9873
EXPLORE
LATEST
ABOUT
AUTHORING AREA
PARTICIPATE
Your browser does not support JavaScript or it may be disabled!
Splitting a Cube
Eight cubes are placed at the vertices of a larger cube. Then eight copies of that cube cluster are placed at the vertices of yet another cube. This begins the construction of a fractal structure.
Contributed by:
Sándor Kabai
THINGS TO TRY
Rotate and Zoom in 3D
SNAPSHOTS
RELATED LINKS
Cube
(
Wolfram
MathWorld
)
Fractal
(
Wolfram
MathWorld
)
PERMANENT CITATION
Sándor Kabai
"
Splitting a Cube
"
http://demonstrations.wolfram.com/SplittingACube/
Wolfram Demonstrations Project
Published: April 27, 2007
Share:
Embed Interactive Demonstration
New!
Just copy and paste this snippet of JavaScript code into your website or blog to put the live Demonstration on your site.
More details »
Download Demonstration as CDF »
Download Author Code »
(preview »)
Files require
Wolfram
CDF Player
or
Mathematica
.
Related Demonstrations
More by Author
Three Cylinders in a Cube
Sándor Kabai
Zeolite Unit Cell Based on Cuboctahedron
Sándor Kabai
12x12 Icosahedra
Sándor Kabai
Folding an Octahedron from Squares
Sándor Kabai and Ferenc Holló Szabó
Roofing a Cube to Produce a Dodecahedron
Sándor Kabai
Octahedron Fractal
Sándor Kabai and Ferenc Holló Szabó
30+12 Rhombic Triacontahedra
Sándor Kabai
Fractal Tetrahedron
Sándor Kabai
12 Rhombic Triacontahedra
Sándor Kabai
Koch-Subdivided Polyhedra
Stewart Dickson after work by Robert Dickau
Related Topics
3D Graphics
Fractals
Polyhedra
High School Finite Mathematics
High School Geometry
High School Mathematics
Browse all topics
Note: To run this Demonstration you need Mathematica 7+ or the free Mathematica Player 7EX
Download or upgrade to
Mathematica Player 7EX
I already have
Mathematica Player
or
Mathematica 7+