Lectures Slides (No Video)

These slides are part of a multimodal CP eTextBook with interactive Python and other enhancements.

Computational Physics
Lecture Slides Only
To Accompany eTextBook

Slides Encapsulated with Video Lectures (Flash) Here
Slides Encapsulated with Video Lectures (mp4/iPad) Here

Based on Books by Landau, Paez & Bordeianu

with Support from the National Science Foundation, CCLI-0836971

Screen shot of video lec

Each video module is several hundred Meg and so may be slow to load. The module links are for use with the eBook.

1.3	Intro to CP	8.1	N-Dim Search	10.5	FT5: Filters for Noise	14.10	Parallel Compute	18.5	Quantum Wave Packets
1.5	Computing Basics	8.3	Matrix Computing I	10.8	FT6: Fast FT	14.14	HPC Exercises I & II	18.9	Fin Diff T Domain
1.7	Number Representations	8.4	Matrix Computing II	11.1	Wavelet I	15.1	Ising Magnets	19.1	Fluid Dynamics
1.7	IEEE Floats	8.5	Interpolation	11.4	Wavelet II	15.7	Feynman Path I & II	19.3	Shocks & Solitons
1.7	Machine Precision	8.8	Least Square Fitting	12.1	Bugs	16	Molecular Dynam I & II	20.1	Integral Eqn, QM Bound
2	Errors	9	Ordinary Diff Eqs	12.10	Chaotic Pend I	17.1	Intro to PDEs	20.3	Integral Eqn, QM Scatter
4	Object Oriented Progs I	9.5	ODE Algorithms	12.12	Chaotic Pend II	17.2	PDE Electric I, II
5.1	Random, Monte Carlo	9.5	ODE Lab 1	12.14	Chaotic Pend III	17.10	Finite Element Mth
5.3	Monte Carlo Simulations	9.10	ODE Eigenvalue	12.13	Fractals I	17	PDE Heat Eqn
6	Numerical Integration	10	FT1: Fourier Intro	13.3	Fractals II	17.16	Heat via Crank-N
7	Numeric Derivatives	10.4	FT2, 3 Discrete FT I & II	14	Hi Perf Compute	18.1	String Waves
7.7	Trial & Error Searching	10.4	FT4 :DFT Aliasing	14	HPC Hardware II	18.3	Catenary Waves