Snub polyhedron

From Wikipedia, the free encyclopedia

Polyhedron
Class Number and properties
Platonic solids
(5, convex, regular)
Archimedean solids
(13, convex, uniform)
Kepler-Poinsot solids
(4, regular, non-convex)
Uniform polyhedra
(75, uniform)
Prismatoid:
prisms, antiprisms etc.
(4 infinite uniform classes)
Polyhedra tilings (11 regular, in the plane)
Quasi-regular polyhedra
(8)
Johnson solids (92, convex, non-uniform)
Pyramids and Bipyramids (infinite)
Stellations Stellations
Polyhedral compounds (5 regular)
Deltahedra (Deltahedra,
equalatial triangle faces)
Snub polyhedra
(12 uniform, not mirror image)
Zonohedron (Zonohedra,
faces have 180°symmetry)
Dual polyhedron
Self-dual polyhedron (infinite)
Catalan solid (13, Archimedean dual)


A snub polyhedron is a polyhedron obtained by adding extra triangles around each vertex.

Chiral snub polyhedra do not have reflection symmetry and hence have two enantiomorphous forms which are reflections of each other. Their symmetry groups are all point groups and are one of:


Snub cube
Snic
V 24,E 60,F 38=(8+24){3}+6{4}
χ=2, group=O
| 2 3 4 - 3.3.3.3.4
W17, U12, K17, C24


Snub dodecahedron
Snid
V 60,E 150,F 92=(20+60){3}+12{5}
χ=2, group=I
| 2 3 5 - 3.3.3.3.5
W18, U29, K34, C32


Inverted snub dodecadodecahedron
Isdid
V 60,E 150,F 84=60{3}+12{5}+12{5/2}
χ=-6, group=I
|5/3 2 5 - 3.3.5.3.5/3
W114, U60, K65, C76


Great snub dodecicosidodecahedron
Gisdid
V 60,E 180,F 104=(20+60){3}+(12+12){5/2}
χ=-16, group=I
| 5/3 5/2 3 - 3.3.3.5/2.3.5/3
W115, U64, K69, C80


Great inverted snub icosidodecahedron
Gisid
V 60,E 150,F 92=(20+60){3}+12{5/2}
χ=2, group=I
|5/3 2 3 - 34.5/3
W113, U69, K74, C73


Snub icosidodecadodecahedron
Sided
V 60,E 180,F 104=(20+60){3}+12{5}+12{5/2}
χ=-16, group=I
|5/3 3 5 - 3.3.3.5.3.5/3
W112, U46, K51, C58


Snub dodecadodecahedron
Siddid
V 60,E 150,F 84=60{3}+12{5}+12{5/2}
χ=-6, group=I
|2 5/2 5 - 3.3.5/2.3.5
W111, U40, K45, C49


Great retrosnub icosidodecahedron
Girsid
V 60,E 150,F 92=(20+60){3}+12{5/2}
χ=2, group=I
|3/2 5/3 2 - (34.5/2)/2
W117, U74, K79, C90
Great inverted retrosnub icosidodecahedron


Great snub icosidodecahedron
Gosid
V 60,E 150,F 92=(20+60){3}+12{5/2}
χ=2, group=I
|2 5/2 3 - 34.5/2
W116, U57, K62, C88

The reflexible snub polyhedron where two polygons share the same the same facial planes. They have reflection symmetry across these planes and symmetry group Ih.


Small snub icosicosidodecahedron
Seside
V 60,E 180,F 112=(40+60){3}+12{5/2}
χ=-8, group=Ih
|5/2 3 3 - 35.5/2
W110, U32, K37, C41


Small retrosnub icosicosidodecahedron
Sirsid
V 60,E 180,F 112=(40+60){3}+12{5/2}
χ=-8, group=Ih
|3/2 3/2 5/2 - (35.5/3)/2
W118, U72, K77, C91
Small inverted retrosnub icosicosidodecahedron


Great dirhombicosidodecahedron
Gidrid
V 60,E 240,F 124=40{3}+60{4}+24{5/2}
χ=-56, group=Ih
|3/2 5/3 3 5/2 - 4.5/3.4.3.4.
5/2.4.3/2

W119, U75, K80, C92


[edit] Nonuniform snubs

Two of the Johnson solids are also called snubs: the snub disphenoid (symmetry group D2d) and the snub square antiprism (symmetry group D4d). Each is formed by splitting a polyhedron in two (along existing edges) and filling the gap with triangles. Neither is chiral.