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User:Tomruen/Two-cube enneahedron

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Two cube enneahedron

Showing 6 red square faces, 3 yellow crossed-hexagon races (one in white). There is no central vertex.
Faces 9:
6 squares
3 self-crossing hexagons
Edges 21
Vertices 14
Euler characteristic 2
Convex hull Stretched rhombic dodecahedron
Genus 0
Symmetry group D3d, [2+,6], (2*3), order 12
Rotation group D3, [2,3]+, (233), order 6
Dual polyhedron Double-stacked octahedron
Properties polycube

In geometry, a two-cube enneahedron is a nonconvex enneahedron. It has 9 faces, 21 edges, and 24 vertices. With polyomino faces at right angles, it is a polycube. It has [2+,6] symmetry order 12, with three reflection plane, and 2-fold rotation axes.

Its Euler_characteristic is 2, a topological sphere. Its convex form can be seen as a triangular prism with the top and bottom triangles dissected with mid-edges and center into 3 coplanar kite faces. Its dual can be seen as two regular octahedra sharing a common face.

Construction

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As a polycube it can be constructed as the union of 2 cubes with one comoon vertex. Coplanar neighboring squares are merged into polyominos, resulting in nine total faces: 6 square and 3 crossed-hexagons as 2 squared connected in a diagonal domino, .

The enneahedron has 14 vertices, 4, 6, and 4 by planar levels. It has 24 edges.

Convex form

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The geometry can be adjusted into a polyhedron with 3 regular hexagons in a loop, with 2 polar vertices added to make kite faces on top and bottom. It has D3h symmetry, order 12. It is similar to an elongated rhombic dodecahedron, which has 4-fold symmetry rather than 3-fold.

See also

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References

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