Title: Engineering System Dynamics : A Unified Graph-Centered Approach, 2nd Edition Author: Forbes T. Brown ISBN: 0849396484 / 9780849396489 Format: Hard Cover Pages: 1059 Publisher: CRC Press Year: 2006 Availability: 2 to 3 weeks
Description
Contents
For today's students, learning to model the dynamics of complex systems is increasingly important across nearly all engineering disciplines. First published in 2001, Forbes T. Brown's Engineering System Dynamics : A Unified Graph-Centered Approach introduced students to a unique and highly successful approach to modeling system dynamics using bond graphs. Updated with nearly one-third new material, this second edition expands this approach to an even broader range of topics.
What's New in the Second Edition?
In addition to new material, this edition was restructured to build students' competence in traditional linear mathematical methods before they have gone too far into the modeling that still plays a pivotal role. New topics include magnetic circuits and motors including simulation with magnetic hysteresis; extensive new material on the modeling, analysis, and simulation of distributed-parameter systems; kinetic energy in thermodynamic systems; and Lagrangian and Hamiltonian methods. MATLAB® figures prominently in this edition as well, with code available for download from the Internet. This code includes simulations for problems that appear in the later chapters as well as code for selected thermodynamic substances.
Using a step-by-step pedagogy accompanied by abundant examples, graphs, illustrations, case studies, guided exercises, and homework problems, Engineering System Dynamics : A Unified Graph-Centered Approach, Second Edition is a text that students will embrace and continue to use well into their careers. While the first half of the book is ideal for junior-level undergraduates, the entire contents are suited for more advanced students.
Preface
Chapter 1 : Introduction Chapter 2 : Source-Load Synthesis Chapter 3 : Simple Dynamic Models Chapter 4 : Analysis of Linear Models, Part 1 Chapter 5 : Basic Modeling Chapter 6 : Mathematical Formulation and Bond Graphs Chapter 7 : Analysis of Linear Models, Part 2 Chapter 8 : Introduction to Automatic Control Chapter 9 : Extended Modeling Chapter 10 : Distributed-Parameter Models Chapter 11 : Thermodynamic Systems Chapter 12 : Topics in Advanced Modeling
Appendix A : Introduction to Matlab®
Appendix B : Classical Vibrations
Appendix C : Laplace Transform Pairs
Appendix D : Thermodynamic Data and Computer Code
Index