Torque & Angular Momentum || Conservation of Angular Momentum || Equilibrium of Rigid Body - Wisdom TechSavvy Academy

Course Content

Class 11 Physics Chapter 1 Physical World

Section Name Topic Name 1 Physical World 1.1 What is physics? 1.2 Scope and excitement of physics 1.3 Physics, technology and society 1.4 Fundamental forces in nature 1.5 Nature of physical laws

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Science and its origin || Natural Sciences || Physics

Scope of Physics || Macroscopic Domain || Microscopic Domain

Factors responsible for progress of Physics || Technological applications of Physics

Fundamental Forces in nature

Conserved Quantities || Conservation Laws

NCERT Solution of Physical World

Question Bank For NEET | JEE | AIIMS

Class 11 Physics Chapter 2 Unit and Measurements

Unit and Measurements

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Measurement of Length || Measuring large Distances – Parallax Method || Measuring very small distances

Special Length units || Measurement of Mass || Measurement of Time

Accuracy and Precision of Instruments || Types of Errors- Systematic Errors || Random Errors

Errors in a series of Measurements

Significant Figures || Rules for Arithmetic operation with Significant Figures || Rules for Rounding off the uncertain digits

Rules for determining uncertainty in results of arithmetic calculations

Dimensions of a Physical Quantity || Dimensional Formula and Dimensional Equation || Applications of Dimensional Analysis

Unit and Measurement NCERT Solution

Unit & Measurement Question Bank For NEET || JEE || AIIMS

Important Extra Questions Physics Chapter 2 Unit and Measurements

Class 11 Physics Chapter 3 Motion In A Straight Line

Section Name Topic Name 3 Motion in a Straight Line 3.1 Introduction 3.2 Position, path length and displacement 3.3 Average velocity and average speed 3.4 Instantaneous velocity and speed 3.5 Acceleration 3.6 Kinematic equations for uniformly accelerated motion 3.7 Relative velocity

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Motion || Frame of Reference || Motion along Straight Line

Path Length (Distance) Vs. Displacement || Position-Time, Velocity-Time and Acceleration-Time Graph || Average Velocity and Average Speed

Instantaneous Velocity and Instantaneous Speed || Acceleration || Kinematic Equations for Uniformly accelerated Motion

Relative Velocity

NCERT Solutions for Class 11 Physics Chapter 3 Motion In Straight Line

Class 11 Physics Chapter 3 Important Extra Questions Motion in a Straight Line

Motion in Straight Line Question Bank AIIMS || JEE || NEET

Class 11 Physics Chapter 4 Motion In A Plane

4 Motion in a plane 4.1 Introduction 4.2 Scalars and vectors 4.3 Multiplication of vectors by real numbers 4.4 Addition and subtraction of vectors – graphical method 4.5 Resolution of vectors 4.6 Vector addition – analytical method 4.7 Motion in a plane 4.8 Motion in a plane with constant acceleration 4.9 Relative velocity in two dimensions 4.10 Projectile motion 4.11 Uniform circular motion

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Scalars Vs. Vectors || Position and Displacement Vectors || Free and Localized Vectors

Equality of Vectors || Multiplication of Vectors with real numbers

Addition and Subtraction of Vectors – Triangle Method || Addition of Vectors – Parallelogram Method || Resolution Vector

Unit Vectors || Quantities Related to motion of an object in a plane

Motion in a plane with constant acceleration || Relative velocity in two dimensions

Projectile Motion

Uniform circular motion

NCERT Solutions for Class 11 Physics Chapter 4 Motion in a plane

Class 11 Physics Chapter 5 Laws of motion

Section Name Topic Name 5 Laws of motion 5.1 Introduction 5.2 Aristotle’s fallacy 5.3 The law of inertia 5.4 Newton’s first law of motion 5.5 Newton’s second law of motion 5.6 Newton’s third law of motion 5.7 Conservation of momentum 5.8 Equilibrium of a particle 5.9 Common forces in mechanics 5.10 Circular motion 5.11 Solving problems in mechanics

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INTRODUCTION || Contact & Non-contact forces || Aristotle’s fallacy

