Lectures in Moment of Inertia
- Lecture 1: I=? Thin Bar By Integration
- Lecture 2: I=? Thin Bar Numerical Method: Part 1/3
- Lecture 3: I=? Thin Bar Numerical Method: Part 2/3
- Lecture 4: I=? Thin Bar Numerical Method: Part 3/3
- Lecture 5: I=? Rotating Disk W/ Variable Torque
- Lecture 6: Parallel Axis Theorem Applied
- Lecture 7: Parallel Axis Theorem Applied
- Lecture 8: Flywheel For A Punch Press: Part 1/2
- Lecture 9: Flywheel For A Punch Press: Part 2/2
- Lecture 10: I=? Of A Dumbbell: Part 1/3
- Lecture 11: I=? Of A Dumbbell: Part 2/3
- Lecture 12: I=? Of A Dumbbell: Part 3/3 (Graph Sol.)
- Lecture 13: Acceleration Of A Wheel: Part 1/2
- Lecture 14: Acceleration Of A Wheel: Part 2/2
- Lecture 15: Find The Tensions In The String
- Lecture 16: Wheel And Spoke: Part 1/5
- Lecture 17: Wheel And Spoke: Part 2/5
- Lecture 18: Wheel And Spoke: Part 3/5
- Lecture 19: Wheel And Spoke: Part 4/5
- Lecture 20: Wheel And Spoke: Part 5/5
- Lecture 21: Force On Rotating Rod: Part 1/2
- Lecture 22: Force On Rotating Rod: Part 2/2
- Lecture 23: Rolling Cylinder
- Lecture 24: Wind Vane