octahedron: Definition from Answers.com

For the album by The Mars Volta, see Octahedron (album).

Regular Octahedron
(Click here for rotating model)
Type	Platonic solid
Elements	F = 8, E = 12 V = 6 (χ = 2)
Faces by sides	8{3}
Schläfli symbol	{3,4} and t₁{3,3}
Wythoff symbol	4 \| 2 3 2 \| 3 3 \| 3 2 2
Coxeter-Dynkin
Symmetry	O_h or (*432)
References	U₀₅, C₁₇, W₂
Properties	Regular convex deltahedron
Dihedral angle	109.47122° = arccos(-1/3)
3.3.3.3 (Vertex figure)	Cube (dual polyhedron)
Net

In geometry, an octahedron (plural: octahedra) is a polyhedron with eight faces. A regular octahedron is a Platonic solid composed of eight equilateral triangles, four of which meet at each vertex.

It is a 3-dimensional cross polytope.

1 Dimensions
2 Cartesian coordinates
3 Area and volume
4 Geometric relations
5 Related polyhedra
- 5.1 Tetratetrahedron
- 5.2 Tetrahemihexahedron
6 Octahedra in the physical world
7 Octahedra in music
8 Other octahedra
9 See also
10 References
11 External links

Dimensions

If the edge length of a regular octahedron is $a$ , the radius of a circumscribed sphere (one that touches the octahedron at all vertices) is

$r_u = \frac{a}{2} \sqrt{2} \approx 0.7071067 \cdot a$

and the radius of an inscribed sphere (tangent to each of the octahedron's faces) is

$r_i = \frac{a}{6} \sqrt{6} \approx 0.4082482\cdot a$

while the midradius, which touches the middle of each edge, is

$r_m = \frac{a}{2} = 0.5\cdot a$

Cartesian coordinates

An octahedron can be placed with its center at the origin and its vertices on the coordinate axes; the Cartesian coordinates of the vertices are then

( ±1, 0, 0 );

( 0, ±1, 0 );

( 0, 0, ±1 ).

Area and volume

The area A and the volume V of a regular octahedron of edge length a are:

$A=2\sqrt{3}a^2 \approx 3.46410162a^2$

$V=\frac{1}{3} \sqrt{2}a^3 \approx 0.471404521a^3$

Thus the volume is four times that of a regular tetrahedron with the same edge length, while the surface area is twice (because we have 8 vs. 4 triangles).

Geometric relations

The octahedron represents the central intersection of two tetrahedra

The interior of the compound of two dual tetrahedra is an octahedron, and this compound, called the stella octangula, is its first and only stellation. Correspondingly, a regular octahedron is the result of cutting off from a regular tetrahedron, four regular tetrahedra of half the linear size (i.e. rectifying the tetrahedron). The vertices of the octahedron lie at the midpoints of the edges of the tetrahedron, and in this sense it relates to the tetrahedron in the same way that the cuboctahedron and icosidodecahedron relate to the other Platonic solids. One can also divide the edges of an octahedron in the ratio of the golden mean to define the vertices of an icosahedron. This is done by first placing vectors along the octahedron's edges such that each face is bounded by a cycle, then similarly partitioning each edge into the golden mean along the direction of its vector. There are five octahedra that define any given icosahedron in this fashion, and together they define a regular compound.

Octahedra and tetrahedra can be alternated to form a vertex, edge, and face-uniform tessellation of space, called the octet truss by Buckminster Fuller. This is the only such tiling save the regular tessellation of cubes, and is one of the 28 convex uniform honeycombs. Another is a tessellation of octahedra and cuboctahedra.

The octahedron is unique among the Platonic solids in having an even number of faces meeting at each vertex. Consequently, it is the only member of that group to possess mirror planes that do not pass through any of the faces.

Using the standard nomenclature for Johnson solids, an octahedron would be called a square bipyramid.

Symmetry

The octahedron's symmetry group is O_h, of order 48, the three dimensional hyperoctahedral group. This group's subgroups include D_3d (order 12), the symmetry group of a triangular antiprism; D_4h (order 16), the symmetry group of a square bipyramid; and T_d (order 24), the symmetry group of a rectified tetrahedron. These symmetries can be emphasized by different decorations of the faces.

Family	Symmetry	Order
Platonic solids (Regular)	O_h	48
Tetrahedron (Regular)	T_d	24
Antiprisms (Dihedral)	D_3d	12
Bipyramids (Dihedral)	D_4h	16

Dual

Nets

It has eleven nets.

For example:

Related polyhedra

Tetratetrahedron

The regular octahedron can also be considered a rectified tetrahedron - and can be called a tetratetrahedron. This can be shown by a 2-color face model. With this coloring, the octahedron has tetrahedral symmetry.

