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In geometry, a uniform star polyhedron is a self-intersecting uniform polyhedron. They are also sometimes called nonconvex polyhedra to imply self-intersecting. Each polyhedron can contain either
There is one nonconvex form, the tetrahemihexahedron which has '' tetrahedral symmetry'' (with fundamental domain Möbius triangle (3 3 2)).
There are two Schwarz triangles that generate unique nonconvex uniform polyhedra: one right triangle ( 3 2), and one general triangle ( 3 3). The general triangle ( 3 3) generates the
There are 8 convex forms, and 10 nonconvex forms with '' octahedral symmetry'' (with fundamental domain Möbius triangle (4 3 2)).
There are four Schwarz triangles that generate nonconvex forms, two right triangles ( 4 2), and ( 3 2), and two general triangles: ( 4 3), ( 4 4).
There are 8 convex forms and 46 nonconvex forms with '' icosahedral symmetry'' (with fundamental domain Möbius triangle (5 3 2)). (or 47 nonconvex forms if Skilling's figure is included). Some of the nonconvex snub forms have reflective vertex symmetry.
* * * Har'El, Z
''Uniform Solution for Uniform Polyhedra.''
Geometriae Dedicata 47, 57-110, 1993
Zvi Har’ElKaleido software
*
Mäder, R. E.
''Uniform Polyhedra.'' Mathematica J. 3, 48-57, 1993
*Messer, Peter W
''Closed-Form Expressions for Uniform Polyhedra and Their Duals.''
Discrete & Computational Geometry 27:353-375 (2002). *
In geometry, a uniform star polyhedron is a self-intersecting uniform polyhedron. They are also sometimes called nonconvex polyhedra to imply self-intersecting. Each polyhedron can contain either star polygon
In geometry, a star polygon is a type of non-convex polygon. Regular star polygons have been studied in depth; while star polygons in general appear not to have been formally defined, certain notable ones can arise through truncation operations ...
faces, star polygon vertex figures, or both.
The complete set of 57 nonprismatic uniform star polyhedra includes the 4 regular ones, called the Kepler–Poinsot polyhedra, 5 quasiregular ones, and 48 semiregular ones.
There are also two infinite sets of ''uniform star prisms'' and ''uniform star antiprisms''.
Just as (nondegenerate) star polygons (which have polygon density
In geometry, the density of a star polyhedron is a generalization of the concept of winding number from two dimensions to higher dimensions,
representing the number of windings of the polyhedron around the center of symmetry of the polyhedron. It ...
greater than 1) correspond to circular polygons with overlapping tiles, star polyhedra that do not pass through the center have polytope density greater than 1, and correspond to spherical polyhedra with overlapping tiles; there are 47 nonprismatic such uniform star polyhedra. The remaining 10 nonprismatic uniform star polyhedra, those that pass through the center, are the hemipolyhedra as well as Miller's monster
In geometry, the great dirhombicosidodecahedron (or great snub disicosidisdodecahedron) is a nonconvex uniform polyhedron, indexed last as . It has 124 faces (40 triangles, 60 squares, and 24 pentagrams), 240 edges, and 60 vertices.
This ...
, and do not have well-defined densities.
The nonconvex forms are constructed from Schwarz triangles.
All the uniform polyhedra are listed below by their symmetry group
In group theory, the symmetry group of a geometric object is the group of all transformations under which the object is invariant, endowed with the group operation of composition. Such a transformation is an invertible mapping of the ambient ...
s and subgrouped by their vertex arrangements.
Regular polyhedra are labeled by their Schläfli symbol
In geometry, the Schläfli symbol is a notation of the form \ that defines regular polytopes and tessellations.
The Schläfli symbol is named after the 19th-century Swiss mathematician Ludwig Schläfli, who generalized Euclidean geometry to more ...
. Other nonregular uniform polyhedra are listed with their vertex configuration.
