 Cube

This article is about the geometric shape. For other uses, see Cube (disambiguation).
Regular Hexahedron
(Click here for rotating model)Type Platonic solid Elements F = 6, E = 12
V = 8 (χ = 2)Faces by sides 6{4} Schläfli symbol {4,3} Wythoff symbol 3  2 4 CoxeterDynkin Symmetry O_{h}, [4,3], (*432) References U_{06}, C_{18}, W_{3} Properties Regular convex zonohedron Dihedral angle 90°
4.4.4
(Vertex figure)
Octahedron
(dual polyhedron)
NetIn geometry, a cube^{[1]} is a threedimensional solid object bounded by six square faces, facets or sides, with three meeting at each vertex. The cube can also be called a regular hexahedron and is one of the five Platonic solids. It is a special kind of square prism, of rectangular parallelepiped and of trigonal trapezohedron. The cube is dual to the octahedron. It has cubical symmetry (also called octahedral symmetry). It is special by being a cuboid and a rhombohedron.
Contents
Cartesian coordinates
Orthographic projections For a cube centered at the origin, with edges parallel to the axes and with an edge length of 2, the Cartesian coordinates of the vertices are
 (±1, ±1, ±1)
while the interior consists of all points (x_{0}, x_{1}, x_{2}) with −1 < x _{i} < 1.
Formulae
For a cube of edge length a,
surface area 6a^{2} volume a^{3} face diagonal space diagonal radius of circumscribed sphere radius of sphere tangent to edges radius of inscribed sphere angles between faces As the volume of a cube is the third power of its sides a×a×a, third powers are called cubes, by analogy with squares and second powers.
A cube has the largest volume among cuboids (rectangular boxes) with a given surface area. Also, a cube has the largest volume among cuboids with the same total linear size(length+width+height).
Uniform colorings and symmetry
The cube has three uniform colorings, named by the colors of the square faces around each vertex: 111, 112, 123.
The cube has three classes of symmetry, which can be represented by vertextransitive coloring the faces. The highest octahedral symmetry O_{h} has all the faces the same color. The dihedral symmetry D_{4h} comes from the cube being a prism, with all four sides being the same color. The lowest symmetry D_{2h} is also a prismatic symmetry, with sides alternating colors, so there are three colors, paired by opposite sides. Each symmetry form has a different Wythoff symbol.
Name Regular hexahedron Square prism Cuboid Trigonal trapezohedron CoxeterDynkin Schläfli symbol {4,3} {4}x{} {}x{}x{} Wythoff symbol 3  4 2 4 2  2  2 2 2 Symmetry O_{h}
(*432)D_{4h}
(*422)D_{2h}
(*222)D_{3d}
(2*3)Symmetry order 24 16 8 12 Image
(uniform coloring)
(111)
(112)
(123)
(111), (112), (122), and (222)Geometric relations
A cube has 11 nets (one shown above): that is, there are 11 ways to flatten a hollow cube by cutting 7 edges.^{[2]} To colour the cube so that no two adjacent faces have the same colour, one would need at least 3 colours.
The cube is the cell of the only regular tiling of 3 dimensional Euclidean space. It is also unique among the Platonic solids in having faces with an even number of sides and, consequently, it is the only member of that group that is a zonohedron (every face has point symmetry).
The cube can be cut into 6 identical square pyramids. If these square pyramids are then attached to the faces of a second cube, a rhombic dodecahedron is obtained (with pairs of coplanar triangles combined into rhombic faces.)
Other dimensions
The analogue of a cube in fourdimensional Euclidean space has a special name—a tesseract or hypercube. More properly, a hypercube (or ndimensional cube or simply ncube) is the analogue of the cube in ndimensional Euclidean space and a tesseract is the order4 hypercube. A hypercube is also called a measure polytope.
There are analogues of the cube in lower dimensions too: a point in dimension 0, a segment in one dimension and a square in two dimensions.
