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Class 11th Physics Full Course By Arvind Sir

Physics Hinglish Total Chapters: 15
Arvind Sir
  • Class 11th Physics Complete Syllabus Batch 2020-2021 by Arvind Sir
  • Complete Physics focuses on concepts understanding.
  • Tip & Trick to get extra marks in exam.
  • Boost your Physics concepts.
  • Recorded Video lectures are provided
  • Each chapter is explained to cover all details in easiest way
  • 200+ videos covers each and every topic of this subject

 

Chapter 1 | Physical World

Chapter 2 | Units And Measurements

  • 2.1 Benefits Of Si System - Fundamental Quantities
    36 Minutes
    2.1 Benefits Of Si System - Fundamental Quantities
  • 2.2 Fundamental & Derived Units And Definitions
    40 Minutes
  • 2.3 Practical Units
    10 Minutes
  • 2.4 Parallax Method - Measuring Large Distances
    8 Minutes
  • 2.5 Order Of Magnitude
    11 Minutes
  • 2.6 Accuracy And Precision
    4 Minutes
  • 2.7 Systematic Errors Random Errors Least Count Errors
    8 Minutes
  • 2.8 Absolute Errors Relative Errors Percentage Errors
    27 Minutes
  • 2.9 Combination Of Errors Propagation Of Errors
    27 Minutes
  • 2.10 Significant Figures
    33 Minutes
  • 2.11 Dimensional Analysis
    29 Minutes

Chapter 3 | Motion In A Straight Line

  • 3.1 Introduction , Understanding Reference Point
    43 Minutes
  • 3.2 Distance, Displacement, Velocity, Speed Etc.
    38 Minutes
    3.2 Distance, Displacement, Velocity, Speed Etc.
  • 3.3 Understanding Acceleration And Uniform Acceleration
    34 Minutes
  • 3.4 Kinematics Equations Derivations
    15 Minutes
  • 3.5 Integration For Physics, Mathematical Tool
    16 Minutes
  • 3.6 Kinematics Equations Proof By Calculus Method
    23 Minutes
  • 3.7 Motion Under Gravity
    38 Minutes
  • 3.8 Kinematics Equations Proof By Graphical Method
    24 Minutes
  • 3.9 Kinematics, Understanding Graphs
    34 Minutes
  • 3.10 Numericals On Graph
    20 Minutes
  • 3.11 Relative Motion And Relative Velocity
    52 Minutes

Chapter 4 | Motion In A Plane

  • 4.1 Introduction Of Vectors, Why We Need It ?
    22 Minutes
  • 4.2 Types Of Vectors And Vector Addition
    37 Minutes
  • 4.3 Vector Addition Formula
    33 Minutes
  • 4.4 Resolution Of Vectors
    32 Minutes
  • 4.5 Scalar Dot Product Of Vectors
    25 Minutes
  • 4.6 Vector Cross Product Of Vectors
    44 Minutes
  • 4.7 Determinants Method Of Vector Cross Product
    20 Minutes
  • 4.8 Numericals
    30 Minutes
  • 4.9 Velocity & Acceleration In Form Of I,j,k
    21 Minutes
  • 4.10 Relative Motion In Two Dimensions
    34 Minutes
  • 4.11 Horizontal Projectile
    32 Minutes
  • 4.12 Angular Projectile
    30 Minutes
  • 4.13 Numericals On Projectile
    22 Minutes
  • 4.14 Angular Displacement And Velocity, V & W
    27 Minutes
  • 4.15 Relation Between V & W, Relation Between Linear Velocity & Angular Velocity
    21 Minutes
  • 4.16 Centripetal Acceleration
    43 Minutes
  • 4.17 Numericals
    36 Minutes

Chapter 5 | Laws Of Motion

  • 5.1 Introduction, Force, Momentum, System Of Particles
    42 Minutes
  • 5.2 Impulse, Mass, Weight
    37 Minutes
  • 5.3 Free Body Diagram, Rocket Law
    46 Minutes
  • 5.4 Equilibrium, Lami's Theorem
    27 Minutes
  • 5.5 Friction
    47 Minutes
  • 5.6 Centripetal Force & Friction Laws
    38 Minutes
  • 5.7 Turning On Circular Tracks, Banking Of Roads
    40 Minutes
  • 5.1 Law Of Motion, Introduction & Newton 1st Law Of Motion (new Updated Video)
    47 Minutes
  • 5.2 Newton 2nd Law Of Motion In Vector Component Form ( New Updated Video)
    25 Minutes
  • 5.3 Impulse (new Updated Video)
    33 Minutes
  • 5.4 Newton's 3rd Law ( New Updated Video)
    23 Minutes
  • 5.5 Horse And Cart Problems ( New Updated Video)
    13 Minutes
  • 5.6 Newton's 2nd Law Is The Main Law (new Updated Video)
    5 Minutes
  • 5.7 Main In Lift ( Lift Problems)
    7 Minutes
  • 5.8 Conservation Of Linear Momentum ( New Updated Video)
    19 Minutes
  • 5.9 Rocket Problems ( New Updated Video)
    26 Minutes
  • 5.10 Lamis Theorem ( New Updated Theorem)
    21 Minutes
  • 5.11 Connected Motion ( Ne Updated Video)
    42 Minutes
  • 5.12 Friction Part 1, Static And Limiting Friction ( New Updated Video)
    28 Minutes
  • 5.13 Friction Part 2 ( New Updated Video)
    29 Minutes
  • 5.14 Turning On Roads ( New Updated Video)
    27 Minutes
  • 5.15 Vertical Circular Motion ( New Updated Video)
    24 Minutes
  • 5.16 Pseudo Forces And Inertial & Non Inertial Frames ( New Updated Video)
    18 Minutes

