振動の原理(第2版)<br>Principles of Vibration (2ND)

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振動の原理(第2版)
Principles of Vibration (2ND)

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  • 製本 Hardcover:ハードカバー版/ページ数 528 p.
  • 言語 ENG
  • 商品コード 9780195142464
  • DDC分類 620.3

基本説明

The second edition includes more exercises and examples, and incorporates MATLAB software.

Full Description

Principles of Vibration covers the standard principles of vibration for mechanical and civil engineering. This second edition includes more exercises and examples plus a unique chapter on real-life approaches to vibration problems.

Contents

Chapter 1. Free Vibration of Single-Degree-of-Freedom Systems
1.1: Introduction
1.2: Translational Vibrations--Undamped
1.3: Rotational Vibrations and Linearization
1.4: Viscous Damping
1.5: Lagrange's Equations
1.6: Homework Problems
Chapter 2. Forced Vibration of Single-Degree-of-Freedom System
2.1: Introduction
2.2: Seismic Excitation--Step Input
2.3:
2.4: Direct Force Excitation
2.5: Transfer Functions
2.6: Viscous Damping
2.7: Complex Representations
2.8: Damped Seismic Motion
2.9: Rotating Imbalance
2.10: Identification of Damping and Natural Frequency
2.11: Other Types of Damping
2.12: Accelerometers and Seismometers
2.13: Homework Problems
Chapter 3. Nonsinusoidal Excitations
3.1: Introduction
3.2: Fourier Series Analysis
3.3: Forced Response via the Convolution Integral
3.4: Shock Response
3.5: Homework Problems
Chapter 4. Vibrations Involving More Than One Degree of Freedom
4.1: Introduction
4.2: Free Response--Undamped System
4.3: Forced Response
4.4: Vibration Absorbers without Damping
4.5: Real Behavior of a Vibration Absorber
4.6: Zeros in a Forced Response
4.7: Putting Problems into Normal Form
4.8: Orthogonality of System Eigenvectors
4.9: More on Normal Forms
4.10: Linear Damping
4.11: Comparison of Damped Eigensolutions
4.12: Forced Response of Damped Systems
4.13: Symmetry of Mass and Stiffness Matrices
4.14: Repeated Frequencies and Zero Frequencies
4.15: Influence Coefficients
4.16: Homework Problems
Chapter 5. Distributed Systems
5.1: Introduction
5.2: Free Vibration of a Bar (Rod, String, etc.)
5.3: Free Vibration of a Beam
5.4: Continuous Systems--Forced Vibration
5.5: Orthogonality of Eigenfunctions
5.6: Homework Problems
Chapter 6. Approximate Solutions Methods
6.1: Introduction
6.2: Lumped Approximations
6.3: Rayleigh's Quotient
6.4: Rayleigh-Ritz Method: Discrete Systems
6.5: Rayleigh-Ritz Method: Continuous Problems
6.6: Assumed Modes Method
6.7: Homework Problems
Chapter 7. Seat-of-the-Pants Engineering
7.1: Introduction
7.2: Getting Approximate Results
7.3: Limiting Cases
7.4: Verifying Your Analysis
7.5: Homework Problems
Chapter 8. Experimental Methods and Real World Behavior
8.1: Introduction
8.2: Signal Descriptions
8.3: Fourier Transform Analysis
8.4: Spectral Analyses
8.5: Noise
8.6: Sensors and Actuators
8.7: Nonlinear Effects
8.8: Homework Problems
Appendix A. Four Continuous Systems
Appendix B. Lumped Spring Constants
Appendix C. Assorted Material Constants
Appendix D. Elementary Matrix Relations
References
Selected Readings
Answers to Selected Problems
Index