Mandelbox

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]

Generation

The iteration applies to vector z as follows:

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.^[2]

Properties

A notable property of the mandelbox, particularly for scale -1.5, is that it contains approximations of many well known fractals within it.^[3]^[4]^[5]

For $1<|\mathrm {scale} |<2$ the mandelbox contains a solid core. Consequently its fractal dimension is 3, or n when generalised to n dimensions.^[6]

For $\mathrm {scale} <-1$ the mandelbox sides have length 4 and for $1<\mathrm {scale} \leq 4{\sqrt {n}}+1$ they have length $4\cdot {\frac {\mathrm {scale} +1}{\mathrm {scale} -1}}$ ^[6]

References

^ Lowe, Tom. "What Is A Mandelbox?". Archived from the original on 8 October 2016. Retrieved 15 November 2016.
^ ^a ^b Leys, Jos (27 May 2010). "Mandelbox. Images des Mathématiques". 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". web.archive.org. February 13, 2011.
^ ^a ^b Chen, Rudi. "The Mandelbox Set".

External links

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[1] Lowe, Tom. "What Is A Mandelbox?". Archived from the original on 8 October 2016. Retrieved 15 November 2016.

[leys-2] Leys, Jos (27 May 2010). "Mandelbox. Images des Mathématiques". French National Centre for Scientific Research. Retrieved 18 December 2019.

[3] "Negative 1.5 Mandelbox - Mandelbox". sites.google.com.

[4] "More negatives - Mandelbox". sites.google.com.

[5] "Patterns of Visual Math - Mandelbox, tglad, Amazing Box". web.archive.org. February 13, 2011.

[properties-6] Chen, Rudi. "The Mandelbox Set".

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v t e Fractals
Characteristics	Fractal dimensions Assouad Box-counting Higuchi Correlation Hausdorff Packing Topological Recursion Self-similarity
Iterated function system	Barnsley fern Cantor set Koch snowflake Menger sponge Sierpiński carpet Sierpiński triangle Apollonian gasket Fibonacci word Space-filling curve Blancmange curve De Rham curve Minkowski Dragon curve Hilbert curve Koch curve Lévy C curve Moore curve Peano curve Sierpiński curve Z-order curve String T-square n-flake Vicsek fractal Gosper curve Pythagoras tree Weierstrass function
Strange attractor	Multifractal system
L-system	Fractal canopy Space-filling curve H tree
Escape-time fractals	Burning Ship fractal Julia set Filled Newton fractal Douady rabbit Lyapunov fractal Mandelbrot set Misiurewicz point Multibrot set Newton fractal Tricorn Mandelbox Mandelbulb
Rendering techniques	Buddhabrot Orbit trap Pickover stalk
Random fractals	Brownian motion Brownian tree Brownian motor Fractal landscape Lévy flight Percolation theory Self-avoiding walk
People	Michael Barnsley Georg Cantor Bill Gosper Felix Hausdorff Desmond Paul Henry Gaston Julia Niels Fabian Helge von Koch Paul Lévy Aleksandr Lyapunov Benoit Mandelbrot Hamid Naderi Yeganeh Lewis Fry Richardson Wacław Sierpiński
Other	Coastline paradox Fractal art List of fractals by Hausdorff dimension The Fractal Geometry of Nature (1982 book) The Beauty of Fractals (1986 book) Chaos: Making a New Science (1987 book) Kaleidoscope Chaos theory

Generation

Properties

See also

References

External links