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1. System dynamics [2004]

Book
ix, 768 p. : ill. ; 24 cm.
  • 1. Introduction to System Dynamics. 2. The Laplace Transform. 3. Mechanical Systems. 4. Transfer-Function Approach to Modeling Dynamic Systems. 5. State-Space Approach to Modeling Dynamic Systems. 6. Electrical Systems and Electromechanical Systems. 7. Fluid Systems and Thermal Systems. 8. Time-Domain Analyses of Dynamic Systems. 9. Frequency-Domain Analyses of Dynamic Systems. 10. Time-Domain Analyses of Control Systems. 11. Frequency-Domain Analyses and the Design of Control Systems. Appendix A. Systems of Units. Appendix B. Conversion Tables. Appendix C. Vector-Matrix Algebra. Appendix D. Introduction to MATLAB. References. Index.
  • (source: Nielsen Book Data)9780131247147 20160527
For junior-level courses in System Dynamics, offered in Mechanical Engineering and Aerospace Engineering departments. This text presents students with the basic theory and practice of system dynamics. It introduces the modeling of dynamic systems and response analysis of these systems, with an introduction to the analysis and design of control systems.
(source: Nielsen Book Data)9780131247147 20160527
Engineering Library (Terman)
ME-161-01, ME-261-01
Book
xiv, 576 p. : ill. ; 26 cm.
  • Introduction. Translational Mechanical Systems. Standard Forms for System Models. Block Diagrams and Computer Simulation. Rotational Mechanical Systems. Electrical Systems. Transform Solutions of Linear Models. Transform Function Analysis. Developing a Linear Model. Electromechanical Systems. Thermal Systems. Fluid Systems. Block Diagrams for Dynamic Systems. Modeling, Analysis, and Design Tools. Feedback Design with MATLAB. Appendix A: Units. Appendix B: Matrices. Appendix C: Complex Algebra. Appendix D: Classical Solution of Differential Equations. Appendix E: Laplace Transforms. Appendix F: Selected Reading. Appendix G: Answers to Selected Problems. Index.
  • (source: Nielsen Book Data)9780471394426 20160528
The book presents the methodology applicable to the modeling and analysis of a variety of dynamic systems, regardless of their physical origin. It includes detailed modeling of mechanical, electrical, electro--mechanical, thermal, and fluid systems. Models are developed in the form of state--variable equations, input--output differential equations, transfer functions, and block diagrams. The Laplace--transform is used for analytical solutions. Computer solutions are based on MATLAB and Simulink.
(source: Nielsen Book Data)9780471394426 20160528
Engineering Library (Terman)
ME-161-01, ME-261-01

3. System dynamics [1998]

Book
ix, 758 p. : ill. ; 25 cm.
  • 1. Introduction. 2. The Laplace Transform. 3. Mechanical Systems. 4. Electrical Systems. 5. Fluid Systems and Thermal Systems. 6. Linear Systems Analyses in the Time Domain. 7. Linear Systems Analysis in the Frequency Domain. 8. Analysis and Design of Control Systems in the Time Domain. 9. Analysis and Design of Control Systems in the Frequency Domain. 10. Mathematical Modeling of Dynamic Systems in State Space. 11. Discrete-Time Systems. Appendix A. Systems of Units. Appendix B. Conversion Tables. Appendix C. Vector-Matrix Analysis. References. Index.
  • (source: Nielsen Book Data)9780136757450 20160527
Appropriate for undergraduate courses on System Dynamics offered in Mechanical Engineering and Aerospace Engineering departments.Introduces the modeling of dynamic systems and response analysis of these systems, with an introduction to the analysis and design of control systems.
(source: Nielsen Book Data)9780136757450 20160527
Engineering Library (Terman)
ME-161-01, ME-261-01
Book
xix, 512 p. : ill. ; 25 cm.
  • Introduction. I. OVERVIEW OF DYNAMIC SYSTEMS. 1. Introduction to Modeling and Simulation. 2. Models for Dynamic Systems and Systems Similarity. II. MODELING OF ENGINEERING SYSTEMS. 3. Mechanical Systems. 4. Electrical Systems. 5. Fluid Systems. 6. Thermal Systems. 7. Mixed Discipline Systems. III. SYSTEM DYNAMIC RESPONSE ANALYSIS. 8. Frequency Response. 9. Time Response and Digital Simulation. IV. ENGINEERING APPLICATIONS. 10. System Design and Selection of Components. Appendix A: Units and Conversions. Appendix B: Properties of Mechanical System Components. Appendix C: Vector and Matrix Algebra. Appendix D: Systems of Algebraic Equations. Appendix E: Solutions of Differential Equations by Classical Methods. Appendix F: Laplace Transform Solution of Differential Equations. Appendix G: State-Space Representation of Dynamic Systems. Appendix H: Digital Simulation Using Matlab. Appendix I: Analog Simulation. Appendix J: Questions About the Material in the Book. Questions About the Material in the Book. Index.
  • (source: Nielsen Book Data)9780133373790 20160527
For undergraduate and graduate-level courses in Systems Dynamics, Modeling, Interdisciplinary Systems. Reflecting the state-of-the-art and current trends in modeling and simulation, this text provides comprehensive coverage of 1) the modeling techniques of the major types of dynamic engineering systems, 2) the solution techniques for the resulting differential equations for linear and nonlinear systems, and 3) the attendant mathematical procedures related to the representation of dynamic systems and determination of their time and frequency response characteristics. It explains in detail how to select all of the system component parameter values for static and dynamic performance specifications and limits.
(source: Nielsen Book Data)9780133373790 20160527
Engineering Library (Terman)
ME-161-01, ME-261-01