Rao, Mechanical Vibrations. Preliminary Remarks¿1. Brief History of Vibration 1. Origins of Vibration 1. From Galileo to Rayleigh 1. Recent Contributions ¿1. Importance of the Study of Vibration¿1.
Basic Concepts of Vibration 1. Elementary Parts of Vibrating Systems 1. Vibration 1. 4. 3 Degree of Freedom ¿1. Classification of Vibration 1. Discrete and Continuous Systems 1.
Deterministic and Random Vibration 1. Linear and Nonlinear Vibration 1. Undamped and Damped Vibration 1. Free and Forced Vibration ¿1. Vibration Analysis Procedure ¿1. Spring Elements 1. Nonlinear Springs 1.
Linearization of a Nonlinear Spring 1. Spring Constants of Elastic Elements 1. Combination of Springs. Spring Constant Associated with the Restoring Force due to Gravity ¿1. Mass or Inertia Elements 1.
Combination of Masses ¿1. Damping Elements 4.
Construction of Viscous Dampers 4. Combination of Dampers 5. Linearization of a Nonlinear Damper 5. Harmonic Motion 5. Vectorial Representation of Harmonic Motion 5. Complex Number Representation of Harmonic Motion 5. Complex Algebra 5.
- Commercial Documents. Mechanical Vibrations. Singiresu S. Rao A Brief Introduction To Fluid Mechanics, Student Solutions Manual, 5th Edition Solutions Manual for.
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- SINGIRESU S. RAO, PhD, is a professor in the School of Mechanical Engineering at Purdue University. He earned his doctorate from Case Western Reserve University and.
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Operations on Harmonic Functions 5. Definitions and Terminology 6. Harmonic Analysis 1. Complex Fourier Series 1. Frequency Spectrum 1. Time and Frequency Domain Representations 1. Even and Odd Functions 1.
Half- Range Expansions 1. Numerical Computation of Coefficients ¿1. Examples Using Matlab.
Vibration Literature References Chapter Summary Review Questions Problems Design Projects ¿CHAPTER 2 Free Vibration of Single Degree of Freedom Systems¿2. Introduction 1. 26¿2. Free Vibration of an Undamped Translational System 2.
Equation of Motion Using Newton’s Second Law of Motion 2. Equation of Motion Using Other Methods 2. Equation of Motion of a Spring- Mass System in Vertical Position 2. Solution 2. 2. 5 Harmonic Motion ¿2.
Free Vibration of an Undamped Torsional System 1¿2. Equation of Motion 2. Solution ¿2. 4 Response of First Order Systems and Time Constant ¿2. Rayleigh’s Energy Method 2. Solution 2. 6. 1 Equation of Motion 2. Logarithmic Decrement 2. Energy Dissipated in Viscous Damping 2.
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Torsional Systems with Viscous Damping ¿2. Graphical Representation of Characteristic Roots and Corresponding Solutions 2. Roots of the Characteristic Equation 2. Graphical Representation of Roots and Corresponding Solutions ¿2. Parameter Variations and Root Locus Representations 2. Interpretations of and in s- plane. Root Locus and Parameter Variations ¿2.
Free Vibration with Coulomb Damping 2. Equation of Motion 2. Solution 2. 9. 3 Torsional Systems with Coulomb Damping ¿2. Free Vibration with Hysteretic Damping ¿2. Stability of Systems Chapter Summary Review Questions References Problems Design Projects ¿CHAPTER 3 Harmonically Excited Vibration. Introduction ¿3. 2 Equation of Motion¿3. Response of an Undamped System Under Harmonic Force 3.
Beating Phenomenon 3. Total Response ¿3. Response of a Damped System Under Harmonic Force 3. Total Response 3. Quality Factor and Bandwidth ¿3. Response of a Damped System Under ¿3.
Response of a Damped System Under the Harmonic Motion of the Base 3. Force Transmitted 3. Relative Motion ¿3.
