Computational physics is a rapidly growing subfield of
computational science, in large part because computers can solve
previously intractable problems or simulate natural processes that
do not have analytic solutions. The next step beyond Landau's
"First Course in Scientific Computing" and a follow-up to Landau
and Paez's "Computational Physics," this text presents a broad
survey of key topics in computational physics for advanced
undergraduates and beginning graduate students, including new
discussions of visualization tools, wavelet analysis, molecular
dynamics, and computational fluid dynamics. By treating science,
applied mathematics, and computer science together, the book
reveals how this knowledge base can be applied to a wider range of
real-world problems than computational physics texts normally
address.
Designed for a one- or two-semester course, "A Survey of
Computational Physics" will also interest anyone who wants a
reference on or practical experience in the basics of computational
physics. The text includes a CD-ROM with supplementary materials,
including Java, Fortran, and C programs; animations;
visualizations; color figures; interactive Java applets; codes for
MPI, PVM, and OpenDX; and a PVM tutorial.Accessible to advanced
undergraduates Real-world problem-solving approach Java codes and
applets integrated with text Accompanying CD-ROM contains codes,
applets, animations, and visualization files Companion Web site
includes videos of lectures "
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