Chapter 1 | Physical World

• 1.1 Physics world - Understanding Physics Demo
• 1.2 Physical world - Types of forces

Chapter 2 | Units and Measurements

• 2.1 Benefits of SI system - Fundamental Quantities Demo 2.1 Benefits of SI system - Fundamental Quantities Demo
• 2.2 Fundamental & Derived Units and Definitions
• 2.3 Practical units
• 2.4 Parallax Method - Measuring large distances
• 2.5 Order of Magnitude
• 2.6 Accuracy and Precision
• 2.7 Systematic Errors Random errors Least Count Errors
• 2.8 Absolute errors Relative Errors Percentage Errors
• 2.9 Combination of Errors Propagation of errors
• 2.10 Significant Figures
• 2.11 Dimensional Analysis

Chapter 3 | Motion in a Straight Line

• 3.1 Introduction , Understanding reference point
• 3.2 Distance, displacement, Velocity, Speed etc. Demo 3.2 Distance, displacement, Velocity, Speed etc. Demo
• 3.3 Understanding acceleration and Uniform acceleration
• 3.4 Kinematics Equations Derivations
• 3.5 Integration for Physics, Mathematical Tool
• 3.6 Kinematics equations proof by calculus method
• 3.7 Motion under Gravity
• 3.8 Kinematics equations proof by graphical method
• 3.9 Kinematics, Understanding Graphs
• 3.10 Numericals on Graph
• 3.11 Relative Motion and Relative velocity

Chapter 4 | Motion in a Plane

• 4.1 Introduction of Vectors, Why we need it ?
• 4.2 Types of Vectors and Vector addition
• 4.3 Vector addition Formula
• 4.4 Resolution of Vectors
• 4.5 Scalar dot product of Vectors
• 4.6 Vector Cross Product of vectors
• 4.7 Determinants Method of Vector cross product
• 4.8 Numericals Demo
• 4.9 Velocity & acceleration in form of i,j,k
• 4.10 Relative Motion in Two dimensions
• 4.11 Horizontal Projectile
• 4.12 Angular Projectile
• 4.13 Numericals on Projectile
• 4.14 Angular displacement and velocity, V & w
• 4.15 Relation between V & w, Relation between Linear Velocity & angular Velocity
• 4.16 Centripetal acceleration
• 4.17 Numericals

Chapter 5 | Laws of Motion

• 5.1 Introduction, Force, Momentum, System of Particles
• 5.2 Impulse, Mass, Weight
• 5.3 Free Body diagram, Rocket Law
• 5.4 Equilibrium, Lami's Theorem
• 5.5 Friction
• 5.6 Centripetal force & Friction laws
• 5.7 Turning on circular tracks, banking of Roads
• 5.1 Law of Motion, Introduction & Newton 1st law of Motion (New Updated Video)
• 5.2 Newton 2nd Law of Motion in Vector Component Form ( New updated Video)
• 5.3 Impulse (New Updated Video) Demo
• 5.4 Newton's 3rd Law ( New Updated Video)
• 5.5 Horse and Cart Problems ( New Updated video)
• 5.6 Newton's 2nd Law is the Main Law (New Updated video)
• 5.7 Main in Lift ( Lift Problems)
• 5.8 Conservation of Linear Momentum ( New updated video)
• 5.9 Rocket Problems ( New Updated Video)
• 5.10 Lamis theorem ( New updated Theorem)
• 5.11 Connected Motion ( Ne updated Video)
• 5.12 Friction Part 1, static and limiting friction ( New updated Video)
• 5.13 Friction Part 2 ( New updated Video)
• 5.14 Turning on Roads ( New updated Video)
• 5.15 Vertical circular Motion ( New updated Video)
• 5.16 Pseudo Forces and inertial & Non Inertial Frames ( New updated Video)

Chapter 6 | Work, Energy and Power

• 6.1 Work, conservative Force
• 6.2 Power, Energy and Spring Energy
• 6.3 Conservation of Energy
• 6.4 Collision
• 6.5 Numericals
• 6.1 Work, Energy Power Intro. ( New updated Video)
• 6.2 Kinetic Energy ( New updated Video)
• 6.3 Work Energy Theorem ( New updated Video)
• 6.4 Potential Energy ( New updated Video)
• 6.5 Conservative Force ( New updated Video)
• 6.6 Potential Energy of a Spring ( New updated Video)
• 6.7 Einstein Equation and Power ( New updated Video) Demo
• 6.8 Collisions Part 1 ( New updated Video)
• 6.9 Collisions Part 2 ( New updated Video)
• 6.10 Collisions Part 3 ( New updated Video)

