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The cuboctahedron<p>
Here we see the illustrious cuboctahedron, or vector equilibrium. Along with the <a href='http://hexnet.org/content/truncated-octahedron'>truncated octahedron</a>, it can be considered, in some sense, a three-dimensional analogue to the hexagon. Though it has no hexagonal faces, the cuboctahedron can be seen to consist of four hexagonal rings or planes arranged in the manner of tetrahedral symmetry. That is, if one took a tetrahedron, replaced its four faces with hexagons (as for instance with a <a class='ex' href='http://en.wikipedia.org/wiki/Truncated_tetrahedron'>truncated tetrahedron</a>), and collapsed all four hexagonal sides so that they all shared a common center, the vertices of the hexagons would describe a cuboctahedron, with each vertex shared between two intersecting hexagons, collapsing the original 24 vertices of the four hexagons into the 12 vertices of the cuboctahedron. (Likewise, of course, the cuboctahedron can simply be seen as a sort of "expanded" tetrahedron, with four of its eight triangular faces representing the original four faces of an inner tetrahedron, the remaining four triangles representing its four vertices, and the square faces representing its edges.) <a class='ex' href='http://en.wikipedia.org/wiki/Tetrahedral_symmetry'>Tetrahedral symmetry</a> being the simplest type of polyhedral symmetry, and the only one suited to this sort of fitting together of hexagonal planes, the cuboctahedron represents a unique extension of and analogue to hexagonal symmetry in three dimensions.
</p>Thu, 07 Nov 2013 03:11:38 +0000
https://hexnet.org/content/cuboctahedron
https://hexnet.org/content/cuboctahedronClose-packing of spheres<p>
This diagram illustrates both the hexagonal close-packing (left) and face-centered cubic (right) systems for the close-packing of spheres in Euclidean 3-space. Note the hexagonal symmetries of both arrangements. Both can be assembled using the same hexagonally-packed layers—they differ only in how the layers are stacked together.
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In each hexagonally-packed layer, there are gaps left between every three spheres. Spheres from the next layer are placed in these gaps. In any given layer, however, one has a choice of which gaps to fill with spheres—only half of the gaps can have spheres in them, since a sphere placed in any particular gap precludes a sphere from being placed in any of the three gaps immediately adjacent to it. Thus, in the hexagonal close-packing system, layers are stacked such that the spheres in each layer align with the spheres two layers below it. In the face-centered cubic system, layers are stacked such that the spheres align with the spheres three layers below it.
</p>Wed, 14 Apr 2010 03:03:00 +0000
https://hexnet.org/content/close-packing-spheres
https://hexnet.org/content/close-packing-spheres