System Dynamics / William Palm III.
Material type:
TextPublisher: New York, NY : McGraw-Hill Science, [2014]Edition: 3rd edDescription: pages cmContent type: text Media type: unmediated Carrier type: volumeISBN: 9789814636056Subject(s): Automatic control -- Mathematical models | Dynamics -- Mathematical models | System analysis | TECHNOLOGY & ENGINEERING / Aeronautics & AstronauticsDDC classification: 620.104 LOC classification: TJ213 | .P228 2013Other classification: TEC002000 | Item type | Current location | Home library | Shelving location | Call number | Status | Notes | Date due | Barcode | Item holds |
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School of Mechanical & Manufacturing Engineering (SMME) | School of Mechanical & Manufacturing Engineering (SMME) | General Stacks | 620.104 PAL (Browse shelf) | Available | Rack,42-Shelf,4 | SMME-3471 |
Includes index.
Machine generated contents note: 1 Introduction2 Dynamic Response and the Laplace Transform Method3 Modeling of Rigid-Body Mechanical Systems4 Spring and Damper Elements in Mechanical Systems 5 Block Diagrams, State-Variable Models and Simulation Methods6 Electrical and Electromechanical Systems7 Fluid and Thermal Systems8 System Analysis in the Time Domain9 System Analysis in the Frequency Domain10 Introduction to Feedback Control Systems11 Control System Design and the Root Locus Plot12 Compensator Design and the Bode Plot13 Vibration ApplicationsAppendicesA. Guide to Selected MATLAB Commands and FunctionsB. Fourier Series C. Developing Models from DataD. Introduction to MATLAB (on the website)E. Numerical Methods (on the website).
"System Dynamics includes the strongest treatment of computational software and system simulation of any available text, with its early introduction of MATLAB® and Simulink®. The text's extensive coverage also includes discussion of the root locus and frequency response plots, among other methods for assessing system behavior in the time and frequency domains as well as topics such as function discovery, parameter estimation, and system identification techniques, motor performance evaluation, and system dynamics in everyday life"-- Provided by publisher.
"System dynamics deals with mathematical modeling and analysis of devices and processes for the purpose of understanding their time-dependent behavior. While other subjects, such as Newtonian dynamics and electrical circuit theory, also deal with time-dependent behavior, system dynamics emphasizes methods for handling applications containing multiple types of components and processes such as electromechanical devices, electrohydraulic devices, and fluid-thermal processes. Because the goal of system dynamics is to understand the time-dependent behavior of a system of interconnected devices and processes as a whole, the modeling and analysis methods used in system dynamics must be properly selected to reveal how the connections between the system elements affect its overall behavior. Because systems of interconnected elements often require a control system to work properly, control system design is a major application area in system dynamics"-- Provided by publisher.
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