Homework 2

Homework 2: Due Friday 1 October

This assignment is not yet complete. A few short problems will be added Sunday or Monday.

Problem 1 is based very closely on a problem from Daniel Kaplan and Leon Glass, Understanding Nonlinear dynamics, Springer-Verlag, 1995. This is an excellent text; I used it the first time I taught this class. If you want to learn more about chaos and nonlinear dynamics, this is a great place to start.

1. The population of a species is described by the equation f(x) = ax e^(-t), where x >= 0 and a is a positive constant.
   1. Determine the fixed points.
   2. Evaluate the stability of the fixed points.
   3. For what value of a is the first period-doubling bifurcation?
   4. For what values of a will the population go extinct starting from any initial condition?
   5. Suppose you were to make a bifurcation diagram for this equation as a function of a. What do you think the bifurcation diagram would look like and why? Which features of the diagram could you predict, and which couldn't you?
   6. (optional)Using a computer, generate a bifurcation diagram as a function of a.

2. Calculate the Lyapunov exponent for the logistic equation with:
   1. r = 2.5
   2. r = 3.0
   3. r = 3.2
   
   
3. Determine the fractal dimension of the following shapes.
   1. The Sierpinski triangle. (Sierpinski lived from 1882-1969. Poland put him on a stamp.) Here's another view of the Sierpinski triangle.
   2. The Sierpinski carpet.
   3. The Menger sponge.
   4. The box fractal.

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