Related polyhedra
The quotient of the cube by the antipodal map yields a projective polyhedron, the hemicube.
If the original cube has edge length 1, its dual polyhedron (an octahedron) has edge length .
The cube is a special case in various classes of general polyhedra:
Name Equal edgelengths? Equal angles? Right angles? Cube Yes Yes Yes Rhombohedron Yes Yes No Cuboid No Yes Yes Parallelepiped No Yes No quadrilaterally faced hexahedron No No No The vertices of a cube can be grouped into two groups of four, each forming a regular tetrahedron; more generally this is referred to as a demicube. These two together form a regular compound, the stella octangula. The intersection of the two forms a regular octahedron. The symmetries of a regular tetrahedron correspond to those of a cube which map each tetrahedron to itself; the other symmetries of the cube map the two to each other.
One such regular tetrahedron has a volume of ⅓ of that of the cube. The remaining space consists of four equal irregular tetrahedra with a volume of 1/6 of that of the cube, each.
The rectified cube is the cuboctahedron. If smaller corners are cut off we get a polyhedron with 6 octagonal faces and 8 triangular ones. In particular we can get regular octagons (truncated cube). The rhombicuboctahedron is obtained by cutting off both corners and edges to the correct amount.
A cube can be inscribed in a dodecahedron so that each vertex of the cube is a vertex of the dodecahedron and each edge is a diagonal of one of the dodecahedron's faces; taking all such cubes gives rise to the regular compound of five cubes.
If two opposite corners of a cube are truncated at the depth of the 3 vertices directly connected to them, an irregular octahedron is obtained. Eight of these irregular octahedra can be attached to the triangular faces of a regular octahedron to obtain the cuboctahedron.
Related uniform polyhedra Cube
Truncated cube
cuboctahedron
Truncated octahedron
Octahedron
Rhombicuboctahedron
truncated cuboctahedron
Snub cube
Stella octangula
All these figures have octahedral symmetry.
The cube is a part of a sequence of rhombic polyhedra and tilings with [n,3] Coxeter group symmetry. The cube can be seen as a rhombic hexahedron where the rhombi are squares.
Polyhedra Euclidean tiling Hyperbolic tiling [3,3] [4,3] [5,3] [6,3] [7,3] [8,3]
Cube
Rhombic dodecahedron
Rhombic triacontahedron
RhombilleRegular and uniform compounds of cubes
Compound of three cubes
Compound of five cubesIn uniform honeycombs and polychora
It is an element of 9 of 28 convex uniform honeycombs:
It is also an element of five fourdimensional uniform polychora:
Tesseract
Cantellated 16cell
Runcinated tesseract
Cantitruncated 16cell
Runcitruncated 16cell
Combinatorial cubes
A different kind of cube is the cube graph, which is the graph of vertices and edges of the geometrical cube. It is a special case of the hypercube graph.
An extension is the three dimensional kary Hamming graph, which for k = 2 is the cube graph. Graphs of this sort occur in the theory of parallel processing in computers.
See also
 Unit cube
 Tesseract
 Cube (film)
 Trapezohedron
 Yoshimoto Cube
 The Cube (game show)
 Prince Rupert's cube
 OLAP cube
References
External links
 Weisstein, Eric W., "Cube" from MathWorld.
