The subject of system dynamics deals with mathematical modeling and analysis of devices and processes for the purpose of understanding their time-dependent behavior. It emphasizes applications containing multiple types of components and processes such as electromechanical devices, electrohydraulic devices, and fluid-thermal processes. Because systems of interconnected elements often require a control system to work properly, control system design is a major application area in system dynamics. System Dynamics covers these topics, has application case studies, more homework problems than other…mehr
The subject of system dynamics deals with mathematical modeling and analysis of devices and processes for the purpose of understanding their time-dependent behavior. It emphasizes applications containing multiple types of components and processes such as electromechanical devices, electrohydraulic devices, and fluid-thermal processes. Because systems of interconnected elements often require a control system to work properly, control system design is a major application area in system dynamics. System Dynamics covers these topics, has application case studies, more homework problems than other texts, and the strongest treatment of computational software and system simulation, with its early introduction of MATLAB® and Simulink®.
William J. Palm III a Professor of Mechanical Engineering and Applied Mechanics at the University of Rhode Island, he helped develop an educational program of introduction to engineering based on MATLAB. He is the author of several books, including the System dynamics, published by McGraw-Hill and Modeling, Analysis, and Control of Dynamic Systems and Mechanical Vibration, both published by John Wiley.
Inhaltsangabe
1) Introduction 2) Dynamic Response Methods 3) Modeling of Rigid-Body Mechanical Systems 4) Spring and Damper Elements in Mechanical Systems 5) Block Diagrams, State-Variable Models, and Simulation Methods 6) Electrical and Electromechanical Systems 7) Fluid and Thermal Systems 8) System Analysis in the Time Domain 9) System Analysis in the Frequency Domain 10) Introduction to Feedback Control Systems 11) Control System Design and the Root Locus Plot 12) Compensator Design 13) Vibration Applications (On Website) Appendices A) Guide to Selected MATLAB Commands and Functions B) Fourier Series C) Developing Models from Data D) Introduction to MATLAB (On Website) E) Numerical Methods (On Website)
1) Introduction 2) Dynamic Response Methods 3) Modeling of Rigid-Body Mechanical Systems 4) Spring and Damper Elements in Mechanical Systems 5) Block Diagrams, State-Variable Models, and Simulation Methods 6) Electrical and Electromechanical Systems 7) Fluid and Thermal Systems 8) System Analysis in the Time Domain 9) System Analysis in the Frequency Domain 10) Introduction to Feedback Control Systems 11) Control System Design and the Root Locus Plot 12) Compensator Design 13) Vibration Applications (On Website) Appendices A) Guide to Selected MATLAB Commands and Functions B) Fourier Series C) Developing Models from Data D) Introduction to MATLAB (On Website) E) Numerical Methods (On Website)
Es gelten unsere Allgemeinen Geschäftsbedingungen: www.buecher.de/agb
Impressum
www.buecher.de ist ein Shop der buecher.de GmbH & Co. KG Bürgermeister-Wegele-Str. 12, 86167 Augsburg Amtsgericht Augsburg HRA 13309