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 links within a module 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