Section 1 : OSCILLATIONS

Lecture 1 Periodic Motion 5:21
Lecture 2 Harmonic and Non-Harmonic Motion 4:11
Lecture 3 Simple Harmonic Motion 6:33
Lecture 4 Differential Equation of Linear SHM 3:5
Lecture 5 Acceleration for SHM 4:27
Lecture 6 Some Important Terms 8:16
Lecture 7 acceleration for SHM 4:27
Lecture 8 Free Oscillations, Damped Oscillations and Forced Oscillations
Lecture 9 Cutting of Springs 4:1
Lecture 10 Graphical representation of acceleration from extreme position 7:48
Lecture 11 Displacement in SHM 4:8
Lecture 12 Calculate effective acceleration due to gravity
Lecture 13 Different Values of displacement 5:26
Lecture 14 Anti parallel combination and Reduced mass system 6:10
Lecture 15 Different values of Velocity in SHM 4:1
Lecture 16 Graphical representation of displacement from mean position 8:19
Lecture 17 Series Combination of Springs 5:2
Lecture 18 Graphical representation of velocity from mean position 8:47
Lecture 19 Graphical representation of displacement from extreme position 5:25
Lecture 20 Graphical representation of acceleration from mean position 9:15
Lecture 21 Principle of Superposition of SHM 3:10
Lecture 22 Relation Between SHM and UCM 8:18
Lecture 23 Horizontal Spring Mass System 4:50
Lecture 24 Graphical representation of Velocity from extreme position 7:30
Lecture 25 Parallel Combination of Springs 5:26
Lecture 26 Potential Energy 6:12
Lecture 27 How to Prove SHM
Lecture 28 Resonant oscillations and coupled oscillations 5:12
Lecture 29 Oscillation of liquid in a U shaped tube 5:26
Lecture 30 Kinetic Energy 5:28

Section 2 : Waves

Lecture 31 Introduction to Waves 5:37
Lecture 32 Analytical treatment for stationary waves in a string fixed at both ends 6:25
Lecture 33 Analytical treatment of Stationary Waves 11:35
Lecture 34 Analytical treatment for formation of Beats 16:44
Lecture 35 Average power in a transverse wave 7:47
Lecture 36 Application of Beats 13:50
Lecture 37 Factors Affecting Speed of Sound - Density and Humidity 4:41
Lecture 38 Factors Affecting wind, frequency, amplitude 6:57
Lecture 39 Characteristics of Stationary Wave 10:46
Lecture 40 Difference between Progressive and Stationary Wave 6:54
Lecture 41 Factors Affecting Speed of Sound - Temperature 6:17
Lecture 42 End correction 9:56
Lecture 43 Doppler effect 11:42
Lecture 44 Beats
Lecture 45 Characteristics of wave motion 6:17
Lecture 46 Energy of a transverse wave 21:1
Lecture 47 Intensity of a transverse wave 8:3
Lecture 48 Displacement relation for a progressive harmonic wave 8:39
Lecture 49 Factors Affecting Speed of Sound - Pressure 3:55
Lecture 50 Mechanical waves-Longitudinal wave 6:49
Lecture 51 Kinetic energy of a transverse wave 7:26
Lecture 52 Newton's formula 4:44
Lecture 53 Particle Acceleration 6:4
Lecture 54 Laplace correction 6:35
Lecture 55 Mechanical Waves - Transverse Wave 6:25
Lecture 56 Phase and Phase difference 6:59
Lecture 57 Laws of vibrating strings 9:58
Lecture 58 Particle Velocity 4:53
Lecture 59 Power in a transverse wave 5:36
Lecture 60 Speed of transverse waves in a solid 4:8
Lecture 61 Vibration of an air column for a pipe closed at one end 12:19
Lecture 62 Relation between Particle Velocity and Wave Velocity 5:51
Lecture 63 Standing waves for string fixed at both ends 12:25
Lecture 64 Speed of transverse wave on string 5:13
Lecture 65 Total energy of a transverse wave 5:42
Lecture 66 Speed of longitudinal waves 6:17
Lecture 67 Types of waves 7:10
Lecture 68 Vibrations of an air column for a pipe open at both ends
Lecture 69 What is a Standing Wave part-1 7:18
Lecture 70 What is a Standing Wave part-2 8:36