Bicupola (geometry)

In geometry, a bicupola is a solid formed by connecting two cupolae on their bases.

Set of bicupolae
Triangular gyrobicupola
Faces2n triangles,
2n squares
2 n-gons
Edges8n
Vertices4n
Symmetry groupOrtho: Dnh, [2,n], *n22, order 4n
Gyro: Dnd, [2+,2n], 2*n, order 4n
Propertiesconvex
The gyrobifastigium (J26) can be considered a digonal gyrobicupola.

There are two classes of bicupola because each cupola (bicupola half) is bordered by alternating triangles and squares. If similar faces are attached together the result is an orthobicupola; if squares are attached to triangles it is a gyrobicupola.

Cupolae and bicupolae categorically exist as infinite sets of polyhedra, just like the pyramids, bipyramids, prisms, and trapezohedra.

Six bicupolae have regular polygon faces: triangular, square and pentagonal ortho- and gyrobicupolae. The triangular gyrobicupola is an Archimedean solid, the cuboctahedron; the other five are Johnson solids.

Bicupolae of higher order can be constructed if the flank faces are allowed to stretch into rectangles and isosceles triangles.

Bicupolae are special in having four faces on every vertex. This means that their dual polyhedra will have all quadrilateral faces. The best known example is the rhombic dodecahedron composed of 12 rhombic faces. The dual of the ortho-form, triangular orthobicupola, is also a dodecahedron, similar to rhombic dodecahedron, but it has 6 trapezoid faces which alternate long and short edges around the circumference.

Forms

Set of orthobicupolae

Symmetry Picture Description
D2h
[2,2]
*222
Orthobifastigium or digonal orthobicupola: 4 triangles (coplanar), 4 squares. It is self-dual
D3h
[2,3]
*223
Triangular orthobicupola (J27): 8 triangles, 6 squares; its dual is the trapezo-rhombic dodecahedron
D4h
[2,4]
*224
Square orthobicupola (J28): 8 triangles, 10 squares
D5h
[2,5]
*225
Pentagonal orthobicupola (J30): 10 triangles, 10 squares, 2 pentagons
Dnh
[2,n]
*22n
n-gonal orthobicupola: 2n triangles, 2n rectangles, 2 n-gons

Set of gyrobicupolae

A n-gonal gyrobicupola has the same topology as a n-gonal rectified antiprism, Conway polyhedron notation, aAn.

Symmetry Picture Description
D2d
[2+,4]
2*2
Gyrobifastigium (J26) or digonal gyrobicupola: 4 triangles, 4 squares
D3d
[2+,6]
2*3
Triangular gyrobicupola or cuboctahedron: 8 triangles, 6 squares; its dual is the rhombic dodecahedron
D4d
[2+,8]
2*4
Square gyrobicupola (J29): 8 triangles, 10 squares;its dual is the elongated tetragonal trapezohedron
D5d
[2+,10]
2*5
Pentagonal gyrobicupola (J31): 10 triangles, 10 squares, 2 pentagons; its dual is the rhombic icosahedron
Dnd
[2+,2n]
2*n
n-gonal gyrobicupola: 2n triangles, 2n rectangles, 2 n-gons

References

  • Norman W. Johnson, "Convex Solids with Regular Faces", Canadian Journal of Mathematics, 18, 1966, pages 169–200. Contains the original enumeration of the 92 solids and the conjecture that there are no others.
  • Victor A. Zalgaller (1969). Convex Polyhedra with Regular Faces. Consultants Bureau. No ISBN. The first proof that there are only 92 Johnson solids.
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