| S# |
Lecture |
Course |
Institute |
Instructor |
Discipline |
| 26 |
R5. Equations of Motion (M-I-T)
|
Engineering Dynamics (M-I-T)
|
MIT
|
Prof. Dr. J. Kim Vandiver, Prof. Dr. David Gossard
|
Applied Sciences
|
| 27 |
24. Modal Analysis: Orthogonality, Mass Stiffness, Damping Matrix (M-I-T)
|
Engineering Dynamics (M-I-T)
|
MIT
|
Prof. Dr. J. Kim Vandiver, Prof. Dr. David Gossard
|
Applied Sciences
|
| 28 |
R6. Angular Momentum and Torque (M-I-T)
|
Engineering Dynamics (M-I-T)
|
MIT
|
Prof. Dr. J. Kim Vandiver, Prof. Dr. David Gossard
|
Applied Sciences
|
| 29 |
R7. Cart and Pendulum, Direct Method (M-I-T)
|
Engineering Dynamics (M-I-T)
|
MIT
|
Prof. Dr. J. Kim Vandiver, Prof. Dr. David Gossard
|
Applied Sciences
|
| 30 |
25. Modal Analysis: Response to IC's and to Harmonic Forces (M-I-T)
|
Engineering Dynamics (M-I-T)
|
MIT
|
Prof. Dr. J. Kim Vandiver, Prof. Dr. David Gossard
|
Applied Sciences
|
| 31 |
26. Response of 2-DOF Systems by the Use of Transfer Functions (M-I-T)
|
Engineering Dynamics (M-I-T)
|
MIT
|
Prof. Dr. J. Kim Vandiver, Prof. Dr. David Gossard
|
Applied Sciences
|
| 32 |
R8. Cart and Pendulum, Lagrange Method (M-I-T)
|
Engineering Dynamics (M-I-T)
|
MIT
|
Prof. Dr. J. Kim Vandiver, Prof. Dr. David Gossard
|
Applied Sciences
|
| 33 |
27. Vibration of Continuous Structures: Strings, Beams, Rods, etc. (M-I-T)
|
Engineering Dynamics (M-I-T)
|
MIT
|
Prof. Dr. J. Kim Vandiver, Prof. Dr. David Gossard
|
Applied Sciences
|
| 34 |
R9. Generalized Forces (M-I-T)
|
Engineering Dynamics (M-I-T)
|
MIT
|
Prof. Dr. J. Kim Vandiver, Prof. Dr. David Gossard
|
Applied Sciences
|
| 35 |
3. Motion of Center of Mass; Acceleration in Rotating Ref. Frames (M-I-T)
|
Engineering Dynamics (M-I-T)
|
MIT
|
Prof. Dr. J. Kim Vandiver, Prof. Dr. David Gossard
|
Applied Sciences
|
| 36 |
4. Movement of a Particle in Circular Motion w/ Polar Coordinates (M-I-T)
|
Engineering Dynamics (M-I-T)
|
MIT
|
Prof. Dr. J. Kim Vandiver, Prof. Dr. David Gossard
|
Applied Sciences
|
| 37 |
5. Impulse, Torque, & Angular Momentum for a System of Particles (M-I-T)
|
Engineering Dynamics (M-I-T)
|
MIT
|
Prof. Dr. J. Kim Vandiver, Prof. Dr. David Gossard
|
Applied Sciences
|
| 38 |
6. Torque & the Time Rate of Change of Angular Momentum (M-I-T)
|
Engineering Dynamics (M-I-T)
|
MIT
|
Prof. Dr. J. Kim Vandiver, Prof. Dr. David Gossard
|
Applied Sciences
|
| 39 |
7. Degrees of Freedom, Free Body Diagrams, & Fictitious Forces (M-I-T)
|
Engineering Dynamics (M-I-T)
|
MIT
|
Prof. Dr. J. Kim Vandiver, Prof. Dr. David Gossard
|
Applied Sciences
|
