Engineering Dynamics (M-I-T)

1. History of Dynamics; Motion in Moving Reference Frames (M-I-T)

10. Equations of Motion, Torque, Angular Momentum of Rigid Bodies (M-I-T)

11. Mass Moment of Inertia of Rigid Bodies (M-I-T)

12. Problem Solving Methods for Rotating Rigid Bodies (M-I-T)

13. Four Classes of Problems With Rotational Motion (M-I-T)

14. More Complex Rotational Problems & Their Equations of Motion (M-I-T)

8. Fictitious Forces & Rotating Mass (M-I-T)

15. Introduction to Lagrange With Examples (M-I-T)

16. Kinematic Approach to Finding Generalized Forces (M-I-T)

9. Rotating Imbalance (M-I-T)

17. Practice Finding EOM Using Lagrange Equations (M-I-T)

Notation Systems (M-I-T)

18. Quiz Review From Optional Problem Set 8 (M-I-T)

R10. Steady State Dynamics (M-I-T)

19. Introduction to Mechanical Vibration (M-I-T)

R11. Double Pendulum System (M-I-T)

2. Newton's Laws & Describing the Kinematics of Particles (M-I-T)

R12. Modal Analysis of a Double Pendulum System (M-I-T)

20. Linear System Modeling a Single Degree of Freedom Oscillator (M-I-T)

R2. Velocity and Acceleration in Translating and Rotating Frames (M-I-T)

R3. Motion in Moving Reference Frames (M-I-T)

21. Vibration Isolation (M-I-T)

22. Finding Natural Frequencies & Mode Shapes of a 2 DOF System (M-I-T)

R4. Free Body Diagrams (M-I-T)

23. Vibration by Mode Superposition (M-I-T)