Chapter 7 | System of Particles & Rotational Motion

• 7.1 System of Particles, Axis of Rotation
• 7.2 Centre of mass
• 7.3 Numericals
• 7.4 Moment of Inertia
• 7.5 Parallel and Perpendicular Axis Theorem
• 7.6 Torque, Couple of Forces
• 7.7 Angular Momentum
• 7.8 Power, Energy & Rolling Motion
• 7.9 Rolling Motion On inclined Plane
• 7.1 Rotation and centre of Mass (COM) (New Updated Video)
• 7.2 Derivation of COM of Two Particle System ( New Updated Video)
• 7.3 COM of n particle system (New Updated Video) Demo
• 7.4 Momentum Conservation and COM (New Updated Video)
• 7.5 Numerical on COM (New Updated Video)
• 7.6 Rigid Body and COM of Regular Bodies (New Updated Video)
• 7.7 Rotational Motion equations of rotation (New Updated Video)
• 7.8 Torque Moment of Force (New Updated Video)
• 7.9 Rotational equilibrium and Torque (New Updated Video)
• 7.10 Angular Momentum (New Updated Video)
• 7.11 Geometrical meaning of angular Momentum (New Updated Video)
• 7.12 Equilibrium of Rigid Body (New Updated Video)
• 7.13 Work done in combined motion- Rotational and Translational (New Updated Video)
• 7.14 Moment of Inertia (New Updated Video)
• 7.15 Radius of Gyration (New Updated Video)
• 7.16 Parallel and Perpendicular axis Theorem (New Updated Video)
• 7.17 Moment of Inertia of a Ring and Disc (New Updated Video)
• 7.18 MI of Rod,Cylinder and Sphere (New Updated Video)
• 7.19 Numericals on Moment of Inertia (New Updated Video)
• 7.20 Relation between Torque and Moment of Inertia (MI) (New Updated Video)
• 7.21 Relation between Angular momentum and Moment of Inertia (MI) (New Updated Video)
• 7.22 Conservation of angular momentum (New Updated Video)
• 7.23 Rolling Motion (New Updated Video)
• 7.24 Numericals on Rotational Motion (New Updated Video)

Chapter 8 | Gravitation

• 8.1 Kepler's law & Proof
• 8.2 Universal Gravitational Law Difference G & g
• 8.3 Variation in g below and above the surface of earth
• 8.4 Gravitational Potential Energy, Escape Velocity
• 8.5 Satellites Orbital Velocity
• 8.6 Numericals
• 8.1 Gravitation Introduction and understanding ( New updated Video)
• 8.2 Variation in g (New updated Video)
• 8.3 Gravitational Potential Energy (New updated Video) Demo
• 8.4 Gravitational Potential (New updated Video)
• 8.5 Numericals (New updated Video)
• 8.6 Escape Velocity (New updated Video)
• 8.7 Orbital Velocity (New updated Video)
• 8.8 Geostationary Satellite (New updated Video)
• 8.9 Polar Satellites and total Energy of a Satellite (New updated Video)
• 8.10 Keplers Law and Derivation (New updated Video)
• 8.11 Newton idea from Kepler (New updated Video)
• 8.12 Numericals (New updated Video)

Chapter 9 | Mechanical Properties of Solids

• 9.1 Stress & Strain
• 9.2 Hook's Law & Young Modulus
• 9.3 Stress Strain Graph- Curve
• 9.4 Numericals
• 9.1 Deforming Force, Elasticity, Plasticity (New Updated Video)
• 9.2 Stress (New Updated Video)
• 9.3 Strain and Young Modulus (New Updated Video) Demo
• 9.4 Stress Strain Curve (New Updated Video)
• 9.5 Classification of Materials on the basis of Stress Strain Curve (New Updated Video)
• 9.6 Bulk Modulus and Shear Modulus (New Updated Video)
• 9.7 Numericals (New Updated Video)
• 9.8 Elastic Fatigue and Elastic Hysterisis (New Updated Video)
• 9.9 Application of Elasticity, I beam etc. (New Updated Video)
• 9.10 Elastic Potential Energy of a Stretched Wire (New Updated Video)
• 9.11 Poisson's Ratio (New Updated Video)
• 9.12 Numericals (New Updated Video)

