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Most Goldberg polyhedra can be constructed using Conway polyhedron notation starting with (T)etrahedron, (C)ube, and (D)odecahedron seeds. The chamfer operator, c, replaces all edges by hexagons, transforming GP(m,n) to GP(2m,2n), with a T multiplier of 4.
This is a list of selected geodesic polyhedra and Goldberg polyhedra, two infinite classes of polyhedra. Geodesic polyhedra and Goldberg polyhedra are duals of each other. The geodesic and Goldberg polyhedra are parameterized by integers m and n, with > and .
A geodesic polyhedron is a convex polyhedron made from triangles. They usually have icosahedral symmetry, such that they have 6 triangles at a vertex, except 12 vertices which have 5 triangles. They are the dual of corresponding Goldberg polyhedra, of which all but the smallest one (which is a regular dodecahedron) have mostly hexagonal faces.
The discovery of Buckminsterfullerene in 1985 motivated research into other molecules with the structure of a Goldberg polyhedron. The terms "Goldberg–Coxeter fullerene" and "Goldberg–Coxeter construction" were introduced by Michel Deza in 2000. [13] [14] This is also the first time the degree 4 case was considered.
Therefore, the resulting polyhedron has 32 faces, 90 edges, and 60 vertices. [2] A Goldberg polyhedron is one whose faces are 12 pentagons and some multiple of 10 hexagons. There are three classes of Goldberg polyhedron, one of them is constructed by truncating all vertices repeatedly, and the truncated icosahedron is one of them, denoted as GP ...
Geodesic grids may use the dual polyhedron of the geodesic polyhedron, which is the Goldberg polyhedron. Goldberg polyhedra are made up of hexagons and (if based on the icosahedron) 12 pentagons. One implementation that uses an icosahedron as the base polyhedron, hexagonal cells, and the Snyder equal-area projection is known as the Icosahedron ...
A Goldberg polyhedron is a symmetric polyhedron constructed with hexagonal faces separating other polygons, usually pentagons in icosahedral symmetry. Pages in category "Goldberg polyhedra" The following 8 pages are in this category, out of 8 total.
The cT is the Goldberg polyhedron GP III (2,0) or {3+,3} 2,0, containing triangular and hexagonal faces. The truncated tetrahedron looks similar; but its hexagons correspond to the 4 faces, not to the 6 edges, of the yellow tetrahedron, i.e. to the 4 vertices, not to the 6 edges, of the red tetrahedron.