Model, analyze, and solve vibration problems, using modern computer tools. Featuring clear explanations, worked examples, applications, and modern computer tools, William Palm's Mechanical Vibration provides a firm foundation in vibratory systems. You'll learn how to apply knowledge of mathematics and science to model and analyze systems ranging from a single degree of freedom to complex systems with two and more degrees of freedom. Separate MATLAB sections at the end of most chapters show how to use the most recent features of this standard engineering tool, in the context of solving vibration problems. The text introduces Simulink where solutions may be difficult to program in MATLAB, such as modeling Coulomb friction effects and simulating systems that contain non-linearities. Ample problems throughout the text provide opportunities to practice identifying, formulating, and solving vibration problems. Key Features * Strong pedagogical approach, including chapter objectives and summaries * Extensive worked examples illustrating applications * Numerous realistic homework problems * Up-to-date MATLAB coverage * The first vibration textbook to cover Simulink * Self-contained introduction to MATLAB in Appendix A * Special section dealing with active vibration control in sports equipment * Special sections devoted to obtaining parameter values from experimental data
Chapter 1. Introduction to Mechanical Vibration. Chapter 2. Models with One Degree of Freedom. Chapter 3. Free Response with a Single Degree of Freedom. Chapter 4. Harmonic Response with a Single Degree of Freedom. Chapter 5. General Forced Response. Chapter 6. Two-Degree of Freedom Systems. Chapter 7. Vibration Suppression and Control. Chapter 8. Matrix Methods for Multi-Degree of Freedom Systems. Chapter 9. Vibration Measurement and Testing. Chapter 10. Distributed Systems. Chapter 11. Dynamic Finite Element Analysis. Appendix A: Introduction to MATLAB. Appendix B: Numerical Solution Methods. Appendix C: Mechanical Properties of Common Metals.