Synopses & Reviews
An appropriate supplement for any undergraduate or graduate course in physics, Mathematica¨ for Physics uses the power of Mathematica¨ to visualize and display physics concepts and generate numerical and graphical solutions to physics problems. Throughout the book, the complexity of both physics and Mathematica¨ is systematically extended to broaden the range of problems that can be solved.
About the Author
Fredrick Olness received his B.S. from Duke University (1980), his M.S. and Ph.D. from the University of Wisconsin (1982,1985). Continuing his work-across-America tour, he took postdocs at Illinois Institute of Technology in Chicago (1985-88) and the University of Oregon in Eugene (1988-91), before joining Southern Methodist University in 1991 where he is now an Associate Professor of Physics. He is spending the 1997-98 academic year on sabbatical with the Theoretical Physics Group at Fermi National Accelerator Laboratory.
His research is in theoretical elementary particle physics phenomenology, at the interface between theory and experiment. Specifically, he studies Quantum Chromodynamics (the fundamental force that binds nuclei) to help answer the questions: What are the fundamental building blocks of nature, and what holds them together?
Fredrick initiated the DOE theory grant at SMU in 1992, was awarded an SSC Fellowship in 1993, and is an active member CTEQ collaborationa novel collaboration of theorists and experimentalists.
He has written over 50 research articles, served as a moderator for international workshops and conferences, and has been an invited speaker for international conferences and summer schools.
Table of Contents
1. Getting Started.
2. General Physics.
3. Oscillating Systems.
4. NonLinear Oscillating Systems.
5. Discrete Dynamical Systems.
6. Lagrangians and Hamiltonians.
7. Orbiting Bodies.
8. Electrostatics.
9. Quantum Mechanics.
10. Relativity and Cosmology.