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In mathematics, the mandelbox is a fractal with a boxlike shape found by Tom Lowe in 2010. It is defined in a similar way to the famous Mandelbrot set as the values of a parameter such that the origin does not escape to infinity under iteration of certain geometrical transformations. The mandelbox is defined as a map of continuous Julia sets, but, unlike the Mandelbrot set, can be defined in any number of dimensions.[1] It is typically drawn in three dimensions for illustrative purposes.[2][3]
Simple definition
editThe simple definition of the mandelbox is this: repeatedly transform a vector z, according to the following rules:
- First, for each component c of z (which corresponds to a dimension), if c is greater than 1, subtract it from 2; or if c is less than -1, subtract it from −2.
- Then, depending on the magnitude of the vector, change its magnitude using some fixed values and a specified scale factor.
Generation
editThe iteration applies to vector z as follows:[clarification needed]
function iterate(z): for each component in z: if component > 1: component := 2 - component else if component < -1: component := -2 - component if magnitude of z < 0.5: z := z * 4 else if magnitude of z < 1: z := z / (magnitude of z)^2 z := scale * z + c
Here, c is the constant being tested, and scale is a real number.[3]
Properties
editA notable property of the mandelbox, particularly for scale −1.5, is that it contains approximations of many well known fractals within it.[4][5][6]
For the mandelbox contains a solid core. Consequently, its fractal dimension is 3, or n when generalised to n dimensions.[7]
For the mandelbox sides have length 4 and for they have length .[7]
See also
editReferences
edit- ^ Lowe, Tom. "What Is A Mandelbox?". Archived from the original on 8 October 2016. Retrieved 15 November 2016.
- ^ Lowe, Thomas (2021). Exploring Scale Symmetry. Fractals and Dynamics in Mathematics, Science, and the Arts: Theory and Applications. Vol. 06. World Scientific. doi:10.1142/11219. ISBN 978-981-3278-55-4. S2CID 224939666.
- ^ a b Leys, Jos (27 May 2010). "Mandelbox. Images des Mathématiques" (in French). French National Centre for Scientific Research. Retrieved 18 December 2019.
- ^ "Negative 1.5 Mandelbox – Mandelbox". sites.google.com.
- ^ "More negatives – Mandelbox". sites.google.com.
- ^ "Patterns of Visual Math – Mandelbox, tglad, Amazing Box". February 13, 2011. Archived from the original on February 13, 2011.
- ^ a b Chen, Rudi. "The Mandelbox Set".
External links
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