Chapter 6 | Work, Energy And Power

  • 6.1 Work, Conservative Force
    39 Minutes
  • 6.2 Power, Energy And Spring Energy
    46 Minutes
  • 6.3 Conservation Of Energy
    35 Minutes
  • 6.4 Collision
    52 Minutes
  • 6.5 Numericals
    25 Minutes
  • 6.1 Work, Energy Power Intro. ( New Updated Video)
    27 Minutes
  • 6.2 Kinetic Energy ( New Updated Video)
    9 Minutes
  • 6.3 Work Energy Theorem ( New Updated Video)
    11 Minutes
  • 6.4 Potential Energy ( New Updated Video)
    5 Minutes
  • 6.5 Conservative Force ( New Updated Video)
    26 Minutes
  • 6.6 Potential Energy Of A Spring ( New Updated Video)
    35 Minutes
  • 6.7 Einstein Equation And Power ( New Updated Video)
    8 Minutes
  • 6.8 Collisions Part 1 ( New Updated Video)
    33 Minutes
  • 6.9 Collisions Part 2 ( New Updated Video)
    22 Minutes
  • 6.10 Collisions Part 3 ( New Updated Video)
    24 Minutes

Chapter 7 | System Of Particles & Rotational Motion

  • 7.1 System Of Particles, Axis Of Rotation
    27 Minutes
  • 7.2 Centre Of Mass
    37 Minutes
  • 7.3 Numericals
    34 Minutes
  • 7.4 Moment Of Inertia
    42 Minutes
  • 7.5 Parallel And Perpendicular Axis Theorem
    31 Minutes
  • 7.6 Torque, Couple Of Forces
    53 Minutes
  • 7.7 Angular Momentum
    48 Minutes
  • 7.8 Power, Energy & Rolling Motion
    39 Minutes
  • 7.9 Rolling Motion On Inclined Plane
    22 Minutes
  • 7.1 Rotation And Centre Of Mass (com) (new Updated Video)
    24 Minutes
  • 7.2 Derivation Of Com Of Two Particle System ( New Updated Video)
    7 Minutes
  • 7.3 Com Of N Particle System (new Updated Video)
    9 Minutes
  • 7.4 Momentum Conservation And Com (new Updated Video)
    7 Minutes
  • 7.5 Numerical On Com (new Updated Video)
    4 Minutes
  • 7.6 Rigid Body And Com Of Regular Bodies (new Updated Video)
    11 Minutes
  • 7.7 Rotational Motion Equations Of Rotation (new Updated Video)
    22 Minutes
  • 7.8 Torque Moment Of Force (new Updated Video)
    18 Minutes
  • 7.9 Rotational Equilibrium And Torque (new Updated Video)
    18 Minutes
  • 7.10 Angular Momentum (new Updated Video)
    14 Minutes
  • 7.11 Geometrical Meaning Of Angular Momentum (new Updated Video)
    32 Minutes
  • 7.12 Equilibrium Of Rigid Body (new Updated Video)
    8 Minutes
  • 7.13 Work Done In Combined Motion- Rotational And Translational (new Updated Video)
    1 Minutes
  • 7.14 Moment Of Inertia (new Updated Video)
    9 Minutes
  • 7.15 Radius Of Gyration (new Updated Video)
    16 Minutes
  • 7.16 Parallel And Perpendicular Axis Theorem (new Updated Video)
    11 Minutes
  • 7.17 Moment Of Inertia Of A Ring And Disc (new Updated Video)
    16 Minutes
  • 7.18 Mi Of Rod,cylinder And Sphere (new Updated Video)
    29 Minutes
  • 7.19 Numericals On Moment Of Inertia (new Updated Video)
    30 Minutes
  • 7.20 Relation Between Torque And Moment Of Inertia (mi) (new Updated Video)
    4 Minutes
  • 7.21 Relation Between Angular Momentum And Moment Of Inertia (mi) (new Updated Video)
    3 Minutes
  • 7.22 Conservation Of Angular Momentum (new Updated Video)
    7 Minutes
  • 7.23 Rolling Motion (new Updated Video)
    31 Minutes
  • 7.24 Numericals On Rotational Motion (new Updated Video)
    22 Minutes