Compare this truncation sequence between a tetrahedron and its dual:

Tetrahedron	Truncated tetrahedron	octahedron	Truncated tetrahedron	Tetrahedron

The above shapes may also be realized as slices orthogonal to the long diagonal of a tesseract. If this diagonal is oriented vertically with a height of 1, then the five slices above occur at heights $r$ , 3/8, 1/2, 5/8, and $s$ , where $r$ is any number in the range (0,1/4], and $s$ is any number in the range [3/4,1).

Tetrahemihexahedron

The regular octahedron shares its edges and vertex arrangement with one nonconvex uniform polyhedra: the tetrahemihexahedron, with which it shares four of the triangular faces.

Octahedron	Tetrahemihexahedron

Octahedra in the physical world

Fluorite octahedron.

Two identically formed Rubik's snakes: one octahedron

Especially in roleplaying games, this solid is known as a "d8", one of the more common non-cubical dice.

If each edge of an octahedron is replaced by a one ohm resistor, the resistance between opposite vertices is 1/2 ohms, and that between adjacent vertices 5/12 ohms.^[1]

Natural crystals of diamond, alum or fluorite are commonly octahedral.

The plates of kamacite alloy in octahedrite meteorites are arranged paralleling the eight faces of an octahedron

Octahedra in music

Six musical notes can be arranged on the vertices of an octahedron in such a way that each edge represents a consonant dyad and each face represents a consonant triad; see hexany.

Other octahedra

The following polyhedra are combinatorially equivalent to the regular polyhedron. They all have six vertices, eight triangular faces, and twelve edges that correspond one-for-one with the features of a regular octahedron.

Triangular antiprisms: Two faces are equilateral, lie on parallel planes, and have a common axis of symmetry. The other six triangles are isosceles.
Tetragonal bipyramids, in which at least one of the equatorial quadrilaterals lies on a plane. The regular octahedron is a special case in which all three quadrilaterals are planar squares.
Schönhardt polyhedron, a nonconvex polyhedron that cannot be partitioned into tetrahedra without introducing new vertices.

More generally, an octahedron can be any polyhedron with eight faces. The regular octahedron has 6 vertices and 12 edges, the minimum for an octahedron; nonregular octahedra may have as many as 12 vertices and 18 edges.[1] Other nonregular octahedra include the following.

Hexagonal prism: Two faces are parallel regular hexagons; six squares link corresponding pairs of hexagon edges.
Heptagonal pyramid: One face is a heptagon (usually regular), and the remaining seven faces are triangles (usually isosceles). It is not possible for all triangular faces to be equilateral.
Truncated tetrahedron. The four faces from the tetrahedron are truncated to become regular hexagons, and there are four more equilateral triangle faces where each tetrahedron vertex was truncated.
Tetragonal trapezohedron. The eight faces are congruent kites.

References

^ Klein, Douglas J. (2002). "Resistance-Distance Sum Rules" (PDF). Croatica Chemica Acta 75 (2): 633–649. http://jagor.srce.hr/ccacaa/CCA-PDF/cca2002/v75-n2/CCA_75_2002_633_649_KLEIN.pdf. Retrieved 2006-09-30.

External links

Wikisource has the text of the 1911 Encyclopædia Britannica article Octahedron.

Weisstein, Eric W., "Octahedron" from MathWorld.
Paper model of the octahedron
K.J.M. MacLean, A Geometric Analysis of the Five Platonic Solids and Other Semi-Regular Polyhedra
The Uniform Polyhedra
Virtual Reality Polyhedra The Encyclopedia of Polyhedra

v • d • e Polyhedra

Dihedron • Tetrahedron • Pentahedron • Hexahedron • Heptahedron • Octahedron • Decahedron • Dodecahedron • Tetradecahedron • Icosahedron

v • d • e Polyhedron navigator

Platonic solids (regular)	tetrahedron · cube · octahedron · dodecahedron · icosahedron

Archimedean solids (Semiregular/Uniform)	truncated tetrahedron · cuboctahedron · truncated cube · truncated octahedron · rhombicuboctahedron · truncated cuboctahedron · snub cube · icosidodecahedron · truncated dodecahedron · truncated icosahedron · rhombicosidodecahedron · truncated icosidodecahedron · snub dodecahedron

Catalan solids (Dual semiregular)	triakis tetrahedron · rhombic dodecahedron · triakis octahedron · tetrakis cube · deltoidal icositetrahedron · disdyakis dodecahedron · pentagonal icositetrahedron · rhombic triacontahedron · triakis icosahedron · pentakis dodecahedron · deltoidal hexecontahedron · disdyakis triacontahedron · pentagonal hexecontahedron

Dihedral regular	dihedron · hosohedron

Dihedral uniform	prisms · antiprisms

Duals of dihedral uniform	bipyramids · trapezohedra

Dihedral others	pyramids · truncated trapezohedra · gyroelongated bipyramid · cupola · pyramidal frusta

Degenerate polyhedra are in italics.

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	cubo-octahedral
	cubo-octahedron
	octahedral cleavage (crystallography)

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