Curriculum
- 11 Sections
- 125 Lessons
- 10 Weeks
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- 01 Measurements3
- 02 Vectors and Equilibrium8
- 03 Motion and Force13
- 4.03.1 Displacement Time Graph
- 4.13.2 Velocity Time Graph
- 4.23.3 1st and 2nd Law of Motion
- 4.33.4 Newton’s 3rd Law of Motion
- 4.43.5 Momentum
- 4.53.6 Example of Gun
- 4.63.7 Example of Rocket
- 4.73.8 Conservation of Momentum
- 4.83.9 Billistic Flight
- 4.93.10 Projectile motion and Projectile Velocity
- 4.103.11 Height of Projectile Motion
- 4.113.12 Time of Projectile Motion
- 4.123.13 Range of Projectile Motion
- 04 Work and Energy12
- 5.04.1 Introduction of Work
- 5.14.2 Conservative and Non Conservative Forces
- 5.24.3 Work Done By Variable and Constant Force
- 5.34.4 Work Done by Gravitational Force
- 5.44.5 Power
- 5.54.6 Introduction of Energy
- 5.64.7 Work Energy Principle
- 5.74.8 Law of Conservation of Energy
- 5.84.9 Gravitation
- 5.94.10 Absolute Gravitational Potential Energy
- 5.104.11 Escape Velocity
- 5.114.12 Non Conventional Energy Sources
- 05 Circular Motion16
- 6.05.1 Basic Concept
- 6.15.2 Angular Displacement
- 6.25.3 Angular Velocity
- 6.35.4 Angular Acceleration
- 6.45.5 Centripetal Force
- 6.55.6 Centripetal Acceleration
- 6.65.7 Angular Quantities
- 6.75.8 Moment of Inertia
- 6.85.9 Angular Momentum
- 6.95.10 Types of Angular Momentum
- 6.105.11 Conservation of Angular Momentum
- 6.115.12 Rotational Kinetic Energy
- 6.125.13 Rotationaol Kinetic Energy For Hoop ,Disc, Sphere
- 6.135.14 Orbital Velocity
- 6.145.15 Setallites
- 6.155.16 Weightlessness Conditons
- 06 Fluid Dynamics7
- 07 Oscillations15
- 8.07.1 Oscillatory Motion
- 8.17.2 Types of Oscillatory Motion
- 8.27.3 Amplitude ,Vibration and Time Period
- 8.37.4 Simple Harmonic Motion
- 8.47.5 Simple Harmonic Motion Graph
- 8.57.6:SHM Compared With Uniform Circular Motion
- 8.67.7 Displacement of Projection
- 8.77.8 Velocity of Projection
- 8.87.9 Accelaration of Projection
- 8.97.10 Time Period of Spring
- 8.107.11 Pendulum
- 8.117.12 Time Period of Pendulum
- 8.127.13 Types of Energies in Spring
- 8.137.14 Law of Consevation of Energy in Oscillatory Motion
- 8.147.15 Resonance
- 08 Waves18
- 9.08.1 Introduction of Waves
- 9.18.2 Introduction of Waveshow to find Speed of Waves
- 9.28.2 Introduction of Waveshow to find Speed of Waves
- 9.38.3 Superposition of Waves
- 9.48.4 Sound
- 9.58.5 Power Formula of Speed and Sound
- 9.68.6:Laplace Correction
- 9.78.8 Newton Formula of Speed of Sound
- 9.88.9 Interference of Waves
- 9.98.10 Beats
- 9.108.11 Stationary Waves
- 9.118.12 Stationary Waves Produced With Both Ends of Pipe
- 9.128.13 Coming Soon
- 9.138.14 A Source Moving Away And Towards The Observer
- 9.148.15 When an Obsever is Moving Towards Stationary Waves
- 9.158.16 When an Observer is Moving Away
- 9.168.17 Applications of Doppler Effect
- 9.178.18 Sonar System and Radar Speed Trap
- 09 Physical Optics15
- 10.09.1 Wavefront
- 10.19.2 Hygen Principle
- 10.29.3 Interference of Light
- 10.39.4 Proved Formula of Path Difference
- 10.49.5 Young’s Double Slit Expirment
- 10.59.6 Working of Young’s Expirment
- 10.69.8 Fringe Width
- 10.79.9 Thin Film
- 10.89.10 Newton’s Rings
- 10.99.11 Diffraction of Light
- 10.109.12 Differaction Through Narrow Slit
- 10.119.13 Differaction Gratting
- 10.129.14 Bragge’s Law
- 10.139.15 Polarization
- 10.149.16 Spectrometer
- 10 Optical Instruments8
- 11 Heat and Thermodynamics10
- 12.011.1 Pressure of Gases
- 12.111.2 Detuction of Boyles Law
- 12.211.3 First Law of Thermodynamics
- 12.311.4 Isothermal and Adiabatic Process
- 12.411.5 Second Law of Thermodynamics
- 12.511.6 Coming Soon
- 12.611.7 Specific Heat
- 12.711.8 Cp – Cv = R
- 12.811.9 Entropy
- 12.911.10 Work Done on the System and by the System