Response of a Damped System Under Rotating Unbalance ¿3. Forced Vibration with Coulomb Damping ¿3. Forced Vibration with Hysteresis Damping ¿3. Forced Motion with Other Types of Damping ¿3. Self- Excitation and Stability Analysis ¿3. Dynamic Stability Analysis ¿3. Dynamic Instability Caused by Fluid Flow ¿3.
Transfer Function Approach ¿3. Solutions Using Laplace Transforms ¿3. Frequency Transfer Functions 3. Relation Between the General Transfer function T(s)and the Frequency Transfer Function 3. Representation of Frequency Response Characteristics ¿3. Examples Using Matlab References Chapter Summary Review Questions Problems Design Projects ¿CHAPTER 4 Vibration Under General Forcing Conditions.
Introduction ¿4. 2 Response Under a General Periodic Force 4. First- Order Systems 4. Second- Order Systems ¿4. Response Under a Periodic Force of Irregular Form ¿4.
Response Under a Nonperiodic Force¿4. Convolution Integral 4. Response to an Impulse 4.
Response to a General Forcing Condition 4. Response to Base Excitation ¿4.
Response Spectrum 4. Response Spectrum for Base Excitation 4. Earthquake Response Spectra 4.
Design Under a Shock Environment ¿4. Laplace Transform 4. Transient and Steady- State Responses 4. Response of First- Order Systems 4. Response of Second Order Systems. Response to Step Force 4. Analysis of the Step Response 4.
Description of Transient Response ¿4. Numerical Methods 4. Runge- Kutta Methods ¿4. Response to Irregular Forcing Conditions Using Numerical Methods ¿4.
Examples Using Matlab References Chapter Summary Review Questions Problems Design Projects ¿CHAPTER 5 Two Degree of Freedom Systems¿5. Introduction 5. 2 Equations of Motion for Forced Vibration 5. Free Vibration Analysis of an Undamped System 5. Torsional System 5. Coordinate Coupling and Principal Coordinates 5.
Forced Vibration Analysis 5. Semidefinite Systems 5.
Self- Excitation and Stability Analysis 5. Transfer Function Approach 5.
Solutions Using Laplace Transform 5. Solutions Using Frequency Transfer Functions 5. Examples Using Matlab ¿Chapter Summary Review Questions References Problems Design Projects¿CHAPTER 6 Multidegree of Freedom Systems¿6. Introduction ¿6. 2 Modeling of Continuous Systems as Multidegree of Freedom Systems ¿6. Using Newton’s Second Law to Derive Equations of Motion ¿6.
Influence Coefficients 6. Stiffness Influence Coefficients 6. Flexibility Influence Coefficients 6. Inertia Influence Coefficients ¿6. Potential and Kinetic Energy Expressions in Matrix Form ¿6. Generalized Coordinates and Generalized Forces ¿6. Using Lagrange’s Equations to Derive Equations of Motion ¿6.
Equations of Motion of Undamped Systems in Matrix Form ¿6. Eigenvalue Problem¿6. Solution of the Eigenvalue Problem 6. Solution of the Characteristic (Polynomial) Equation 6.
Orthogonality of Normal Modes 6. Repeated Eigenvalues ¿6.
Expansion Theorem ¿6. Unrestrained Systems ¿6. Free Vibration of Undamped Systems ¿6. Forced Vibration of Undamped Systems Using Modal Analysis ¿6. Forced Vibration of Viscously Damped Systems ¿6. Self- Excitation and Stability Analysis ¿6. Examples Using Matlab References Chapter Summary Review Questions Problems Design Project ¿CHAPTER 7 Determination of Natural Frequencies and Mode Shapes¿7.
Introduction ¿7. 2 Dunkerley’s Formula¿7. Rayleigh’s Method 7. Properties of Rayleigh’s Quotient 7. Computation of the Fundamental Natural Frequency 7. Fundamental Frequency of Beams and Shafts ¿7. Holzer’s Method 7. Torsional Systems 7.
Spring- Mass Systems ¿7. Matrix Iteration Method 7. Convergence to the Highest Natural Frequency 7. Computation of Intermediate Natural Frequencies¿7. Jacobi’s Method ¿7. Standard Eigenvalue Problem 7.
