Menger sponge Guide, Meaning , Facts, Information and Description
[[Image:Gasket14.png|frame|right|An illustration of M3, the third iteration of the construction process. Image © Paul Bourke, used by permission]]The Menger sponge is a fractal solid. It is also known as the Menger-Sierpinski sponge or, incorrectly, the Sierpinski sponge. It is a three-dimensional extension of the Cantor set and Sierpinski carpet, with Hausdorff dimension (ln 20) / (ln 3) (approx. 2,726833). It was first described by Austrian mathematician Karl Menger in 1927.
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2 Properties 3 Formal definition 4 See also 5 External links |
As Peitgen, Jürgens and Saupe showed in 1992, the Menger sponge is also a super-object for all compact one-dimensional objects; that is, a topological equivalent of any compact one-dimensional object can be found in the Menger sponge.
This is an Article on Menger sponge. Page Contains Information, Facts Details or Explanation Guide About Menger sponge Construction
Construction of a Menger sponge can be visualized as follows:
After an infinite number of iterations, a Menger sponge will remain. Properties
Each face of the Menger sponge is a Sierpinski carpet; furthermore, any intersection of the Menger sponge with a diagonal or medium of the initial cube M0 is a Cantor set. The Menger sponge is a closed set; since it is also bounded, the theorem of Heine-Borel yields that it is compact. Furthermore, the Menger sponge is uncountable and has Lebesgue measure 0.Formal definition
Formally, a Menger sponge can be defined as follows:
where M0 is the unit cube andSee also
External links