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9780137261420

Engineering Vibration

by
  • ISBN13:

    9780137261420

  • ISBN10:

    013726142X

  • Edition: 2nd
  • Format: Hardcover
  • Copyright: 2008-01-01
  • Publisher: Prentice Hall
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List Price: $143.00

Summary

For one/two-semester introductory courses in vibration for undergraduates in Mechanical Engineering, Civil Engineering, Aerospace Engineering and Mechanics. Serving as both text and reference manual, this book connects traditional design-oriented topics, the introduction of modal analysis, and the use of MATLAB?, Mathcad?, or Mathematica?. The author provides an unequaled combination of the study of conventional vibration with the use of vibration design, computation, analysis and testing in various engineering applications.

Table of Contents

Preface xi
Introduction
1(88)
Introduction to Free Vibration
2(6)
Harmonic Motion
8(6)
Viscous Damping
14(9)
Modeling and Energy Methods
23(11)
Stiffness
34(9)
Measurement
43(5)
Design Considerations
48(5)
Stability
53(3)
Numerical Simulation of the Time Response
56(9)
Coulomb Friction and the Pendulum
65(24)
Problems
77(10)
Matlab Engineering Vibration Toolbox
87(1)
Toolbox Problems
88(1)
Response to Harmonic Excitation
89(79)
Harmonic Excitation of Undamped Systems
90(7)
Harmonic Excitation of Damped Systems
97(9)
Alternative Representations
106(6)
Base Excitation
112(8)
Rotating Unbalance
120(5)
Measurement
125(4)
Other Forms of Damping
129(10)
Numerical Simulation and Design
139(8)
Nonlinear Response Properties
147(21)
Problems
156(11)
Matlab Engineering Vibration Toolbox
167(1)
Toolbox Problems
167(1)
General Forced Response
168(75)
Impulse Response Function
170(7)
Response to an Arbitrary Input
177(6)
Response to an Arbitrary Periodic Input
183(7)
Transform Methods
190(4)
Response to Random Inputs
194(8)
Shock Spectrum
202(4)
Measurement via Transfer Functions
206(3)
Stability
209(4)
Numerical Simulation of the Response
213(11)
Nonlinear Response Properties
224(19)
Problems
232(10)
Matlab Engineering Vibration Toolbox
242(1)
Toolbox Problems
242(1)
Multiple-Degree-Of-Freedom Systems
243(116)
Two-Degree-of-Freedom Model (Undamped)
244(11)
Eigenvalues and Natural Frequencies
255(12)
Modal Analysis
267(8)
More Than Two Degrees of Freedom
275(14)
Systems with Viscous Damping
289(5)
Modal Analysis of the Forced Response
294(6)
Lagrange's Equations
300(7)
Examples
307(12)
Computational Eigenvalue Problems of Vibration
319(18)
Numerical Simulation of the Time Response
337(22)
Problems
345(12)
Matlab Engineering Vibration Toolbox
357(1)
Toolbox Problems
357(2)
Design for Vibration Suppression
359(72)
Acceptable Levels of Vibration
360(6)
Vibration Isolation
366(11)
Vibration Absorbers
377(7)
Damping in Vibration Absorption
384(7)
Optimization
391(8)
Viscoelastic Damping Treatments
399(5)
Critical Speeds of Rotating Disks
404(6)
Active Vibration Suppression
410(2)
Practical Isolation Desing
412(19)
Problems
420(10)
Matlab Engineering Vibration Toolbox
430(1)
Toolbox Problems
430(1)
Distributed-Parameter Systems
431(64)
Vibration of a String or Cable
433(3)
Modes and Natural Frequencies
436(10)
Vibration of Rods and Bars
446(6)
Torsional Vibration
452(6)
Bending Vibration of a Beam
458(12)
Vibration of Membranes and Plates
470(5)
Models of Damping
475(5)
Modal Analysis and the Forced Response
480(15)
Problems
487(6)
Matlab Engineering Vibration Toolbox
493(1)
Toolbox Problems
493(2)
Vibration Testing and Experimental Modal Analysis
495(38)
Measurement Hardware
497(4)
Digital Signal Processing
501(5)
Random Signal Analysis in Testing
506(3)
Modal Data Extraction
509(4)
Model Parameter by Circle Fitting
513(4)
Mode Shape Measurement
517(6)
Vibration Testing for Endurance and Diagnostics
523(3)
Operational Deflection Shape Measurement
526(7)
Problems
528(4)
Matlab Engineering Vibration Toolbox
532(1)
Toolbox Problems
532(1)
Finite Element Method
533(38)
Example: The Bar
535(6)
Three-Element Bar
541(5)
Beam Elements
546(7)
Lumped Mass Matrices
553(3)
Trusses
556(4)
Model Reduction
560(11)
Problems
563(7)
Matlab Engineering Vibration Toolbox
570(1)
Toolbox Problems
570(1)
Appendix A Complex Numbers and Functions 571(6)
Appendix B Laplace Transforms 577(5)
Appendix C Matrix Basics 582(12)
Appendix D The Vibration Literature 594(1)
Appendix E List of Symbols 595(5)
Appendix F Introduction to Matlab, Mathcad and Mathematica 600(1)
Appendix G Engineering Vibration Toolbox and Web Support 601(2)
References 603(2)
Answers to Selected Problems 605(6)
Index 611

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