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ITERATIVE DYNAMIC SYSTEMS THROUGH THE MANDELBROT AND JULIA SETS

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1 ITERATIVE DYNAMIC SYSTEMS THROUGH THE MANDELBROT AND JULIA SETS
Jonathan Arena and Joseph O’Connor

2 Iterative Dynamic Systems
Start with a function f(z) in the complex plane and consider the orbit of a starting point (seed) z0 Of(z0 ) = { zn+1 = f(zn) for some starting point z0} = {z0, f(z0), f(f(z0)),…} = {z0, z1, z2,…} Study the convergence behavior of this sequence of iterated points

3 Example: f(z)=z2 Of(0) = {0, f(0), f(f(0)), f(f(f(0))), … } = {0, 0, 0, … } (0 is called a fixed point) Of(1/2) = {1/2, f(1/2), f(f(1/2)), f(f(f(1/2))), … } = {1/2, 1/4, 1/16, 1/256, … } (converges to zero) Of(2) = {2, f(2), f(f(2)), f(f(f(2))), … } = {2, 4, 16, 256, … } (converges to infinity)

4 Example: f(z)=z2 All points inside the circle converge to 0
All points outside the circle converge to infinity

5 Family of Functions: fc(z)=z2+c
Two basic Questions: Fix a parameter c and study the orbits of z0 for varying z0 => Julia sets (Gaston Julia, 1893 – 1978) Fix a seed z0 and study the orbits of that seed as the parameter c changes. => Mandelbrot set (Benoit Mandelbrot, 1924 – 2010)

6 Julia Sets (fixing c) The filled-in Julia set is the set of all bounded orbits Jc = {z: orbits under fc(z)=z2+c are bounded} Theorem: Jc is never empty because it contains at least the fixed and all periodic points f(z) = z (fixed point) f(f(z)) = z (period 2 point) f(f(f(z))) = z (period 3 point)

7 Property of the Julia Sets
Theorem: Jc is either connected or totally disconnected Definition of total disconnectedness: A set S is totally disconnected if it has no interior, i.e. there is no path connecting any two points in S.

8 Mandelbrot Set M (fixing z0)
Definition: M = {c: Jc is connected}

9 Property of the Mandelbrot Set
Theorem: M = {c: Jc is connected} = {c: |fc(n)(0)| is bounded} (0 is the critical point for fc(z) = z2 + c) NOTE: The (single) Mandelbrot set can be considered an “index” for the (many) Julia sets

10 c= i A point that is outside the Mandelbrot set, such as c= i, results in a disconnected Julia set. Conversely, a point inside the Mandelbrot set, such as c=0.1 – 0.5i, results in a connected Julia set. c= i

11 Computer Programs Two programs in Java:
Create numerous paths through the Mandelbrot set to create various Julia sets, and show these images in quick succession Fix different viewing windows for the Mandelbrot set to create zoomed-in images, and show these images in rapid succession

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