Difference between revisions of "Hypercube"
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==Links== | ==Links== | ||
− | * [[cube]] | + | * [[cube (geometry) | cube]] |
− | * [[square]] | + | * [[square (geometry) | square]] |
* [[dimension]] | * [[dimension]] | ||
+ | * [[cross-polytope]] | ||
To see an <math>\mathfrak{e}</math>xample of a 4D cube, click here: [https://latex.artofproblemsolving.com/3/d/5/3d5fc91ddaa1838f367ade6a2baa0649edd32317.png] | To see an <math>\mathfrak{e}</math>xample of a 4D cube, click here: [https://latex.artofproblemsolving.com/3/d/5/3d5fc91ddaa1838f367ade6a2baa0649edd32317.png] | ||
[[Category: Geometry]] | [[Category: Geometry]] |
Latest revision as of 15:35, 20 August 2024
As used in geometry, a hypercube is an extrapolation of the cube or square to n dimensions. When n is not specified, it's generally assumed to be 4. For example, a 4th dimensional hypercube is called a tesseract. Therefore, an n-dimensional hypercube is also known as an n-cube. It is best drawn and represented in non-Euclidean geometry.
Tesseract
A tesseract is the 4th dimensional hypercube. It is made by combining two cubes. The net of a tesseract is composed of 8 cubes. It has the Schlaefli symbol . One simple coordinate system for its vertices are . The alternated tesseract is a 4D cross-polytope, which coincidentally, is also it's dual.
Extra Notes
The alternated hypercube is known as a demicube. The dual of the hypercube is known as the cross-polytope. For dimensions n≥3, the only n-dimensional regular honeycomb is made of the hypercube.
Links
To see an xample of a 4D cube, click here: [1]