Disphenocingulum
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In geometry, the disphenocingulum is a Johnson solid with 20 equilateral triangles and 4 squares as its faces.
PropertiesEdit
The disphenocingulum is named by Template:Harvtxt. The prefix dispheno- refers to two wedgelike complexes, each formed by two adjacent lunes—a figure of two equilateral triangles at the opposite sides of a square. The suffix -cingulum, literally 'belt', refers to a band of 12 triangles joining the two wedges.Template:R The resulting polyhedron has 20 equilateral triangles and 4 squares, making 24 faces.Template:R. All of the faces are regular, categorizing the disphenocingulum as a Johnson solid—a convex polyhedron in which all of its faces are regular polygon—enumerated as 90th Johnson solid <math> J_{90} </math>.Template:R. It is an elementary polyhedron, meaning that it cannot be separated by a plane into two small regular-faced polyhedra.Template:R
The surface area of a disphenocingulum with edge length <math> a </math> can be determined by adding all of its faces, the area of 20 equilateral triangles and 4 squares <math> (4 + 5\sqrt{3})a^2 \approx 12.6603a^2 </math>, and its volume is <math> 3.7776a^3 </math>.Template:R
Cartesian coordinatesEdit
Let <math> a \approx 0.76713 </math> be the second smallest positive root of the polynomial <math display="block"> \begin{align} &256x^{12} - 512x^{11} - 1664x^{10} + 3712x^9 + 1552x^8 - 6592x^7 \\ &\quad{} + 1248x^6 + 4352x^5 - 2024x^4 - 944x^3 + 672x^2 - 24x - 23 \end{align}</math> and <math>h = \sqrt{2+8a-8a^2}</math> and <math>c = \sqrt{1-a^2}</math>. Then, the Cartesian coordinates of a disphenocingulum with edge length 2 are given by the union of the orbits of the points <math display="block">\left(1,2a,\frac{h}{2}\right),\ \left(1,0,2c+\frac{h}{2}\right),\ \left(1+\frac{\sqrt{3-4a^2}}{c},0,2c-\frac{1}{c}+\frac{h}{2}\right)</math> under the action of the group generated by reflections about the xz-plane and the yz-plane.Template:R