4/08/2014PHY 770 Spring 2014 -- Lecture 201 PHY 770 -- Statistical Mechanics 12:00 * - 1:45 PM TR Olin 107 Instructor: Natalie Holzwarth (Olin 300) Course.

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4/08/2014PHY 770 Spring Lecture 201 PHY Statistical Mechanics 12:00 * - 1:45 PM TR Olin 107 Instructor: Natalie Holzwarth (Olin 300) Course Webpage: Lecture 20 Chap. 9 – Transport coefficients  The Boltzmann equation  Treatment of the collision term  Examples * Partial make-up lecture -- early start time

4/08/2014PHY 770 Spring Lecture 202

4/08/2014PHY 770 Spring Lecture 203

4/08/2014PHY 770 Spring Lecture 204

4/08/2014PHY 770 Spring Lecture 205 The Boltzmann equation

4/08/2014PHY 770 Spring Lecture 206 Analysis of collision term Two-particle collision events v1v1 v2’v2’ v2v2 v1’v1’

4/08/2014PHY 770 Spring Lecture 207 Two-particle collision events v1v1 v2’v2’ v2v2 v1’v1’ Assumptions Only two-particle collisions considered Only elastic collisions considered Assume that force F does not effect collisions Assume that distribution function f(r,v,t) is slowly varying in r within collision volume In a two-particle collision, the distribution functions for the two particles are independent (uncorrelated)

4/08/2014PHY 770 Spring Lecture 208 Analysis of collision term Two-particle collision events v1v1 v2’v2’ v2v2 v1’v1’ Denotes the number of particles per unit time and per unit flux of particles 1 incident on particles 2 with initial velocities v 1,v 2 and final velocities v 1 ’, v 2 ’ Equivalent two-particle collision events v1v1 v2’v2’ v2v2 v1’v1’ v1v1 v2’v2’ v2v2 v1’v1’ v1v1 v2’v2’ v2v2 v1’v1’

4/08/2014PHY 770 Spring Lecture 209 Analysis of collision term b  As discussed in Appendix E of your textbook, the scattering cross section describes the effective area cut out of the incident beam by the scattering process.

4/08/2014PHY 770 Spring Lecture 2010 Analysis of collision term b 

4/08/2014PHY 770 Spring Lecture 2011 Analysis of collision term

4/08/2014PHY 770 Spring Lecture 2012 Summary of results:

4/08/2014PHY 770 Spring Lecture 2013 Some rough estimates:

4/08/2014PHY 770 Spring Lecture 2014 Properties of Bolzmann equation Described the time evolution of the distribution of particles in six-dimensional phase space for a dilute gas. In the absence of external fields, the system should decay to equilibrium as shown by Boltzmann’s H Theorem:

4/08/2014PHY 770 Spring Lecture 2015 Properties of Bolzmann’s H theorem continued (assume F=0)

4/08/2014PHY 770 Spring Lecture 2016 Properties of Bolzmann’s H theorem continued (assume F=0) Adding the two expressions together and switching variables, we find: This implies that at equilibrium:

4/08/2014PHY 770 Spring Lecture 2017 Conservation laws implied by Boltzmann equation These results lead to identities involving the distribution function

4/08/2014PHY 770 Spring Lecture 2018 Approximate solutions to Boltzmann equation