2.1 Basic Concepts of Vectors

2.2 Vectors

2.3 Rectangular Components

2.4 Vector Addition

2.5 Scalar product

2.6 Vector Product

2.7 Torque

2.8 Equilibrium

3.1 Displacement Time Graph

3.2 Velocity Time Graph

3.3 1st and 2nd Law of Motion

3.4 Newton’s 3rd Law of Motion

3.5 Momentum

3.6 Example of Gun

3.7 Example of Rocket

3.8 Conservation of Momentum

3.9 Billistic Flight

3.10 Projectile motion and Projectile Velocity

3.11 Height of Projectile Motion

3.12 Time of Projectile Motion

3.13 Range of Projectile Motion

4.1 Introduction of Work

4.2 Conservative and Non Conservative Forces

4.3 Work Done By Variable and Constant Force

4.4 Work Done by Gravitational Force

4.5 Power

4.6 Introduction of Energy

4.7 Work Energy Principle

4.8 Law of Conservation of Energy

4.9 Gravitation

4.10 Absolute Gravitational Potential Energy

4.11 Escape Velocity

4.12 Non Conventional Energy Sources

5.1 Basic Concept

5.2 Angular Displacement

5.3 Angular Velocity

5.4 Angular Acceleration

5.5 Centripetal Force

5.6 Centripetal Acceleration

5.7 Angular Quantities

5.8 Moment of Inertia

5.9 Angular Momentum

5.10 Types of Angular Momentum

5.11 Conservation of Angular Momentum

5.12 Rotational Kinetic Energy

5.13 Rotationaol Kinetic Energy For Hoop ,Disc, Sphere

5.14 Orbital Velocity

5.15 Setallites

5.16 Weightlessness Conditons

6.1 Fluids

6.2 Equation of Countinuity

6.3 Pascal’s Law

6.4 Bernoulli’s Equation

6.5 Torricelli’s Theorem

6.6 Venturi Relation

6.7 Relation Between Pressure and Speed

7.1 Oscillatory Motion

7.2 Types of Oscillatory Motion

7.3 Amplitude ,Vibration and Time Period

7.4 Simple Harmonic Motion

7.5 Simple Harmonic Motion Graph

7.6:SHM Compared With Uniform Circular Motion

7.7 Displacement of Projection

7.8 Velocity of Projection

7.9 Accelaration of Projection

7.10 Time Period of Spring

7.11 Pendulum

7.12 Time Period of Pendulum

7.13 Types of Energies in Spring

7.14 Law of Consevation of Energy in Oscillatory Motion

7.15 Resonance

8.1 Introduction of Waves

8.2 Introduction of Waveshow to find Speed of Waves

8.2 Introduction of Waveshow to find Speed of Waves

8.3 Superposition of Waves

8.4 Sound

8.5 Power Formula of Speed and Sound

8.6:Laplace Correction

8.8 Newton Formula of Speed of Sound

8.9 Interference of Waves

8.10 Beats

8.11 Stationary Waves

8.12 Stationary Waves Produced With Both Ends of Pipe

8.13 Coming Soon

8.14 A Source Moving Away And Towards The Observer

8.15 When an Obsever is Moving Towards Stationary Waves

8.16 When an Observer is Moving Away

8.17 Applications of Doppler Effect

8.18 Sonar System and Radar Speed Trap

9.1 Wavefront

9.2 Hygen Principle

9.3 Interference of Light

9.4 Proved Formula of Path Difference

9.5 Young’s Double Slit Expirment

9.6 Working of Young’s Expirment

9.8 Fringe Width

9.9 Thin Film

9.10 Newton’s Rings

9.11 Diffraction of Light

9.12 Differaction Through Narrow Slit

9.13 Differaction Gratting

9.14 Bragge’s Law

9.15 Polarization

9.16 Spectrometer

10.1 Lens Formula

10.2 Simple Microscope

10.3 Compound Microscope

10.4 Telescope

10.5 Michelson Experiment of Speed of Light

10.6 Reflection, Refraction & Refractive Index

10.7 Total Internal Reflection

10.8 Mickelson’s Interferrometer

11.1 Pressure of Gases

11.2 Detuction of Boyles Law

11.3 First Law of Thermodynamics

11.4 Isothermal and Adiabatic Process

11.5 Second Law of Thermodynamics

11.6 Coming Soon

11.7 Specific Heat

11.8 Cp – Cv = R

11.9 Entropy

11.10 Work Done on the System and by the System