Inertia || Galileo’s Law of Inertia

Newton’s Law of Motion || Momentum || Balance & Unbalanced Force

Conservation of Momentum || Collision of Body || Equilibrium of Particles

Circular Motion

NCERT SOLUTION OF CLASS 11TH PHYSICS LAW OF MOTION

Law of Motion Question Bank || NEET | JEE || AIIMS

Class 11 Physics Chapter 6 Work Energy and Power

Section Name Topic Name 6 Work Energy and power 6.1 Introduction 6.2 Notions of work and kinetic energy : The work-energy theorem 6.3 Work 6.4 Kinetic energy 6.5 Work done by a variable force 6.6 The work-energy theorem for a variable force 6.7 The concept of potential energy 6.8 The conservation of mechanical energy 6.9 The potential energy of a spring 6.10 Various forms of energy : the law of conservation of energy 6.11 Power 6.12 Collisions

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Introduction || Scalar product

Notions of Work and Kinetic Energy || Work || Kinetic energy

The Work-Energy Theorem for a Variable Force

Conservative & Non-Conservative Forces|| The Conservation of Mechanical Energy || Potential energy of spring

Chemical Energy || Nuclear Energy

The Equivalence of Mass and Energy || Principle of Conservation of Energy || Power || Collision

NCERT Solutions for Class 11 Physics Chapter 6 Work Energy and Power

Work, Energy & Power Question For NEET || JEE || AIIMS

Class 11 Physics Chapter 7 Rotation motion

Topics Introduction Centre of mass Motion of COM Linear Momentum of System of Particles Vector Product Angular velocity Torque & Angular Momentum Conservation of Angular Momentum Equilibrium of Rigid Body Centre of Gravity Moment of Inertia Theorem of perpendicular axis Theorem of parallel axis Moment of Inertia of Objects Kinematics of Rotational Motion about a Fixed Axis Dynamics of Rotational Motion about a Fixed Axis Angular Momentum In Case of Rotation about a Fixed Axis Rolling motion

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Introduction || Center of Mass || Motion of COM

Linear Momentum of System of Particles || Vector Product || Angular velocity & its relation with linear velocity

Torque & Angular Momentum || Conservation of Angular Momentum || Equilibrium of Rigid Body

Centre of Gravity || Moment of Inertia || Theorem of perpendicular axis || Theorem of parallel axis || Kinematics of Rotational Motion about a Fixed Axis

Dynamics of Rotational Motion about a Fixed Axis || Rolling Motion

NCERT Solutions for Class 11 Physics Chapter 7 System of Particles and Rotational Motion

Class 11 Physics Chapter 8 Gravitation

Section Name Topic Name 8 Gravitation 8.1 Introduction 8.2 Kepler’s laws 8.3 Universal law of gravitation 8.4 The gravitational constant 8.5 Acceleration due to gravity of the earth 8.6 Acceleration due to gravity below and above the surface of earth 8.7 Gravitational potential energy 8.8 Escape speed 8.9 Earth satellite 8.10 Energy of an orbiting satellite 8.11 Geostationary and polar satellites 8.12 Weightlessness

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Introduction || Gravitational Constant || Newton’s View of Gravitation || Universal Law of Gravitation || Gravitational Constant: Cavendish experiment || Acceleration due to gravity of the earth

Expression for Acceleration due to gravity || Acceleration due to gravity below the surface of earth || Acceleration due to gravity above the surface of earth

Inertial and Gravitational Mass

Gravitational Potential Energy || Expression for Gravitational Potential Energy || Gravitational Potential

Planetary Motion || Kepler’s 1st law Vs. Copernicus Model || Kepler’s 2nd law: Law of Areas || Kepler’s 3rdLaw: Law of periods

Escape Velocity || Example of Escape Velocity: No atmosphere on moon || Earth Satellites || Natural Satellite || Artificial Satellites

Determining the Time Period of Earth Satellite || Energy of an orbiting satellite || Geostationary Satellite || Polar Satellites || Weightlessness

NCERT Solutions for Class 11 Physics Chapter 8 Gravitation

Class 11 Physics Chapter 9 mechanics properties of solid

Section Name Topic Name 9 Mechanical Properties Of Solids 9.1 Introduction 9.2 Elastic behaviour of solids 9.3 Stress and strain 9.4 Hooke’s law 9.5 Stress-strain curve 9.6 Elastic moduli 9.7 Applications of elastic behaviour of materials

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Introduction || Solids and their mechanical properties

Stress || Types of Stress

Strain || Types of Strain

Hook’s Law || Stress – Strain Curve || Elastic Modulus || Types of Elastic Modulus

