Truncated 120-cells


120-cell

Truncated 120-cell

Rectified 120-cell

Bitruncated 120-cell
Bitruncated 600-cell

600-cell

Truncated 600-cell

Rectified 600-cell
Orthogonal projections in H3 Coxeter plane

In geometry, a truncated 120-cell is a uniform 4-polytope formed as the truncation of the regular 120-cell.

There are three trunctions, including a bitruncation, and a tritruncation, which creates the truncated 600-cell.

Truncated 120-cell

Truncated 120-cell

Schlegel diagram
(tetrahedron cells visible)
TypeUniform 4-polytope
Uniform index36
Schläfli symbolt0,1{5,3,3}
or t{5,3,3}
Coxeter diagrams
Cells600 3.3.3
120 3.10.10
Faces2400 triangles
720 decagons
Edges4800
Vertices2400
Vertex figure
triangular pyramid
DualTetrakis 600-cell
Symmetry groupH4, [3,3,5], order 14400
Propertiesconvex

The truncated 120-cell or truncated hecatonicosachoron is a uniform 4-polytope, constructed by a uniform truncation of the regular 120-cell 4-polytope.

It is made of 120 truncated dodecahedral and 600 tetrahedral cells. It has 3120 faces: 2400 being triangles and 720 being decagons. There are 4800 edges of two types: 3600 shared by three truncated dodecahedra and 1200 are shared by two truncated dodecahedra and one tetrahedron. Each vertex has 3 truncated dodecahedra and one tetrahedron around it. Its vertex figure is an equilateral triangular pyramid.

Alternate names

Images

Orthographic projections by Coxeter planes
H4 - F4

[30]

[20]

[12]
H3 A2 / B3 / D4 A3 / B2

[10]

[6]

[4]

net

Central part of stereographic projection
(centered on truncated dodecahedron)

Stereographic projection

Bitruncated 120-cell

Bitruncated 120-cell

Schlegel diagram, centered on truncated icosahedron, truncated tetrahedral cells visible
TypeUniform 4-polytope
Uniform index39
Coxeter diagram
Schläfli symbol t1,2{5,3,3}
or 2t{5,3,3}
Cells720:
120 5.6.6
600 3.6.6
Faces4320:
1200{3}+720{5}+
2400{6}
Edges7200
Vertices3600
Vertex figure
digonal disphenoid
Symmetry groupH4, [3,3,5], order 14400
Properties convex, vertex-transitive

The bitruncated 120-cell or hexacosihecatonicosachoron is a uniform 4-polytope. It has 720 cells: 120 truncated icosahedra, and 600 truncated tetrahedra. Its vertex figure is a digonal disphenoid, with two truncated icosahedra and two truncated tetrahedra around it.

Alternate names

Images


Stereographic projection (Close up)
Orthographic projections by Coxeter planes
H3 A2 / B3 / D4 A3 / B2 / D3

[10]

[6]

[4]

Truncated 600-cell

Truncated 600-cell

Schlegel diagram
(icosahedral cells visible)
TypeUniform 4-polytope
Uniform index41
Schläfli symbolt0,1{3,3,5}
or t{3,3,5}
Coxeter diagram
Cells720:
120 3.3.3.3.3
600 3.6.6
Faces2400{3}+1200{6}
Edges4320
Vertices1440
Vertex figure
pentagonal pyramid
DualDodecakis 120-cell
Symmetry groupH4, [3,3,5], order 14400
Propertiesconvex

The truncated 600-cell or truncated hexacosichoron is a uniform 4-polytope. It is derived from the 600-cell by truncation. It has 720 cells: 120 icosahedra and 600 truncated tetrahedra. Its vertex figure is a pentagonal pyramid, with one icosahedron on the base, and 5 truncated tetrahedra around the sides.

Alternate names

Structure

The truncated 600-cell consists of 600 truncated tetrahedra and 120 icosahedra. The truncated tetrahedral cells are joined to each other via their hexagonal faces, and to the icosahedral cells via their triangular faces. Each icosahedron is surrounded by 20 truncated tetrahedra.

Images

Stereographic projection or Schlegel diagrams

Centered on icosahedron

Centered on truncated tetrahedron

Central part
and some of 120 red icosahedra.

Net
Orthographic projections by Coxeter planes
H4 - F4

[30]

[20]

[12]
H3 A2 / B3 / D4 A3 / B2

[10]

[6]

[4]
3D Parallel projection
Parallel projection into 3 dimensions, centered on an icosahedron. Nearest icosahedron to the 4D viewpoint rendered in red, remaining icosahedra in yellow. Truncated tetrahedra in transparent green.

Related polytopes

Notes

  1. Klitizing, (o3o3x5x - thi)
  2. Klitizing, (o3x3x5o - xhi)
  3. Klitizing, (x3x3o5o - tex)

References

External links

This article is issued from Wikipedia - version of the Wednesday, February 11, 2015. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.