Computational Physics (2nd Edition) Nicholas J. Giordano !!INSTALL!!
Computational Physics (2nd Edition) Nicholas J. Giordano - https://urllie.com/2t7bWM
Briefly about the book:This new edition of Computational Physics expands the originalgreatly on both the range of the physics problems treated and the numericalalgorithms described. It contains a whole new chapter on the physics of musicas well as several new sections such as those discussing the scaling inphase transitions, coupled nonlinear oscillators, two-dimensionaltime-dependent Schroedinger equation, real neurons, and cellular automata.In addition, a series of self-contained appendices that elaborate onthe various numerical algorithms and theories behind them are givenincluding one that discusses the solution of linear systems, a topicthat was little touched in the original edition. View the Table of Contents
Nicholas Giordano obtained his B.S. at Purdue University and his Ph.D. at Yale University. He has been on the faculty at Purdue since 1979, served as an Assistant Dean of Science from 2000-2003, and is currently the Hubert James Distinguished Professor of Physics. His research interests include electrical conduction, superconductivity, and magnetism in ultra-small metallic structures, along with musical acoustics and the physics of the piano. Ideas for this book grew out of the course on computational physics that he developed and taught in the early 1990s. Professor Giordano earned a Computational Science Education Award from the Department of Energy in 1997, and in 2004 was named Indiana Professor of the Year by the Carnegie Foundation for the Advancement of Teaching and the Council for the Advancement and Support of Education.
Written for students, Computational Physics introduces readers to basic numerical techniques and illustrates how to apply them to a variety of problems. The revised second edition expands on both the range of the physics problems treated and the numerical algorithms described. It contains a new chapter on the physics of music and includes several new sections, such as those discussing scaling in phase transitions, coupled nonlinear oscillators, two-dimensional time-dependent Schrodinger equations, real neurons, and cellular automata. 2b1af7f3a8