ISBN-10:
0849396484
ISBN-13:
9780849396489
Pub. Date:
08/10/2006
Publisher:
Taylor & Francis
Engineering System Dynamics / Edition 2

Engineering System Dynamics / Edition 2

by Forbes T. Brown

Hardcover

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Product Details

ISBN-13: 9780849396489
Publisher: Taylor & Francis
Publication date: 08/10/2006
Edition description: REV
Pages: 1059
Product dimensions: 7.00(w) x 10.00(h) x 2.40(d)

Table of Contents

INTRODUCTION
Example
Modeling and Engineering Science
Modeling Languages
Modeling for Control
A Word to the Wise About Learning
Treatment of Dimensions
Treatment of Units
References
SOURCE-LOAD SYNTHESIS
System Reticulation
Generalized Forces and Velocities
Generalized Sources, Sinks, and Resistances
Ideal Machines: Transformers and Gyrators
Systems with Transformers and Gyrators
SIMPLE DYNAMIC MODELS
Compliance Energy Storage
Inertance Energy Storage
Junctions
Causality and Differential Equations
Nonlinear Resistances, Compliances, and Inertances
Numerical Simulation
ANALYSIS OF LINEAR MODELS, PART 1
Linear Models and Simulation
Common Functions in Excitations and Responses
Direct Solution of Linear Differential Equations
Convolution
The Laplace Transform
Responses of Primitive Linear Models
Linearization
BASIC MODELING
Simple Circuits
System Models with Ideal Machines
Model Equivalences
Equilibrium
MATHEMATICAL FORMULATION AND BOND GRAPHS
Causality and Differential Equations
Over-Causal and Under-Causal Models
The Loop Rule
ANALYSIS OF LINEAR MODELS, PART 2
Sinusoidal Frequency Response
Mechanical Vibrations
Matrix Representation of Dynamic Behavior
Fourier Analysis
INTRODUCTION TO AUTOMATIC CONTROL
Open- and Closed-Loop Control
Dynamic Compensation
Frequency Response Methods
EXTENDED MODELING
Modulated Transformers
Activated Bonds
Linear Multiport Fields
Nonlinear Multiport Fields
Magnetic Circuits
Electric Motors
Irreversible Couplers and Thermal Systems
DISTRIBUTED-PARAMETER MODELS
Wave Models with Simple Boundary Conditions
One-Dimensional Models
Wave Propagation
One-Power Symmetric Models
Multiple-Power Models
Models of Dissipative Processes
Wave-Scattering Variables
Internal Excitation
Modal Decomposition
Complex Compound Systems: A Case Study
THERMODYNAMIC SYSTEMS
The Convective Bond and Compressible Flow
Heat Interaction and Junctions
Case Study with Quasi-Steady Flow
Thermodynamic Compliance and Inertance
Evaluation of Thermodynamic Properties
Systems with Chemical Reaction
TOPICS IN ADVANCED MODELING
Field Lumping
Nonconservative Couplers
Lagrange's Equations for Holonomic Systems
Legrangian Bond Graphs; Dissipation
Nonholonomic Constraints
Hamilton's Equations and Bond Graphs
APPENDIX A: INTRODUCTION TO MATLAB®
Scalar Calculations
Variables
Complex Numbers
Arrays and Matrices
Evaluating and Plotting Functions
Fitting Curves to Data
Control Flow Commands
Script Files
Data Files
Function Files
Communication between Files
MATLAB Files Downloadable from the Internet
APPENDIX B: CLASSICAL VIBRATIONS
Models with Two Degrees of Freedom
Higher-Order Models
APPENDIX C: LAPLACE TRANSFORM PAIRS
APPENDIX D: THERMODYNAMIC DATA AND COMPUTER CODE
Programs and Data for Air and Components
Programs and Data for Refrigerants R12 and R134a
Data for Refrigerant R22
Programs and Data for Water
INDEX

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