Tuesday, March 27, 2018

I bet the answer is in the small..........infinitesimals....................Issac Newton............


Thus, what happens in the long run depends on the initial value a0. It's easy to show that if the initial value a0 is greater than 1.5, then the iterates run off to infinity, like they did when a0 was 2.0. Also, when the initial value a0 is less than –1.5, then, since after one iteration a1 is greater than 1.5, the iterates go off to infinity. With more work, you can show that if –1.5 < a0 < 1.5, then the iterates approach –0.5, like they did when a0 was 1.0. The remaining two initial values, namely 1.5 and –1.5, have all their iterates equal to 1.5. So the set of real numbers is partitioned into two parts, the closed interval [–1.5,1.5] of initial values whose iterates remain bounded, and the rest of the real numbers whose iterates do not remain bounded but approach infinity. This is shown graphically below. The real line is partitioned into the two sets with the interval [–1.5,1.5] drawn in light yellow, the rest in pink. We'll call the set of initial values whose iterates remain bounded the filled-in Julia set, or simply the Julia set for short. Thus, the light yellow set is the real Julia set for the function f(x) = x2 – 0.75.

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