Pentagonal hexecontahedron

In geometry, a pentagonal hexecontahedron is a Catalan solid, dual of the snub dodecahedron. It has two distinct forms, which are mirror images (or "enantiomorphs") of each other. It has 92 vertices that span 60 pentagonal faces. It is the Catalan solid with the most vertices. Among the Catalan and Archimedean solids, it has the second largest number of vertices, after the truncated icosidodecahedron, which has 120 vertices.

Pentagonal hexacontahedron
Faces60
Edges150
Vertices92
Symmetry groupicosahedral symmetry
Dihedral angle (degrees)153.2°
Dual polyhedronsnub dodecahedron
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Properties

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3D model of a pentagonal hexecontahedron

The faces are irregular pentagons with two long edges and three short edges. Let   be the real zero of the polynomial  . Then the ratio   of the edge lengths is given by:  . The faces have four equal obtuse angles and one acute angle (between the two long edges). The obtuse angles equal  , and the acute one equals  . The dihedral angle equals  .

Note that the face centers of the snub dodecahedron cannot serve directly as vertices of the pentagonal hexecontahedron: the four triangle centers lie in one plane but the pentagon center does not; it needs to be radially pushed out to make it coplanar with the triangle centers. Consequently, the vertices of the pentagonal hexecontahedron do not all lie on the same sphere and by definition it is not a zonohedron.

To find the volume and surface area of a pentagonal hexecontahedron, denote the shorter side of one of the pentagonal faces as  , and set a constant t[1]  

Then the surface area ( ) is:  .

And the volume ( ) is:  .

Using these, one can calculate the measure of sphericity for this shape:  

Construction

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Combining a unit circumradius icosahedron (12) centered at the origin with a chiral snub dodecahedron (60) combined with a dodecahedron of the same non-unity circumradius (20) to construct the pentagonal hexecontahedron

The pentagonal hexecontahedron can be constructed from a snub dodecahedron without taking the dual. Pentagonal pyramids are added to the 12 pentagonal faces of the snub dodecahedron, and triangular pyramids are added to the 20 triangular faces that do not share an edge with a pentagon. The pyramid heights are adjusted to make them coplanar with the other 60 triangular faces of the snub dodecahedron. The result is the pentagonal hexecontahedron.[2]

An alternate construction method uses quaternions and the icosahedral symmetry of the Weyl group orbits   of order 60.[3] This is shown in the figure on the right.

Specifically, with quaternions from the binary Icosahedral group  , where   is the conjugate of   and   and  , then just as the Coxeter group   is the symmetry group of the 600-cell and the 120-cell of order 14400, we have   of order 120.   is defined as the even permutations of   such that   gives the 60 twisted chiral snub dodecahedron coordinates, where   is one permutation from the first set of 12 in those listed above. The exact coordinate for   is obtained by taking the solution to  , with  , and applying it to the normalization of  .

Cartesian coordinates

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Using the Icosahedral symmetry in the orbits of the Weyl group  of order 60[4] gives the following Cartesian coordinates with   is the golden ratio:

  • Twelve vertices of a regular icosahedron with unit circumradius centered at the origin with the coordinates  
  • Twenty vertices of regular dodecahedron of unit circumradius centered at the origin scaled by a factor  from the exact solution to the equation  , which gives the coordinates

  and  

A group of two sets of twelve have 0 or 2 minus signs (i.e. 1 or 3 plus signs):     and another group of three sets of 12 have 0 or 2 plus signs (i.e. 1 or 3 minus signs):      Negating all vertices in both groups gives the mirror of the chiral snub dodecahedron, yet results in the same pentagonal hexecontahedron convex hull.

Variations

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Isohedral variations can be constructed with pentagonal faces with 3 edge lengths.

This variation shown can be constructed by adding pyramids to 12 pentagonal faces and 20 triangular faces of a snub dodecahedron such that the new triangular faces are coparallel to other triangles and can be merged into the pentagon faces.

 
Snub dodecahedron with augmented pyramids and merged faces
 
Example variation
 
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Orthogonal projections

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The pentagonal hexecontahedron has three symmetry positions, two on vertices, and one mid-edge.

Orthogonal projections
Projective
symmetry
[3] [5] [2]
Image      
Dual
image
     
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Spherical pentagonal hexecontahedron
Family of uniform icosahedral polyhedra
Symmetry: [5,3], (*532) [5,3] , (532)
               
                                               
{5,3} t{5,3} r{5,3} t{3,5} {3,5} rr{5,3} tr{5,3} sr{5,3}
Duals to uniform polyhedra
               
V5.5.5 V3.10.10 V3.5.3.5 V5.6.6 V3.3.3.3.3 V3.4.5.4 V4.6.10 V3.3.3.3.5

This polyhedron is topologically related as a part of sequence of polyhedra and tilings of pentagons with face configurations (V3.3.3.3.n). (The sequence progresses into tilings the hyperbolic plane to any n.) These face-transitive figures have (n32) rotational symmetry.

n32 symmetry mutations of snub tilings: 3.3.3.3.n
Symmetry
n32
Spherical Euclidean Compact hyperbolic Paracomp.
232 332 432 532 632 732 832 ∞32
Snub
figures
               
Config. 3.3.3.3.2 3.3.3.3.3 3.3.3.3.4 3.3.3.3.5 3.3.3.3.6 3.3.3.3.7 3.3.3.3.8 3.3.3.3.∞
Gyro
figures
               
Config. V3.3.3.3.2 V3.3.3.3.3 V3.3.3.3.4 V3.3.3.3.5 V3.3.3.3.6 V3.3.3.3.7 V3.3.3.3.8 V3.3.3.3.∞

See also

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References

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  1. ^ "Pentagonal Hexecontahedron - Geometry Calculator". rechneronline.de. Retrieved 2020-05-26.
  2. ^ Reference
  3. ^ Koca, Mehmet; Ozdes Koca, Nazife; Al-Shu’eilic, Muna (2011). "Chiral Polyhedra Derived From Coxeter Diagrams and Quaternions". arXiv:1006.3149 [math-ph].
  4. ^ Koca, Mehmet; Ozdes Koca, Nazife; Koc, Ramazon (2010). "Catalan Solids Derived From 3D-Root Systems and Quaternions". Journal of Mathematical Physics. 51 (4). arXiv:0908.3272. doi:10.1063/1.3356985. S2CID 115157829.
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