Chapter 10 | Mechanical Properties of Fluids

• 10.1 Pascal Law
• 10.2 Pascal Law under gravity, Atmospheric Pressure, Barometer, Gauge Pressure
• 10.3 Stream Line Flow, Turbulent Flow, Archimedes Principle
• 10.4 Bernoulli's Principle & its Application
• 10.5 Toricelli's law & Venturimeter
• 10.6 Viscosity
• 10.7 Surface Tension, Surface Energy
• 10.8 Excess pressure in a drop or in bubble
• 10.9 Capillarity Ascent formula
• 10.10 Numericals Part-1
• 10.11 Numericals Part-2
• 10.1 Mechanical Properties of Fluids Intro (New Updated Video)
• 10.2 Specific Gravity or Relative Density (New Updated Video)
• 10.3 Pascal's Law and its Proof (New Updated Video)
• 10.4 Pressure exerted by Liquid Column (New Updated Video)
• 10.5 Effect of Gravity on Fluid Pressure (New Updated Video) Demo
• 10.6 Atmospheric Pressure and Toricelli's Experiment (New Updated Video)
• 10.7 Absolute and Gauge Pressure (New Updated Video)
• 10.8 Archemedes principle and flotation (New Updated Video)
• 10.9 Viscosity (New Updated Video)
• 10.10 Coefficient of Viscosity (New Updated Video)
• 10.11 Difference between Viscous Force and Friction Force (New Updated Video)
• 10.12 Variation of Viscosity with Temperature and Pressure (New Updated Video)

Chapter 11 | Thermal Properties of Matter

• 11.1 Absolute Zero, Temperature Scale
• 11.2 Thermal Expansions
• 11.3 Specific Heat Calorimetry
• 11.4 State Transformation, Solid to Liquid
• 11.5 Heat Transfer, Conduction
• 11.6 Convection Radiation Demo
• 11.7 Kirchoff's law, Stephen's law, Newton Law of Cooling
• 11.8 Newton law of Cooling Wein's law

Chapter 12 | Thermodynamics

• 12.1 Zeroth law of Thermodynamics
• 12.2 Isothermal Process and Adiabatic Process
• 12.3 Work Done in Isothermal Process,
• 12.4 Work done in Adiabatic Process
• 12.5 First Law of Thermodynamics
• 12.6 Mayor's relation Cp-Cv=R
• 12.7 Heat Engine, Heat Engine in Thermodynamics
• 12.8 Reverse Heat Engine in Thermodynamics
• 12.9 Limitations of First law of Thermodynamics
• 12.10 Second Law of Thermodynamics,
• 12.11 Carnot's Cycle, Carnot's Theorem,
• 12.12 Numericals

Chapter 13 | Kinetic Theory

• 13.1 Postulates of Kinetic Theory
• 13.2 Relation between temperature & C rms
• 13.3 Degrees of Freedom Law of Equipartition of Energy
• 13.4 Molar Specific Heat of water Cp Cv

Chapter 14 | Oscillations

• 14.1 Understanding Simple Harmonic Motion- SHM
• 14.2 Displacement Equation of SHM
• 14.3 Phase Phase Difference Oscillations
• 14.4 Velocity & acceleration equation of SHM
• 14.5 Graph of displacement, velocity & acceleration of SHM
• 14.6 Energy in SHM, Pendulum under SHM, Spring under SHM
• 14.7 Damped SHM Damped Oscillations
• 14.8 Forced Oscillations, Resonance
• 14.9 Numericals

Chapter 15 | Waves

• 15.1 What are Waves - Introduction
• 15.2 Speed of a Wave Waves
• 15.3 Factors affecting Speed of Waves
• 15.4 Principle of Superposition Superposition Waves
• 15.5 Reflection of waves Wave Reflection Waves
• 15.6 Stationary Waves, Production of Stationary waves
• 15.7 Stationary Wave in a string, Standing waves
• 15.8 Stationary Waves in a Pipe
• 15.9 What are Beats
• 15.10 Equation of Beats, Analysis of Beats
• 15.11 Application of Beats
• 15.12 Doppler Effect, What is Doppler effect
• 15.13 Doppler Effect formula derivation
• 15.14 Doppler asymmetric Nature Doppler effect
• 15.15 Applications of Doppler effect
• 15.16 Numerical on Doppler effect
• 5.17 Numericals on waves