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Octahedral Equation


OctahedralEquationOrientations

The octahedral equation, by way of analogy with the icosahedral equation, is a set of related equations derived from the projective geometry of the octahedron. Consider an octahedron centered (0,0,0), oriented with z-axis along a fourfold (C_4) rotational symmetry axis, and with one of the top four edges lying in the xz-plane (left figure). In this figure, vertices are shown in black, face centers in red, and edge midpoints in blue.

OctahedralEquationProjections

The simplest octahedral equation is defined by projecting the vertices of the octahedron with unit circumradius using a stereographic projection from the south pole of its circumsphere onto the plane z=0, and expressing these vertex locations (interpreted as complex quantities in the complex xy-plane) as roots of an algebraic equation. The resulting projection is shown as the left figure above, with black dots being the vertex positions. The resulting equation is

 z^5-z=0,
(1)

where z here refers to the coordinate in the complex plane (not the height above the projection plane), and the equation is of order 5 instead of 6 since the vertex at (0,0,-1) is transformed to infinity and has been omitted.

If the octahedron with unit inradius is instead projected (second figure above), the equation expressing the positions of the face centers (red dots) is given by

 1+14z^4+z^8=0.
(2)

Finally, if the octahedron with unit midradius is projected (right figure above), the equation expressing the positions of the edge midpoints (blue dots) is given by

 1-33z^4-33z^8+z^(12)=0.
(3)

Note that because these equations involve variables to multiples of the power 4, rotating the solid by 2pi/8 radians changes transforms the quantities from z^4 to (ze^(2pii/8))^4=-z^4, producing the same equations modulo minus signs in odd powers of z^4, corresponding to flipping the positions of the roots about the imaginary axis.

OctahedralEquationOrientations2OctahedralEquationProjections2

If the octahedron is instead oriented so that the top and bottom faces are parallel to the xy-plane, the corresponding equations giving projected vertices, face centers, and edge midpoints are

z^6+5sqrt(2)z^3-1=0
(4)
2sqrt(2)z^7-7z^4-2sqrt(2)z=0
(5)
z^(12)-22sqrt(2)z^9-22sqrt(2)z^3-1=0,
(6)

respectively.


See also

Icosahedral Equation, Octahedral Graph, Octahedron, Tetrahedral Equation

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Cite this as:

Weisstein, Eric W. "Octahedral Equation." From MathWorld--A Wolfram Web Resource. https://mathworld.wolfram.com/OctahedralEquation.html

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