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[[Image:Box fractal.svg|thumb|245px|right|Vicsek fractal (5th iteration of cross form)]]
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In [[mathematics]] the '''Vicsek fractal''', also known as '''Vicsek snowflake''' or '''box fractal''',<ref>{{MathWorld|urlname=BoxFractal|title=Box Fractal}}</ref> is a [[fractal]] arising from a construction similar to that of the [[Sierpinski carpet]]. It has applications including as compact [[fractal antenna|antennas]], particularly in cellular phones.
 
==Construction==
The basic square is decomposed into nine smaller squares in the 3-by-3 grid. The four squares at the corners and the middle square are left, the other squares being removed. The process is repeated recursively for each of the five remaining subsquares. The Vicsek fractal is the set obtained at the limit of this procedure. The [[Hausdorff dimension]] of this fractal is <math>\textstyle{\frac {\log(5)} {\log(3)}}</math> ≈ 1.46497.
 
An alternative construction (shown below in the left image) is to remove the four corner squares and leave the middle square and the squares above, below, left and right of it. The two constructions produce identical limiting curves, but one is rotated by 45 degrees with respect to the other.
<gallery>
Image:Box_fractal2.PNG|Self-similarities I &mdash; removing corner squares.
Image:Box_fractal3.PNG|Self-similarities II &mdash; keeping corner squares.
</gallery>
[[File:Box or Vicsek Fractal 4-iterations.svg|550px|thumb|center|Four iterations of the saltire form of the fractal (top) and the cross form of the fractal (bottom).]]
 
==Properties==
The Vicsek fractal has the surprising property that it has zero area yet an infinite [[perimeter]], due to its non-integer dimension. At each iteration, four squares are removed for every five retained, meaning that at iteration ''n'' the area is <math>\textstyle{(\frac{5}{9})^n}</math> (assuming an initial square of side length 1). When ''n'' approached infinity, the area approaches zero. The perimeter however is <math>\textstyle{4(\frac{5}{3})^n}</math>, because each side is divided into three parts and the center one is replaced with three sides, yielding an increase of three to five. The perimeter approaches infinity as ''n'' increases.
 
The boundary of the Vicsek fractal is the [[Koch_snowflake#Variants_of_the_Koch_curve|Type 1 quadratic Koch curve]].
 
==Analogues in higher dimensions==
[[Image:3D Vicsek Fractal.gif|thumb|right|200px|Animation of the 3D analogue of the Vicsek fractal (third iteration)]]
There is a three-dimensional analogue of the Vicsek fractal. It is constructed by subdividing each cube into 27 smaller ones, and removing all but the "center cross", the central cube and the six cubes touching the center of each face. Its Hausdorff dimension is <math>\textstyle{\frac{\log(7)}{\log(3)}}</math> ≈ 1.7712.
 
Similarly to the two-dimensional Vicsek fractal, this figure has zero volume. Each iteration removes retains 7 cubes for every 27, meaning a volume of <math>\textstyle{(\frac{7}{27})^n}</math> at iteration ''n'', which approaches zero as ''n'' approaches infinity.
 
There exist an inifinite number of [[Cross section (geometry)|cross section]]s which yield the two-dimensional Vicsek fractal.
 
{{commonscat|Box fractals}}
==References==
{{reflist}}
 
==See also==
* [[Cross crosslet]]
* [[List of fractals by Hausdorff dimension]]
* [[Sierpinski carpet]]
* [[Sierpinski triangle]]
* [[N-flake]]
 
[[Category:Fractals]]

Latest revision as of 02:58, 4 January 2015

I'm a 44 years old, married and study at the high school (Nutritional Sciences).
In my spare time I try to teach myself Dutch. I've been there and look forward to returning anytime soon. I like to read, preferably on my beloved Kindle. I like to watch Two and a Half Men and Breaking Bad as well as docus about anything scientific. I love Baseball.

My web page; cheap ghd straighteners