Harmonic and Non-Harmonic Motion00:00:00
Simple Harmonic Motion00:00:00
Differential Equation of Linear SHM00:00:00
Displacement in SHM00:00:00
Velocity in SHM00:00:00
Acceleration for SHM00:00:00
Different Values of Displacement00:00:00
Different Values of Velocity in SHM00:00:00
Some Important Terms00:00:00
Relation Between SHM and UCM00:00:00
Potential Energy00:00:00
Kinetic Energy00:00:00
Total Energy00:00:00
Graphical Representation of Displacement from Mean Position00:00:00
Graphical Representation of Displacement from Extreme Position00:00:00
Graphical Representation of Velocity from Mean Position00:00:00
Graphical Representation of Velocity from Extreme Position00:00:00
Graphical Representation of Acceleration from Mean Position00:00:00
Graphical Representation of Acceleration from Extreme Position00:00:00
How to Prove SHM00:00:00
Horizontal Spring Mass System00:00:00
Vertical Spring Mass System00:00:00
Spring Mass System in Lift00:00:00
Series Combination of Springs00:00:00
Parallel Combination of Springs00:00:00
Principle of Superposition of SHM00:00:00
Spring Mass System in Electric Field00:00:00
Spring Mass System in Liquid00:00:00
Spring Mass System in Partially Immersed Liquid00:00:00
SHM in a Tunnel at Any Random Point00:00:00
SHM in a Tunnel that Passes Through Diameter00:00:00
Oscillation of Liquid in a U shaped Tube00:00:00
Anti Parallel Combination and Reduced Mass System00:00:00
Cutting of Springs00:00:00
Simple Pendulum00:00:00
SHM in a Simple Pendulum00:00:00
Time Period of a Simple Pendulum00:00:00
Calculate Effective Acceleration Due to Gravity00:00:00
Free Oscillations, Damped Oscillations and Forced Oscillations00:00:00
Resonant Oscillations and Coupled Oscillations00:00:00
Introduction to Waves00:00:00
Newton’s Formula00:00:00
Characteristics of Wave Motion00:00:00
Types of Waves00:00:00
Mechanical Waves – Transverse Wave00:00:00
Energy of a Transverse Wave00:00:00
Kinetic Energy of a Transverse Wave00:00:00
Total Energy of a Transverse Wave00:00:00
Power in a Transverse Wave00:00:00
Average Power in a Transverse Wave00:00:00
Intensity of a Transverse Wave00:00:00
Mechanical Waves – Longitudinal Wave00:00:00
Displacement Relation for a Progressive Harmonic Wave00:00:00
Phase and Phase Difference00:00:00
Particle Velocity00:00:00
Relation Between Particle Velocity and Wave Velocity00:00:00
Particle Acceleration00:00:00
Speed of Transverse Wave on String00:00:00
Speed of Transverse Waves in a Solid00:00:00
Speed of Longitudinal Waves00:00:00
Laplace Correction00:00:00
Simple Harmonic Motion00:00:00
Factors Affecting Speed of Sound – Temperature00:00:00
Factors Affecting Speed of Sound – Pressure00:00:00
Factors Affecting Speed of Sound – Density and Humidity00:00:00
Factors Affecting Wind, Frequency, Amplitude00:00:00
Characteristics of Stationary Wave00:00:00
Analytical Treatment of Stationary Waves00:00:00
Difference Between Progressive and Stationary Wave00:00:00
What is a Standing Wave Part – 100:00:00
What is a Standing Wave Part – 200:00:00
Standing Waves for String Fixed at Both Ends00:00:00
Analytical Treatment for Stationary Waves in a String Fixed at Both Ends00:00:00
Laws of Vibrating Strings00:00:00
Vibration of an Air Column for a Pipe Closed at One End00:00:00
Vibrations of an Air Column for a Pipe Open at Both Ends00:00:00
End Correction00:00:00
Analytical Treatment for Formation of Beats00:00:00
Application of Beats00:00:00
Doppler Effect00:00:00
Oscillation Numericals Level – 100:00:00
Oscillation Numericals Level – 200:00:00
Oscillation Numericals Level – 300:00:00
Waves Numericals Level – 200:00:00
Waves Numericals Level – 300:00:00