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2. Reuleaux tetrahedron - Wikipedia

   en.wikipedia.org/wiki/Reuleaux_tetrahedron

   Bonnesen and Fenchel [4] conjectured that Meissner tetrahedra are the minimum-volume three-dimensional shapes of constant width, a conjecture which is still open. [5] In 2011 Anciaux and Guilfoyle [6] proved that the minimizer must consist of pieces of spheres and tubes over curves, which, being true for the Meissner tetrahedra, supports the conjecture.

3. Tridecahedron - Wikipedia

   en.wikipedia.org/wiki/Tridecahedron

   A space-filling tridecahedron [6] [7] is a tridecahedron that can completely fill three-dimensional space without leaving gaps. It has 13 faces, 30 edges, and 19 vertices. Among the thirteen faces, there are six trapezoids, six pentagons and one regular hexagon. [8] Dual polyhedron. The polyhedron's dual polyhedron is an enneadecahedron. It is ...

4. Rhombic triacontahedron - Wikipedia

   en.wikipedia.org/wiki/Rhombic_triacontahedron

   The rhombic triacontahedron is also interesting in that its vertices include the arrangement of four Platonic solids. It contains ten tetrahedra, five cubes, an icosahedron and a dodecahedron. The centers of the faces contain five octahedra. It can be made from a truncated octahedron by dividing the hexagonal faces into three rhombi:

5. Polyhedron - Wikipedia

   en.wikipedia.org/wiki/Polyhedron

   In all of these definitions, a polyhedron is typically understood as a three-dimensional example of the more general polytope in any number of dimensions. For example, a polygon has a two-dimensional body and no faces, while a 4-polytope has a four-dimensional body and an additional set of three-dimensional "cells". However, some of the ...

6. Disdyakis triacontahedron - Wikipedia

   en.wikipedia.org/wiki/Disdyakis_triacontahedron

   v3.3.3.3.5 It is topologically related to a polyhedra sequence defined by the face configuration V4.6.2n . This group is special for having all even number of edges per vertex and form bisecting planes through the polyhedra and infinite lines in the plane, and continuing into the hyperbolic plane for any n ≥ 7.

7. Cuboctahedron - Wikipedia

   en.wikipedia.org/wiki/Cuboctahedron

   (In the case of the cuboctahedron, the center is in fact the apex of 6 square and 8 triangular pyramids). This radial equilateral symmetry is a property of only a few uniform polytopes, including the two-dimensional hexagon, the three-dimensional cuboctahedron, and the four-dimensional 24-cell and 8-cell (tesseract). [15]