15.4 SFD and BMD for a cantilever beam carrying a couple and UVL load using graphical method.
Vector In Motion
15.4 SFD and BMD for a cantilever beam carrying a couple and UVL load using graphical method.
23:28
15.3 SFD and BMD - Cantilever beam carrying point loads and UDL (Graphical method)
Vector In Motion
15.3 SFD and BMD - Cantilever beam carrying point loads and UDL (Graphical method)
23:08
15.2 SFD and BMD - Simply supported beam carrying point load and UDL (Equation method)
Vector In Motion
15.2 SFD and BMD - Simply supported beam carrying point load and UDL (Equation method)
20:18
15.1 Shear Force and Bending Moment in beams - basic concepts
Vector In Motion
15.1 Shear Force and Bending Moment in beams - basic concepts
23:13
11.3 Support reactions of beams subjected to distributed loads.
Vector In Motion
11.3 Support reactions of beams subjected to distributed loads.
14:04
11.2 How to find centroid of a wire/line (solved example)
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11.2 How to find centroid of a wire/line (solved example)
7:19
11.1 How to find centroid of a composite plate/area
Vector In Motion
11.1 How to find centroid of a composite plate/area
13:52
13.2 Physics: Displacement and distance covered in an accelerating elevator (Bolt- Elevator problem)
Vector In Motion
13.2 Physics: Displacement and distance covered in an accelerating elevator (Bolt- Elevator problem)
21:26
10.3 Engineering Mechanics: Parallel 3d Force System (Solved example)
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10.3 Engineering Mechanics: Parallel 3d Force System (Solved example)
11:41
10.2 Resultant of Parallel 3D Forces (Solved example)
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10.2 Resultant of Parallel 3D Forces (Solved example)
14:53
Newton's Laws in non-inertial reference frames (Solved example)
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Newton's Laws in non-inertial reference frames (Solved example)
13:30
3 1 Engineering Mechanics: Resultant from rectangular components of forces.
Vector In Motion
3 1 Engineering Mechanics: Resultant from rectangular components of forces.
14:30
1.3 Engineering Mechanics: Resolving a force into oblique components.
Vector In Motion
1.3 Engineering Mechanics: Resolving a force into oblique components.
8:35
1.2 Engineering Mechanics: Force Triangle method to add concurrent forces(Solved Problems)
Vector In Motion
1.2 Engineering Mechanics: Force Triangle method to add concurrent forces(Solved Problems)
5:54
1.1 Engineering Mechanics: Force Triangle Method for addition of concurrent forces
Vector In Motion
1.1 Engineering Mechanics: Force Triangle Method for addition of concurrent forces
5:54
10.1 Engineering Mechanics: Single Force Resultant of Parallel Forces
Vector In Motion
10.1 Engineering Mechanics: Single Force Resultant of Parallel Forces
7:40