An introduction to computer simulation methods : applications to physical systems /
Harvey Gould, Jan Tobochnik y Wolfgang Christian.
- Tercera edición
- San Francisco: Pearson, 2007.
- ilustraciones.
Incluye índice.
2. Tools for Doing Simulations.-- 3. Simulating Particle Motion.-- 4. Oscillatory Systems.-- 5. Few-Body Problems: The Motion of the Planets.-- 6. The Chaotic Motion of Dynamical Systems.-- 7. Random Processes.-- 8. The Dynamics of Many-Particle Systems.-- 9. Normal Modes and Waves.--10. Electrodynamics.-- 11. Numerical and Monte Carlo Methods.-- 12. Percolation.-- 13. Fractals and Kinetic Growth Models.-- 14. Complex Systems.-- 15. Monte Carlo Simulations of Thermal Systems.-- 16. Quantum Systems.--17. Visualization and Rigid Bod Dynamics.-- 18. Seeing in Special and General Relativity.-- 19. Epilogue: The Unity of Physics.
In the third edition of this acclaimed and highly regarded undergraduate textbook, authors Harvey Gould and Jan Tobochnik are joined by Wolfgang Christian for a thorough and progressive update using Java - currently the most popular programming language. The text retains its renowned focus on teaching and learning physics concepts and their applications through computer simulations.
9780805377583
Física computacional Métodos de simulación física Física--Procesamiento de datos