An additional figure, the pseudo great rhombicuboctahedron
In geometry, the pseudo great rhombicuboctahedron is one of the two pseudo uniform polyhedra, the other being the convex elongated square gyrobicupola or pseudo rhombicuboctahedron. It has the same vertex figure as the nonconvex great rhombicuboc ...
, is usually not included as a truly uniform star polytope, despite consisting of regular faces and having the same vertices.
Note: For nonconvex forms below an additional descriptor nonuniform is used when the convex hull
In geometry, the convex hull or convex envelope or convex closure of a shape is the smallest convex set that contains it. The convex hull may be defined either as the intersection of all convex sets containing a given subset of a Euclidean space ...
vertex arrangement has same topology as one of these, but has nonregular faces. For example an ''nonuniform cantellated'' form may have rectangles created in place of the edges rather than squares.
Dihedral symmetry
See Prismatic uniform polyhedron.Tetrahedral symmetry
There is one nonconvex form, the tetrahemihexahedron which has '' tetrahedral symmetry'' (with fundamental domain Möbius triangle (3 3 2)).
There are two Schwarz triangles that generate unique nonconvex uniform polyhedra: one right triangle ( 3 2), and one general triangle ( 3 3). The general triangle ( 3 3) generates the octahemioctahedron
In geometry, the octahemioctahedron or allelotetratetrahedron is a nonconvex uniform polyhedron, indexed as . It has 12 faces (8 triangles and 4 hexagons), 24 edges and 12 vertices. Its vertex figure is a crossed quadrilateral.
It is on ...
which is given further on with its full octahedral symmetry.
Octahedral symmetry
There are 8 convex forms, and 10 nonconvex forms with '' octahedral symmetry'' (with fundamental domain Möbius triangle (4 3 2)).
There are four Schwarz triangles that generate nonconvex forms, two right triangles ( 4 2), and ( 3 2), and two general triangles: ( 4 3), ( 4 4).
Icosahedral symmetry
There are 8 convex forms and 46 nonconvex forms with '' icosahedral symmetry'' (with fundamental domain Möbius triangle (5 3 2)). (or 47 nonconvex forms if Skilling's figure is included). Some of the nonconvex snub forms have reflective vertex symmetry.
Degenerate cases
Coxeter identified a number of degenerate star polyhedra by the Wythoff construction method, which contain overlapping edges or vertices. These degenerate forms include: * Small complex icosidodecahedron * Great complex icosidodecahedron * Small complex rhombicosidodecahedron * Great complex rhombicosidodecahedron * Complex rhombidodecadodecahedronSkilling's figure
One further nonconvex degenerate polyhedron is the great disnub dirhombidodecahedron, also known as ''Skilling's figure'', which is vertex-uniform, but has pairs of edges which coincide in space such that four faces meet at some edges. It is counted as a degenerate uniform polyhedron rather than a uniform polyhedron because of its double edges. It has Ih symmetry.See also
*Star polygon
In geometry, a star polygon is a type of non-convex polygon. Regular star polygons have been studied in depth; while star polygons in general appear not to have been formally defined, certain notable ones can arise through truncation operations ...
* List of uniform polyhedra
*List of uniform polyhedra by Schwarz triangle
There are many relationships among the uniform polyhedra. The Wythoff construction is able to construct almost all of the uniform polyhedra from the acute and obtuse Schwarz triangles. The numbers that can be used for the sides of a non- dihedral a ...
References
* * * Brückner, M. ''Vielecke und vielflache. Theorie und geschichte.''. Leipzig, Germany: Teubner, 1900* * * Har'El, Z
''Uniform Solution for Uniform Polyhedra.''
Geometriae Dedicata 47, 57-110, 1993
Zvi Har’El
*
Mäder, R. E.
''Uniform Polyhedra.'' Mathematica J. 3, 48-57, 1993
*Messer, Peter W
''Closed-Form Expressions for Uniform Polyhedra and Their Duals.''
Discrete & Computational Geometry 27:353-375 (2002). *
External links
* {{MathWorld , urlname=UniformPolyhedron , title=Uniform Polyhedron Uniform polyhedra