 Richard Klitzing, 3D convex uniform polyhedra, o3o4x  cube
 Editable printable net of a cube with interactive 3D view
 Cube: Interactive Polyhedron Model
 K.J.M. MacLean, A Geometric Analysis of the Five Platonic Solids and Other SemiRegular Polyhedra
 The Uniform Polyhedra
 Virtual Reality Polyhedra
 Volume of a cube, with interactive animation
Polyhedron navigator Platonic solids (regular) Archimedean solids
(Semiregular/Uniform)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 hexecontahedronDihedral regular Dihedral uniform Duals of dihedral uniform Dihedral others Degenerate polyhedra are in italics.Fundamental convex regular and uniform polytopes in dimensions 2–10 Family A_{n} BC_{n} D_{n} E_{6} / E_{7} / E_{8} / F_{4} / G_{2} H_{n} Regular polygon Triangle Square Hexagon Pentagon Uniform polyhedron Tetrahedron Octahedron • Cube Demicube Dodecahedron • Icosahedron Uniform polychoron 5cell 16cell • Tesseract Demitesseract 24cell 120cell • 600cell Uniform 5polytope 5simplex 5orthoplex • 5cube 5demicube Uniform 6polytope 6simplex 6orthoplex • 6cube 6demicube 1_{22} • 2_{21} Uniform 7polytope 7simplex 7orthoplex • 7cube 7demicube 1_{32} • 2_{31} • 3_{21} Uniform 8polytope 8simplex 8orthoplex • 8cube 8demicube 1_{42} • 2_{41} • 4_{21} Uniform 9polytope 9simplex 9orthoplex • 9cube 9demicube Uniform 10polytope 10simplex 10orthoplex • 10cube 10demicube npolytopes nsimplex northoplex • ncube ndemicube 1_{k2} • 2_{k1} • k_{21} pentagonal polytope Topics: Polytope families • Regular polytope • List of regular polytopes Categories: Platonic solids
 Prismatoid polyhedra
 Spacefilling polyhedra
 Volume
 Zonohedra
 Elementary shapes
 Cubes
Wikimedia Foundation. 2010.
Look at other dictionaries:
cube — cube … Dictionnaire des rimes
cubé — cubé … Dictionnaire des rimes
cube — [ kyb ] n. m. • v. 1360; adj. nombres cubes XIIIe; lat. cubus, gr. kubos « dé à jouer » 1 ♦ Géom. Solide à six faces carrées égales, hexaèdre régulier. Le cube est un parallélépipède rectangle dont toutes les arêtes sont égales. Volume d un cube … Encyclopédie Universelle
CUBE — Тип … Википедия
Cube — (engl. Würfel) steht für: Cube (Computerspiel), Computerspiel Rubik s Cube, englische Bezeichnung für den Zauberwürfel von Ernő Rubik Cube (Fahrradhersteller), Fahrradhersteller aus Waldershof Nissan Cube, PKW Modell OLAP Würfel, Darstellungsform … Deutsch Wikipedia
Cube — (k[=u]b), n. [F. cube, L. cubus, fr. Gr. ???? a cube, a cubical die.] 1. (Geom.) A regular solid body, with six equal square sides. [1913 Webster] 2. (Math.) The product obtained by taking a number or quantity three times as a factor; as, 4x4=16 … The Collaborative International Dictionary of English
Cube — Saltar a navegación, búsqueda Cube Título Cube (España) El Cubo (Hispanoamérica) Ficha técnica Dirección Vincenzo Natali Producción Colin Brunton Guión … Wikipedia Español
Cube 2 — Cube² : Hypercube Cube² : Hypercube est un film canadien réalisé par Andrzej Sekula, sorti en 2002. Sommaire 1 Synopsis 2 Commentaire 3 Fiche technique 4 Distribution … Wikipédia en Français
cube — cube1 [kyo͞ob] n. [Fr < L cubus < Gr kybos, a cube, die, vertebra < IE base * keu(b) , to bend, turn > HIP1, HIVE, L cubare, to lie down] 1. a solid with six equal, square sides: see POLYHEDRON 2. anything having more or less this… … English World dictionary
cube — CUBE. s. m. Corps solide qui a six faces quarrées esgales. Figure posée sur un cube. Il est quelquefois adj. Un quarré cube. pied, toise, cube. racine cube … Dictionnaire de l'Académie française
cube — CUBE. s. m. Corps solide qui a six faces carrées égales. Figure posée sur un cube. [b]f♛/b] Il est quelquefois adjectif. Pied, toise cube. Racine cube … Dictionnaire de l'Académie Française 1798