# HW11 - \documentclass[12pt]cfw_article \textheight 9.0in...

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\documentclass[12pt]{article} \textheight 9.0in \textwidth 6.5in \topmargin -0.4in \headsep 0.4in \oddsidemargin -0.10in \evensidemargin 0.25in \def\pmbf#1{{\mbox{\boldmath${#1}$}}} \def\undertext#1{$\underline{\smash{\hbox{#1}}}$} \pagestyle{empty} \begin{document} %----------------------------------------------------% %%%%%%%%%%%%%%%%% CLASSICAL MECHANICS %%%%%%%%%%%%%%%% %----------------------------------------------------% \begin{center} {\bf ADVANCED DYNAMICS --- PHY--4241/5227}\\\vspace {2mm} {\bf HOMEWORK 11}\\% \vspace {3mm} (\today) \\ \vspace {1mm}{Due on Wednesday, April 2, 2003} \\ \end{center} \setcounter{equation}{0} \bigskip %%%%%%%%%%%%%%%%%%%%%%%%%% %%%%%%%%%%%%%%%%%%%%%%%%%% \centerline{\bf PROBLEM 32} \centerline{({\small Griffiths Problem 12.59})} \medskip A particle of mass $m$ collides elastically with an identical particle at rest. {\it Classically}, the outgoing trajectories always make an angle of $90^{\circ}$. Calculate this angle {\it relativistically}, in terms of $\phi$, the scattering angle, and $v$, the speed, in the center-of-momentum frame. \bigskip

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## HW11 - \documentclass[12pt]cfw_article \textheight 9.0in...

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