System Dynamics and Control: Module 3a - Modeling with Differential Equations
System Dynamics and Control: Module 6a - Introduction to Electrical Circuits
System Dynamics and Control: Module 3c - Relationship Between the Time and Laplace Domains
System Dynamics and Control: Module 3b - The Laplace Transform
System Dynamics and Control: Module 2a: Introduction to Modeling
System Dynamics and Control: Module 9a - Introduction to Actuators
System Dynamics and Control: Module 3d - Solving Differential Equations
System Dynamics and Control: Module 5a - More Solving Differential Equations
System Dynamics and Control: Module 6d - Introduction to DC/DC Converters
System Dynamics and Control: Module 20c - Sketching Bode Example 2
System Dynamics and Control: Module 22c - Other Considerations for Control Design
System Dynamics and Control: Module 5c - MATLAB for Plotting and Math Operations
System Dynamics and Control: Module 5d - Introduction to Transfer Functions
System Dynamics and Control: Module 9d - Comparison to AC Motors
System Dynamics and Control: Module 4a - Introduction to Modeling Mechanical Systems
System Dynamics and Control: Module 9c - DC Motor Static Model
System Dynamics and Control Module 6 Modeling Electrical Systems
How a Diesel-Electric Locomotive Works
LCS 3a - Mathematical modeling of electrical systems
System Dynamics and Controls: Lecture 3.1 Transient response characteristics.
