 		5,5 duoprism net.png
Net

Seen in a skew 2D orthogonal projection, 20 of the vertices are in two decagonal rings, while 5 project into the center. The 5-5 duoprism here has an identical 2D projective appearance to the 3D rhombic triacontahedron. In this projection, the square faces project into wide and narrow rhombi seen in penrose tiling.

5-5 duoprism ortho-Dih5.png Penrose-tiles.svg PenroseTilingFilled3.svg
5-5 duoprism Penrose tiling

Related complex polygons

The regular complex polytope 5{4}2, CDel 5node 1.pngCDel 4.pngCDel node.png, in [math]\displaystyle{ \mathbb{C}^2 }[/math] has a real representation as a 5-5 duoprism in 4-dimensional space. 5{4}2 has 25 vertices, and 10 5-edges. Its symmetry is 5[4]2, order 50. It also has a lower symmetry construction, CDel 5node 1.pngCDel 2.pngCDel 5node 1.png, or 5{}×5{}, with symmetry 5[2]5, order 25. This is the symmetry if the red and blue 5-edges are considered distinct.[1]

Complex polygon 5-4-2-stereographic3.png
Perspective projection of complex polygon, 5{4}2 has 25 vertices and 10 5-edges, shown here with 5 red and 5 blue pentagonal 5-edges. 		5-generalized-2-cube.svg
Orthogonal projection with coinciding central vertices 		5-generalized-2-cube skew.svg
Orthogonal projection, perspective offset to avoid overlapping elements

Related honeycombs and polytopes

The birectified order-5 120-cell, CDel node.pngCDel 5.pngCDel node.pngCDel 3.pngCDel node 1.pngCDel 3.pngCDel node.pngCDel 5.pngCDel node.png, constructed by all rectified 600-cells, a 5-5 duoprism vertex figure.

5-5 duopyramid

5-5 duopyramid
Type Uniform dual duopyramid
Schläfli symbol {5}+{5} = 2{5}
Coxeter diagram CDel node f1.pngCDel 5.pngCDel node.pngCDel 2x.pngCDel node f1.pngCDel 5.pngCDel node.png
Cells 25 tetragonal disphenoids
Faces 50 isosceles triangles
Edges 35 (25+10)
Vertices 10 (5+5)
Symmetry [[5,2,5]] = [10,2+,10], order 200
Dual 5-5 duoprism
Properties convex, vertex-uniform,
facet-transitive

The dual of a 5-5 duoprism is called a 5-5 duopyramid or pentagonal duopyramid. It has 25 tetragonal disphenoid cells, 50 triangular faces, 35 edges, and 10 vertices.

It can be seen in orthogonal projection as a regular 10-gon circle of vertices, divided into two pentagons, seen with colored vertices and edges:

orthogonal projections
5-5 duopyramid ortho.png
Two pentagons in dual positions 		5-5 duopyramid ortho-5.png
Two pentagons overlapping

Related complex polygon

The regular complex polygon 2{4}5 has 10 vertices in [math]\displaystyle{ \mathbb{C}^2 }[/math] with a real representation in [math]\displaystyle{ \mathbb{R}^4 }[/math] matching the same vertex arrangement of the 5-5 duopyramid. It has 25 2-edges corresponding to the connecting edges of the 5-5 duopyramid, while the 10 edges connecting the two pentagons are not included. The vertices and edges makes a complete bipartite graph with each vertex from one pentagon is connected to every vertex on the other.[2]

6-generalized-2-orthoplex.svg
Orthographic projection 		Complex polygon 2-4-5-bipartite graph.png
The 2{4}5 with 10 vertices in blue and red connected by 25 2-edges as a complete bipartite graph.

See also

Notes

  1. Coxeter, H. S. M.; Regular Complex Polytopes, Cambridge University Press, (1974).
  2. Regular Complex Polytopes, p.114

References

  • Regular Polytopes, H. S. M. Coxeter, Dover Publications, Inc., 1973, New York, p. 124.
  • Coxeter, The Beauty of Geometry: Twelve Essays, Dover Publications, 1999, ISBN:0-486-40919-8 (Chapter 5: Regular Skew Polyhedra in three and four dimensions and their topological analogues)
    • Coxeter, H. S. M. Regular Skew Polyhedra in Three and Four Dimensions. Proc. London Math. Soc. 43, 33-62, 1937.
  • John H. Conway, Heidi Burgiel, Chaim Goodman-Strass, The Symmetries of Things 2008, ISBN:978-1-56881-220-5 (Chapter 26)
  • Norman Johnson Uniform Polytopes, Manuscript (1991)
    • N.W. Johnson: The Theory of Uniform Polytopes and Honeycombs, Ph.D. Dissertation, University of Toronto, 1966
  • Catalogue of Convex Polychora, section 6, George Olshevsky.

External links




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