System Dynamics for Engineering Students
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System Dynamics for Engineering Students
Concepts and Applications
Lobontiu, Nicolae
Elsevier Science & Technology
11/2025
696
Mole
Inglês
9780323995825
15 a 20 dias
Descrição não disponível.
1. Introduction
2. The Laplace transformation
3. Mechanical elements
4. Mechanical systems
5. Electrical systems
6. Fluid and thermal systems
7. Coupled systems
8. State space modeling
9. Transfer function modeling
10. Steady-state and frequency response to harmonic input
11. Block diagrams and feedback control system modeling
12. Stability of feedback control systems
13. Time- and frequency-domain controls of feedback systems
Appendices:
A. Complex numbers
B. Matrix algebra
C. Solutions to linear homogeneous ordinary differential equations and sets with constant coefficients
D. Basics of Simulink
E. Essentials of system dynamics-related MATLAB
F. Deformations and forces in deformable bars and beams
2. The Laplace transformation
3. Mechanical elements
4. Mechanical systems
5. Electrical systems
6. Fluid and thermal systems
7. Coupled systems
8. State space modeling
9. Transfer function modeling
10. Steady-state and frequency response to harmonic input
11. Block diagrams and feedback control system modeling
12. Stability of feedback control systems
13. Time- and frequency-domain controls of feedback systems
Appendices:
A. Complex numbers
B. Matrix algebra
C. Solutions to linear homogeneous ordinary differential equations and sets with constant coefficients
D. Basics of Simulink
E. Essentials of system dynamics-related MATLAB
F. Deformations and forces in deformable bars and beams
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
<p>lumped-parameter modeling; compliant mechanisms; microelectromechanical systems; viscous damping elements; forced response; pneumatic systems modeling; SISO Systems, MIMO Systems, impedance transfer function; mechanical vibration transmission; thermomechanical coupling; piezoelectric coupling; Routhe Hurwitz stability test; Nyquist plot; </p>
1. Introduction
2. The Laplace transformation
3. Mechanical elements
4. Mechanical systems
5. Electrical systems
6. Fluid and thermal systems
7. Coupled systems
8. State space modeling
9. Transfer function modeling
10. Steady-state and frequency response to harmonic input
11. Block diagrams and feedback control system modeling
12. Stability of feedback control systems
13. Time- and frequency-domain controls of feedback systems
Appendices:
A. Complex numbers
B. Matrix algebra
C. Solutions to linear homogeneous ordinary differential equations and sets with constant coefficients
D. Basics of Simulink
E. Essentials of system dynamics-related MATLAB
F. Deformations and forces in deformable bars and beams
2. The Laplace transformation
3. Mechanical elements
4. Mechanical systems
5. Electrical systems
6. Fluid and thermal systems
7. Coupled systems
8. State space modeling
9. Transfer function modeling
10. Steady-state and frequency response to harmonic input
11. Block diagrams and feedback control system modeling
12. Stability of feedback control systems
13. Time- and frequency-domain controls of feedback systems
Appendices:
A. Complex numbers
B. Matrix algebra
C. Solutions to linear homogeneous ordinary differential equations and sets with constant coefficients
D. Basics of Simulink
E. Essentials of system dynamics-related MATLAB
F. Deformations and forces in deformable bars and beams
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
<p>lumped-parameter modeling; compliant mechanisms; microelectromechanical systems; viscous damping elements; forced response; pneumatic systems modeling; SISO Systems, MIMO Systems, impedance transfer function; mechanical vibration transmission; thermomechanical coupling; piezoelectric coupling; Routhe Hurwitz stability test; Nyquist plot; </p>