Compressibility

NCERT Solutions for Class 11 Physics Chapter 9 Mechanical Properties of Solids

Class 11 Physics Chapter 10 Mechanical Properties of Fluids

Section Name Topic Name 10 Mechanical Properties Of Fluids 10.1 Introduction 10.2 Pressure 10.3 Streamline flow 10.4 Bernoulli’s principle 10.5 Viscosity 10.6 Reynolds number 10.7 Surface tension

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Introduction:Fluids || Pressure

Pressure in Fluids || Pascal’s Law

Variation of pressure with depth || Hydrostatic Paradox

Atmospheric Pressure || How to measure atmospheric pressure? || Gauge Pressure || How to measure Gauge pressure || Absolute Pressure

Pascal’s law for transmission of fluid pressure|| Application of Pascal’s Law || Types of Fluid flow: Steady Flow || Equation of Continuity || Turbulent Flow

Bernoulli’s Principle || Torricelli’s law || Derivation of the Law

Venturimeter || Practical Application of Venturimeter || Dynamic Lift || Magnus Effect

Viscosity || Coefficient of Viscosity || Stokes Law || Terminal Velocity

Reynolds Number || Turbulence:boon or bane || Liquid Surfaces || Surface Energy || Surface energy for two fluids in contact

Surface Tension || How detergents work? || Angle of Contact || Significance of Angle of Contact || Drops and Bubbles || Pressure inside a drop and a cavity || Capillary Rise

NCERT Solutions for Class 11 Physics Chapter 10 Mechanical Properties of Fluids

Class 11 Physics Chapter 11 Thermal Properties of matter

Section Name Topic Name 11 Thermal Properties of matter 11.1 Introduction 11.2 Temperature and heat 11.3 Measurement of temperature 11.4 Ideal-gas equation and absolute temperature 11.5 Thermal expansion 11.6 Specific heat capacity 11.7 Calorimetry 11.8 Change of state 11.9 Heat transfer 11.10 Newton’s law of cooling

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Introduction || Temperature and Heat || Relation between Joule and Calorie || Measurement of Temperature

Ideal-gas Equation and Absolute Temperature || Thermal Expansion || Types of Thermal Expansion

Anomalous Behaviour of Water || Thermal Stress || Heat Capacity || Molar specific heat capacity

Calorimetry || Change of State || Regelation || Vaporisation || Sublimation

NCERT Solutions for Class 11 Physics Chapter 11 Thermal Properties of matter

Class 11 Physics Chapter 12 Thermodynamics

Section Name Topic Name 12 Thermodynamics 12.1 Introduction 12.2 Thermal equilibrium 12.3 Zeroth law of thermodynamics 12.4 Heat, internal energy and work 12.5 First law of thermodynamics 12.6 Specific heat capacity 12.7 Thermodynamic state variables and equation of state 12.8 Thermodynamic processes 12.9 Heat engines 12.10 Refrigerators and heat pumps 12.11 Second law of thermodynamics 12.12 Reversible and irreversible processes 12.13 Carnot engine

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Introduction || Thermodynamics vs. Mechanics || Thermal Equilibrium || Types of Equilibrium

System and Surroundings || Types of Systems || Types of Walls

Zeroth Law of Thermodynamics || Thermodynamic state variables || Types of thermodynamic state variables || Heat || Work || Internal Energy

First Law of Thermodynamics || Specific heat capacity || Specific heat capacity of water || Molar Specific Heat Capacity

Thermodynamic processes – Quasi Static Process || Isothermal Processes || Adiabatic Processes || Isochoric Processes || Isobaric Processes || Heat Engine

Refrigerator || Coefficient of Performance (COP) of the refrigerator || Second law of Thermodynamics || Reversible and Irreversible processes || Carnot engine

NCERT Solutions for Class 11 Physics Chapter 12 Thermodynamics

Class 11 Physics Chapter 13 Kinetic Theory

Section Name Topic Name 13 Kinetic Theory 13.1 Introduction 13.2 Molecular nature of matter 13.3 Behaviour of gases 13.4 Kinetic theory of an ideal gas 13.5 Law of equipartition of energy 13.6 Specific heat capacity 13.7 Mean free path

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Introduction || Molecular nature of matter || John Dalton || Why was Dalton’s theory a success? || Behaviour of Gases || Justification of the Avogadro’s hypothesis from equation of gas

Perfect Gas Equation || Different Forms of Perfect Gas Equation || Ideal Gas || Real gases deviation from ideal gas

Deducing Dalton’s Law of partial pressures || To show how perfect gas equation concludes Dalton’s law of partial pressure || Kinetic Theory of an Ideal Gas || Law of Equipartition of energy:Degrees of Freedom