Choleski Decomposition 7. Other Solution Methods¿7. Examples Using MATLAB References Chapter Summary Review Questions Problems Design Projects ¿CHAPTER 8 Continuous Systems¿8. Introduction ¿8. 2 Transverse Vibration of a String or Cable 8. Equation of Motion 8. Initial and Boundary Conditions 8.
Free Vibration of a Uniform String 8. Free Vibration of a String with Both Ends Fixed 8. Traveling- Wave Solution ¿8. Longitudinal Vibration of a Bar or Rod 8. Equation of Motion and Solution 8.
Orthogonality of Normal Functions ¿8. Torsional Vibration of a Shaft or Rod ¿8. Lateral Vibration of Beams 8. Equation of Motion 8. Initial Conditions 8.
Free Vibration 8. Boundary Conditions 8.
Orthogonality of Normal Functions 8. Forced Vibration 8. Effect of Axial Force 8. Effects of Rotary Inertia and Shear Deformation 8. Other Effects ¿8. Vibration of Membranes 8.
Equation of Motion 8. Initial and Boundary Conditions ¿8. Rayleigh’s Method 7. The Rayleigh- Ritz Method 7. Examples Using Matlab 7. References Chapter Summary Review Questions Problems Design Project ¿CHAPTER 9 Vibration Control¿9. Introduction ¿9. 2 Vibration Nomograph and Vibration Criteria ¿9.
Reduction of Vibration at the Source ¿9. Balancing of Rotating Machines 9.
Single- Plane Balancing 9. Two- Plane Balancing ¿9. Whirling of Rotating Shafts. Equations of Motion 9. Critical Speeds 9. Response of the System 9.
Stability Analysis ¿9. Balancing of Reciprocating Engines 9. Unbalanced Forces Due to Fluctuations in Gas Pressure 9.
Unbalanced Forces Due to Inertia of the Moving Parts 9. Balancing of Reciprocating Engines ¿9. Control of Vibration ¿9.
Control of Natural Frequencies ¿9. Introduction of Damping ¿9. Vibration Isolation 9. Vibration Isolation System with Rigid Foundation 9.
Vibration Isolation System with Base Motion 9. Vibration Isolation System with Flexible Foundation 9.
Vibration Isolation System with Partially Flexible Foundation 9. Shock Isolation 9. Active Vibration Control ¿9. Vibration Absorbers 9. Undamped Dynamic Vibration Absorber 9. Damped Dynamic Vibration Absorber¿9.
Examples Using Matlab References Chapter Summary Review Questions Problems Design Project ¿CHAPTER 1. Vibration Measurement and Applications¿1. Introduction 1. 0. Variable Resistance Transducers ¿1. Transducers 1. 0. Piezoelectric Transducers 1. Electrodynamic Transducers 1.
Linear Variable Differential Transformer Transducer ¿1. Vibration Pickups 1.
Vibrometer 1. 0. 3. Accelerometer 1. 0.
Velometer 1. 0. 3. Phase Distortion ¿1. Frequency- Measuring Instruments ¿1. Vibration Exciters 1. Mechanical Exciters 1. Electrodynamic Shaker ¿1.
Signal Analysis 1. Spectrum Analyzers 1. Bandpass Filter 1.
Constant Percent Bandwidthand Constant Bandwidth Analyzers ¿1. Dynamic Testing of Machines and Structures 1.
The Necessary Equipment 1. The Basic Idea ¿1. Experimental Modal Analysis 1. Using Modal Testing 1. Using Operational Deflection Shape Measurements 1. Digital Signal Processing 1. Analysis of Random Signals 1.
Determination of Modal Data from Observed Peaks 1. Determination of Modal Data from Nyquist Plot 1. Measurement of Mode Shapes ¿1. Machine Condition Monitoring and Diagnosis 1. Machine Maintenance Techniques 1.
Vibration Severity Criteria 1. Machine Condition Monitoring Techniques 1.
Vibration Monitoring Techniques 1. Instrumentation Systems 1. Choice of Monitoring Parameter ¿1.