Chapter 8 | Gravitation

  • 8.1 Kepler's Law & Proof
    36 Minutes
  • 8.2 Universal Gravitational Law Difference G & G
    26 Minutes
  • 8.3 Variation In G Below And Above The Surface Of Earth
    38 Minutes
  • 8.4 Gravitational Potential Energy, Escape Velocity
    42 Minutes
  • 8.5 Satellites Orbital Velocity
    54 Minutes
  • 8.6 Numericals
    17 Minutes
  • 8.1 Gravitation Introduction And Understanding ( New Updated Video)
    45 Minutes
  • 8.2 Variation In G (new Updated Video)
    40 Minutes
  • 8.3 Gravitational Potential Energy (new Updated Video)
    22 Minutes
  • 8.4 Gravitational Potential (new Updated Video)
    7 Minutes
  • 8.5 Numericals (new Updated Video)
    16 Minutes
  • 8.6 Escape Velocity (new Updated Video)
    18 Minutes
  • 8.7 Orbital Velocity (new Updated Video)
    10 Minutes
  • 8.8 Geostationary Satellite (new Updated Video)
    5 Minutes
  • 8.9 Polar Satellites And Total Energy Of A Satellite (new Updated Video)
    7 Minutes
  • 8.10 Keplers Law And Derivation (new Updated Video)
    24 Minutes
  • 8.11 Newton Idea From Kepler (new Updated Video)
    12 Minutes
  • 8.12 Numericals (new Updated Video)
    24 Minutes

Chapter 9 | Mechanical Properties Of Solids

  • 9.1 Stress & Strain
    41 Minutes
  • 9.2 Hook's Law & Young Modulus
    42 Minutes
  • 9.3 Stress Strain Graph- Curve
    50 Minutes
  • 9.4 Numericals
    35 Minutes
  • 9.1 Deforming Force, Elasticity, Plasticity (new Updated Video)
    17 Minutes
  • 9.2 Stress (new Updated Video)
    6 Minutes
  • 9.3 Strain And Young Modulus (new Updated Video)
    10 Minutes
  • 9.4 Stress Strain Curve (new Updated Video)
    11 Minutes
  • 9.5 Classification Of Materials On The Basis Of Stress Strain Curve (new Updated Video)
    7 Minutes
  • 9.6 Bulk Modulus And Shear Modulus (new Updated Video)
    16 Minutes
  • 9.7 Numericals (new Updated Video)
    8 Minutes
  • 9.8 Elastic Fatigue And Elastic Hysterisis (new Updated Video)
    8 Minutes
  • 9.9 Application Of Elasticity, I Beam Etc. (new Updated Video)
    18 Minutes
  • 9.10 Elastic Potential Energy Of A Stretched Wire (new Updated Video)
    3 Minutes
  • 9.11 Poisson's Ratio (new Updated Video)
    5 Minutes
  • 9.12 Numericals (new Updated Video)
    17 Minutes

Chapter 10 | Mechanical Properties Of Fluids

  • 10.1 Pascal Law
    54 Minutes
  • 10.2 Pascal Law Under Gravity, Atmospheric Pressure, Barometer, Gauge Pressure
    47 Minutes
  • 10.3 Stream Line Flow, Turbulent Flow, Archimedes Principle
    56 Minutes
  • 10.4 Bernoulli's Principle & Its Application
    47 Minutes
  • 10.5 Toricelli's Law & Venturimeter
    40 Minutes
  • 10.6 Viscosity
    43 Minutes
  • 10.7 Surface Tension, Surface Energy
    35 Minutes
  • 10.8 Excess Pressure In A Drop Or In Bubble
    29 Minutes
  • 10.9 Capillarity Ascent Formula
    41 Minutes
  • 10.10 Numericals Part-1
    16 Minutes
  • 10.11 Numericals Part-2
    25 Minutes
  • 10.1 Mechanical Properties Of Fluids Intro (new Updated Video)
    22 Minutes
  • 10.2 Specific Gravity Or Relative Density (new Updated Video)
    8 Minutes
  • 10.3 Pascal's Law And Its Proof (new Updated Video)
    20 Minutes
  • 10.4 Pressure Exerted By Liquid Column (new Updated Video)
    2 Minutes
  • 10.5 Effect Of Gravity On Fluid Pressure (new Updated Video)
    9 Minutes
  • 10.6 Atmospheric Pressure And Toricelli's Experiment (new Updated Video)
    8 Minutes
  • 10.7 Absolute And Gauge Pressure (new Updated Video)
    4 Minutes
  • 10.8 Archemedes Principle And Flotation (new Updated Video)
    32 Minutes
  • 10.9 Viscosity (new Updated Video)
    9 Minutes
  • 10.10 Coefficient Of Viscosity (new Updated Video)
    6 Minutes
  • 10.11 Difference Between Viscous Force And Friction Force (new Updated Video)
    4 Minutes
  • 10.12 Variation Of Viscosity With Temperature And Pressure (new Updated Video)
    7 Minutes

