CDS 140b Spring 2014 Homework 2

__MATHJAX__

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UNDER CONSTRUCTION, DO NOT START

1. A planar pendulum (in the $x$-$z$ plane) of mass $m$ and length $\ell$ hangs from a support point that moves according to $x=a\cos (\omega t)$. Find the Lagrangian, the Hamiltonian, and write the first-order equations of motion for the pendulum.
2. Perko, Section 3.3, problem 5. Show that <amsmath>\aligned

   \dot x &=y+y(x^2+y^2)\\ \dot y &=x-x(x^2+y^2)

   \endaligned</amsmath>

   is a Hamiltonian system with $4H(x,y)=(x^2+y^2)^2-2(x^2-y^2)$. Show that $dH/dt=0$ along solution curves of this system and therefore that solution curves of this system are given by

   <amsmath>

   (x^2+y^2)^2-2(x^2-y^2)=C

   </amsmath>

   Show that the origin is a saddle for this system and that $(\pm 1,0)$ are centers for this system. (Note the symmetry with respect to the $x$-axis.) Sketch the two homoclinic orbits corresponding to $C=0$ and sketch the phase portrait for this system, noting the occurrence of a compound separatrix cycle.

3. Perko, Section 3.6, problem 4.