Lesson 12 of 19 • 2 upvotes • 12:56mins
Numericals: D Alembert Principle for rectilinear and rotation casses
19 lessons • 4h 21m
Course overview
14:24mins
Parellelogram law of vectors. Moment of force. Concepts and numericals
14:14mins
Resolution of force in plane and space. Varignon's theorem and lami's theorem concepts.
13:59mins
Lami's theorem, converse law of traingle and polygon force, 3 and 2 force equilibrium principle. FBD
14:38mins
Numericals : Equilibrium, FBD, lami's theorem, resolution of force in plane
14:40mins
Concepts of Friction: Definition, laws of dry friction, angle of limiting friction and repose.
11:22mins
Friction numericals: It's direction, Use of Lami's theorem. Relation between DOF and equilibrium eq.
14:54mins
Belt friction concepts and numericals.
12:17mins
Dynamics: Rectilinear motion concepts and numericals
14:43mins
Projectile motion , fixed axis rotation
13:44mins
Numericals: Fixed axis rotation, projectile motion. Concept D Alembert Principle.
12:51mins
Numericals: D Alembert's Principle
12:56mins
Numericals D Alembert's Principle for rotation, vertical circular motion of ball attached to string.
14:06mins
Motion of object attached to string in horizontal plane. Radial and traverse velocity. W-E principle
12:35mins
Work energy principle. Impulse momentum principle, conservation of momentum
13:10mins
Numericals conservation of linear and angular momentum. Concepts:Collision in 2 dimension.
14:08mins
Collision of body with fixed plane Virtual work. Pulley mass system
14:24mins
Structure: Truss and frames. Pulley mass system numerical.
13:19mins
Truss: method of joints, methods of section. Null members. Frames Numericals
14:32mins