7-2 step prism
|7-2 step prism|
|Cells||7+7 phyllic disphenoids|
|Faces||14 scalene triangles, 7+7 isosceles triangles|
|Vertex figure||Bilaterally-symmetric bi-apiculated tetrahedron|
|Measures (circumradius , based on a uniform duoprism)|
|Edge lengths||5-valence (7):|
|Symmetry||S2(I2(7)-2), order 14|
The 7-2 step prism is a convex isogonal polychoron and a member of the step prism family. It has 14 phyllic disphenoids of two different types as cells, with 8 joining at each vertex. It can also be constructed as the 7-3 step prism.
It is the simplest step prism, excluding the pentachoron and the triangular duotegum, which are part of more specific families, as well as the only isogonal polychoron with 7 vertices. It is also the triangular funk tegum.
Using the ratio method, the lowest possible ratio between the longest and shortest edges is 1: ≈ 1:1.34236.
Vertex coordinates[edit | edit source]
Coordinates for the vertices of a 7-2 step prism inscribed in a heptagonal duoprism with base lengths a and b are given by:
- (a*sin(2πk/7), a*cos(2πk/7), b*sin(4πk/7), b*cos(4πk/7)),
where k is an integer from 0 to 6. If the edge length differences are to be minimized, the ratio of a:b must be equivalent to 1: ≈ 1:1.34236.
Measures[edit | edit source]
The hypervolume of a 7-2 step prism inscribed in a heptagonal-heptagonal duoprism with base lengths a and b is given by:
where ξ ≈ 1.55622 is the largest real root of 884736x3–1613472x–823543, equivalent to 49/(192cos(2π/7)-96)-49/96.
Isogonal derivatives[edit | edit source]
Substitution by vertices of these following elements will produce these convex isogonal polychora:
- Phyllic disphenoid (7): 7-2 step prism
- Scalene triangle (7): 7-2 step prism
- Scalene triangle (14): 14-2 step prism
- Edge (7): 7-2 step prism
External links[edit | edit source]
- Bowers, Jonathan. "Four Dimensional Dice Up To Twenty Sides".