Chapter 11 | Thermal Properties Of Matter

  • 11.1 Absolute Zero, Temperature Scale
    43 Minutes
  • 11.2 Thermal Expansions
    31 Minutes
  • 11.3 Specific Heat Calorimetry
    40 Minutes
  • 11.4 State Transformation, Solid To Liquid
    38 Minutes
  • 11.5 Heat Transfer, Conduction
    46 Minutes
  • 11.6 Convection Radiation
    51 Minutes
  • 11.7 Kirchoff's Law, Stephen's Law, Newton Law Of Cooling
    24 Minutes
  • 11.8 Newton Law Of Cooling Wein's Law
    35 Minutes

Chapter 12 | Thermodynamics

  • 12.1 Zeroth Law Of Thermodynamics
    28 Minutes
  • 12.2 Isothermal Process And Adiabatic Process
    47 Minutes
  • 12.3 Work Done In Isothermal Process,
    8 Minutes
  • 12.4 Work Done In Adiabatic Process
    8 Minutes
  • 12.5 First Law Of Thermodynamics
    36 Minutes
  • 12.6 Mayor's Relation Cp-cv=r
    6 Minutes
  • 12.7 Heat Engine, Heat Engine In Thermodynamics
    30 Minutes
  • 12.8 Reverse Heat Engine In Thermodynamics
    27 Minutes
  • 12.9 Limitations Of First Law Of Thermodynamics
    5 Minutes
  • 12.10 Second Law Of Thermodynamics,
    4 Minutes
  • 12.11 Carnot's Cycle, Carnot's Theorem,
    44 Minutes
  • 12.12 Numericals
    42 Minutes

Chapter 13 | Kinetic Theory

  • 13.1 Postulates Of Kinetic Theory
    34 Minutes
  • 13.2 Relation Between Temperature & C Rms
    14 Minutes
  • 13.3 Degrees Of Freedom Law Of Equipartition Of Energy
    33 Minutes
  • 13.4 Molar Specific Heat Of Water Cp Cv
    16 Minutes

Chapter 14 | Oscillations

  • 14.1 Understanding Simple Harmonic Motion- Shm
    23 Minutes
  • 14.2 Displacement Equation Of Shm
    12 Minutes
  • 14.3 Phase Phase Difference Oscillations
    13 Minutes
  • 14.4 Velocity & Acceleration Equation Of Shm
    21 Minutes
  • 14.5 Graph Of Displacement, Velocity & Acceleration Of Shm
    21 Minutes
  • 14.6 Energy In Shm, Pendulum Under Shm, Spring Under Shm
    47 Minutes
  • 14.7 Damped Shm Damped Oscillations
    25 Minutes
  • 14.8 Forced Oscillations, Resonance
    18 Minutes
  • 14.9 Numericals
    50 Minutes

Chapter 15 | Waves

  • 15.1 What Are Waves - Introduction
    42 Minutes
  • 15.2 Speed Of A Wave Waves
    33 Minutes
  • 15.3 Factors Affecting Speed Of Waves
    7 Minutes
  • 15.4 Principle Of Superposition Superposition Waves
    35 Minutes
  • 15.5 Reflection Of Waves Wave Reflection Waves
    19 Minutes
  • 15.6 Stationary Waves, Production Of Stationary Waves
    45 Minutes
  • 15.7 Stationary Wave In A String, Standing Waves
    24 Minutes
  • 15.8 Stationary Waves In A Pipe
    19 Minutes
  • 15.9 What Are Beats
    13 Minutes
  • 15.10 Equation Of Beats, Analysis Of Beats
    18 Minutes
  • 15.11 Application Of Beats
    24 Minutes
  • 15.12 Doppler Effect, What Is Doppler Effect
    12 Minutes
  • 15.13 Doppler Effect Formula Derivation
    21 Minutes
  • 15.14 Doppler Asymmetric Nature Doppler Effect
    8 Minutes
  • 15.15 Applications Of Doppler Effect
    7 Minutes
  • 15.16 Numerical On Doppler Effect
    11 Minutes
  • 5.17 Numericals On Waves
    30 Minutes

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