Interpretation of the Mandelbrot Set: Chaos is Mathematically Deterministic

Chaos does not exist.

The Mandelbrot set only gives the appearance of chaos when the spiral hits a deterministic number, in the above case, at iteration number 1019.

Chaos is deterministically a function of iteration that has mathematically escaped out of the Mandelbrot set into the unstable area outside the Mandelbrot set. 

The black area shows the Mandelbrot set while the series of green circles forms a stable spiral.

In the picture, the spiral - which is a stable formation inside the Mandelbrot set - escapes out of the set at iteration 1019. 

That is to say, the spiral has become unstable when it reaches 1019 iterations.

Reference: https://www.youtube.com/watch?v=7MotVcGvFMg

Addendum: The picture below shows the picture of the Mandelbrot set on a graph setting.


Basic idea behind the cosmos is the unit circle which when iterated under x^2+x-1=0 gives rise to the Mandelbrot set. 

Solutions to the equation have roots 0.16803 and -1.16803: https://www.symbolab.com/solver?origin=ddg&query=x%5E2%2Bx-1%3D0

x^2-x-1=0 gives solutions -0.618 and 1.1618


Roots of the equation x^2-x-1=0 are 0.618 and -1.618, which are associated with Fibonacci proportions, which expresses beauty in the cosmos.


 

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