Lectures in Rigid Bodies & System of Forces
- Lecture 1: What Are External & Internal Forces?
- Lecture 2: Transmissibility Or Equivalent Forces
- Lecture 3: Vector Product Of 2 Forces
- Lecture 4: Vector Product Rules
- Lecture 5: Vector Product (Rectangular Coordi)
- Lecture 6: Solving Vector Products: Method 1
- Lecture 7: Example Of Solving Vector Products-1
- Lecture 8: Solving Vector Products: Method 2
- Lecture 9: Example Of Solving Vector Products-2
- Lecture 10: Moment Of A Force (Torque)
- Lecture 11: Magnitude Of The Moment
- Lecture 12: Direction Of The Moment
- Lecture 13: Varignon'S Theorem Explained
- Lecture 14: Moments (Any Position Vector)
- Lecture 15: Moments (Bar With Pivot)
- Lecture 16: Moments With A Crow Bar
- Lecture 17: Moment Of A Suspension Cable
- Lecture 18: What Is A Scalar Product?
- Lecture 19: Scalar Product Rules Explained
- Lecture 20: Find Angle Between 2 Vectors
- Lecture 21: Mixed Product Rules Explained
- Lecture 22: Moment Of F About A Given Axis
- Lecture 23: Physical Meaning Of Moment Of Force
- Lecture 24: Moment Of Force About X, Y, Z Axis
- Lecture 25: Moment Of Force About Any Axis
- Lecture 26: Moment Of A Badly Built Balcony
- Lecture 27: Moment Of A Co-Planer
- Lecture 28: Moment Of A Co-Planer (General Case)
- Lecture 29: Equivalent Couple Explained
- Lecture 30: Equivalent Couple 2 Explained
- Lecture 31: Addition Of Couples
- Lecture 32: A Couple Represented By A Vector
- Lecture 33: Resolve A Force Into A Force At O
- Lecture 34: Replacing A Force By A Moment: Ex.
- Lecture 35: Forces And Moments - Example 1
- Lecture 36: Forces And Moments - Example 2
- Lecture 37: Forces And Moments - Example 3
- Lecture 38: Forces And Moments - Ex. 4 (2-Ways)
- Lecture 39: Forces And Moments - Example 5
- Lecture 40: Forces And Moments - Example 6
- Lecture 41: Forces And Moments - Example 7
- Lecture 42: Reduction Of Forces (Planar)
- Lecture 43: Find The Equivalent Moment
- Lecture 44: Reducing Non-Planar Forces
- Lecture 45: Reduction Of Forces (1-D)
- Lecture 46: Reduction Of Forces (2-D)
- Lecture 47: Reduction Of Forces (3-D)