COURSE

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Computational Physics course syllabus - Links to our programs

  1. Introduction
  2. (GT) Random walks, simulation vs. enumeration - PGPLOT
  3. (Koonin) Numerical differentiation, integration, roots
  4. (Koonin) Diff. Equations - example chaos - PGPLOT
  5. (Koonin) Diff. Equations - example T. I. Schroedinger eqn. - PGPLOT
  6. (JA) Molecular Dynamics, atomistic vizualization - example diamond/graphite - AViz
  7. (Koonin) Special functions, Gaussian quadrature - MATHEMATICA
  8. (Koonin, JA) Monte Carlo integration, Ising model, simulated annealing - Xtoys, PGPLOT, AViz
  9. (GT) Percolation, (HK algorithm - PGPLOT), fractals
  10. (JA) Percolation, series expansions + LINUX makefiles, remote batch submission
  11. (JA) HPC
  12. (Koonin) PDEs - example T.D. Schroedinger eqn. - PGPLOT
  13. (JA) Granular media - PGPLOT, Computational optics

Image at upper left is from a talk about my Computational Physics class.

See link at: http://phycomp.technion.ac.il/~newphr76ja/ath13/talktitle.html.