Translational degree of freedom || Rotational Degree of freedom || Vibrational degree of freedom

Law of Equipartition of energy || Specific Heat Capacity for monoatomic gases || Specific Heat of Diatomic gases (rigid) || Specific Heat of Diatomic gases (non-rigid) || Specific Heat Capacity for polyatomic gases || Specific Heat Capacity for solids || Specific Heat Capacity of water

Mean free path || Expression for mean free path

NCERT Solutions for Class 11 Physics Chapter 13 Kinetic Theory

Class 11 Physics Chapter 14 Oscillations

Section Name Topic Name 14 Oscillations 14.1 Introduction 14.2 Periodic and oscilatory motions 14.3 Simple harmonic motion 14.4 Simple harmonic motion and uniform circular motion 14.5 Velocity and acceleration in simple harmonic motion 14.6 Force law for simple harmonic motion 14.7 Energy in simple harmonic motion 14.8 Some systems executing Simple Harmonic Motion 14.9 Damped simple harmonic motion 14.10 Forced oscillations and resonance

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Introduction || Periodic and Oscillatory motions || Displacement as a combination of sine and cosine functions || SHM || Angular Frequency

SHM & Uniform Circular Motion || Velocity in Simple Harmonic Motion || Acceleration in Simple Harmonic Motion

Energy in SHM || Oscillations due to spring

Simple Pendulum || DAMPED SIMPLE HARMONIC MOTION || Damping Force

NCERT Solutions for Class 11 Physics Chapter 14 Oscillations

Class 11 Physics Chapter 15 Waves

Section Name Topic Name 15 Waves 15.1 Introduction 15.2 Transverse and longitudinal waves 15.3 Displacement relation in a progressive wave 15.4 The speed of a travelling wave 15.5 The principle of superposition of waves 15.6 Reflection of waves 15.7 Beats 15.8 Doppler effect

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Introduction || What is a wave? || Types of Waves

Displacement in a progressive wave || Amplitude and Phase of a wave || Expression of Phase || Wavelength || Wave Number || Time Period, Frequency and Angular frequency || Travelling Waves || The speed of a travelling wave

Different Expressions for Wave Speed || Dimensional Analysis to show how the speed is related to mass per unit length and Tension || Speed of a longitudinal wave in a stretched string || Dimensional Analysis to show how the speed is related to density and bulk modulus

The principle of superposition of waves || Reflection of Waves || Reflection at rigid boundary || Standing (Stationary) Waves || Difference between the travelling wave and stationary wave

Nodes and Antinodes of Standing Wave || Nodes || Nodes and Antinodes: system closed at both ends

Modes of Oscillations || Nodes and Antinodes: system closed at one end || Modes of oscillations

Beats || Beat Frequency || Doppler’s Effect

NCERT Solutions for Class 11 Physics Chapter 15 Waves

Class 11th Physics Online Class For 100% Result

About Lesson

Torque & Angular Momentum

The rotational analogue of force is moment of force (Torque).
If a force acts on a single particle at a point P whose position with respect to the origin O is given by the position vector r the moment of the force acting on the particle with respect to the origin O is defined as the vector product t = r × F = rF sinΘ

Class 11 Physics Rotational Motion Notes and NCERT Solution

Class 11 Physics Rotational Motion Notes and NCERT Solution — rotational motion

The quantity angular momentum is the rotational analogue of linear momentum.
It could also be referred to as moment of (linear) momentum.
l = r × p
Rotational analogue of Newton’s second law for the translational motion of a single particle: dl/st = τ

Torque and angular momentum of system of particles:

Class 11 Physics Rotational Motion Notes and NCERT Solution

rotational motion

Equilibrium of Rigid Body

A force changes the translational state of the motion of the rigid body, i.e. it changes its total linear momentum.
A torque changes the rotational state of motion of the rigid body, i.e. it changes the total angular momentum of the body

Note: Unless stated otherwise, we shall deal with only external forces and torques.

A rigid body is said to be in mechanical equilibrium, if both its linear momentum and angular momentum are not changing with time. This means
Total force should be zero => Translational Equilibrium
Total torque should be zero => Rotational Equilibrium

rotational motion

When you open the lid of a jar , you apply couple on it

An ideal lever is essentially a light rod pivoted at a point along its length. This point is called the fulcrum
The lever is a system in mechanical equilibrium.

Class 11 Physics Rotational Motion Notes and NCERT Solution

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