Section 1 : Work, Power and Energy - 10 Lessons for deep conceptual understating

Lecture 1 Work and Energy What really is work done by a Force 7:32
Lecture 3 How Change in Kinetic Energy = Work Done (Work Kinetic Energy Theorem) 8:14
Lecture 3 How Change in Kinetic Energy = Work Done (Work Kinetic Energy Theorem) 8:14
Lecture 4 What is work done by Gravitational Force 9:58
Lecture 5 Spring Force What is the work done by the Force F = -kx 9:34
Lecture 6 What is the work done by a variable force 7:42
Lecture 7 What is Power How is it different from Instantaneous Power
Lecture 8 Potential Energy of a particle
Lecture 9 How to find the potential energy of a particle 5:47
Lecture 10 How to use of law of Conservation of Mechanical energy #10 7:58

Section 2 : Work, Power and Energy - Solved Numerical Examples

Lecture 11 This is how you use Work Kinetic Energy Theorem 2:47
Lecture 12 How to find Kinetic Energy of a moving mass
Lecture 13 How to find Work if force & displacement are vectors 1:29
Lecture 14 Finding work done on a rugby ball using Work KE Theorem
Lecture 15 What is the work done on cyclist by the Force #5 4:17
Lecture 16 This is how you find Work done by multiple forces on a mass 3:56
Lecture 17 What is work done by helicopter and gravity 5:6
Lecture 18 What is the work done by Force for displacement h
Lecture 19 This is how to find work done in spring block system by a force 4:24
Lecture 20 How to find Final velocity of a block tied to a spring 4:4
Lecture 21 How to find Work done by variable force 4:21
Lecture 22 How to use Work Kinetic Energy Theorem in block pulley system 9:16
Lecture 23 This is how you solve a mechanics problem using Work KE Theorem 4:54
Lecture 24 How to find spring compression using Work Kinetic Energy Theorem #14 6:9
Lecture 25 Given x = f(t), how to find work done 3:9