Kaleidocycle

Regular-based right pyramids
6 tetrahedra where vertices meet at the center. Blue edges are doubled with pairs of faces hidden.
Faces	24 isosceles triangles
Edges	36 (6 as degenerate pairs)
Vertices	12
Symmetry group	C_3v, [3], (*33), order 6
Properties	torus
Net

A kaleidocycle before it is wrapped into a ring makes a chain of 6 disphenoids connected edge to edge.

A kaleidocycle (or flextangle) is a flexible polyhedron connecting 6 tetrahedra (or disphenoids) on opposite edges into a cycle. If the faces of the disphenoids are equilateral triangles It can be constructed from a stretched triangular tiling net with 4 triangles in one direction and an even number in the other direction.

Like all Flexible polyhedra, the kaleidocycle has degenerate pairs of coinciding edges in transition. The kaleidocycle has an additional property that it can be continuously twisted around a ring axis, showing 4 sets of 6 triangular faces. The kaleidocycle is invariant under twists about its ring axis by $k\pi /2$ , where $k$ is an integer, and can therefore be continuously twisted.

Kaleidocycles can be constructed from a single piece of paper (with dimensions $l\times 2l$ ) without tearing or using adhesive. Because of this and their continuous twisting property, they are often given as examples of simple origami toys. The kaleidocycle is sometimes called a flexahedron in analogy to the planar flexagon, which has similar symmetry under flexing transformations.

Examples[]

Kaleidocycle with scalene triangles.gif

This animation demonstrates the flexing of a kaleidocycle around its ring axis. The four sets of 6 triangular faces are shown in different colours (with every other face in each set of six shown in grey for contrast).

Variations[]

Beyond 6 sides, higher even number of tetrahedra, 8, 10, 12, etc, can be chained together. These models will leave a central gap, depending on the proportions of the triangle faces.^[1]

History[]

Wallace Walker coined the word kaleidocycle in the 1950s from the Greek kalos (beautiful), eidos (form), and kyklos (ring).

In 1977 Doris Schattschneider and Wallace Walker published a book about them using M.C. Escher patterns.^[2]^[3]

Cultural uses[]

It was called a flextangle as a prop in the 2018 film A Wrinkle in Time, with its inner faces colored with hearts and patterns which hidden when those faces are folded together. The paper toy suggested how space and time could be folded to explain the magical travels of the story. The toy is given to the daughter by her father at the start of the movie and its hearts show how love can be enfolded and still be there, even after the father mysteriously disappears.^[4]

References[]

^ regular tetrahedra solutions, 8, 10, 12 with Mathematica
^ Book Review:Art Meets Math in 'Kaleidocycles' May 27, 1988
^ Doris Schattschneider and Walker, M.C. Escher Kaleidocycles, 1977. ISBN 0-906212-28-6. [1]
^ Cooper, Meghan (March 8, 2018). "Disney's A Wrinkle in Time Kaleidocycle Flextangle and Activity Printables". Jamonkey. Retrieved October 15, 2018.

External links[]

This polyhedron-related article is a stub. You can help Wikipedia by .

[1] regular tetrahedra solutions, 8, 10, 12 with Mathematica

[2] Book Review:Art Meets Math in 'Kaleidocycles' May 27, 1988

[3] Doris Schattschneider and Walker, M.C. Escher Kaleidocycles, 1977. ISBN 0-906212-28-6. [1]

[4] Cooper, Meghan (March 8, 2018). "Disney's A Wrinkle in Time Kaleidocycle Flextangle and Activity Printables". Jamonkey. Retrieved October 15, 2018.

[1]

[2]

[3]

[4]