HiPhysics

Kinematics 1D

School(11th)

Frame of Reference

Distance Displacement

Speed Velocity

Acceleration

Motion in Straight Line

Motion Under Gravity-1

Motion Under Gravity-2

Position Time Graph

Velocity Time

Accleration Time

Impossible Graph

Projectile Motion

School(11th)

Projectile Basic

Ground to Ground

Time of Flight,Max Height,Range

Comparison of Two Projectile

Equation of Trajectory,KE

Horizontal Projectile from a Height

Kinematics of Circular Motion

School(11th)

Angular Position,Angular Displacement

Relation among Linear and Angular Velocity

Angular Acceleration,Relation among Linear and Angular Quantities

Centripetal Acceleration

Uniform,Non Uniform Circular Motion

Acceleration in Non Uniform Circular Motion

NLM

School (11th)

Force and Classification

Newton Ist Law

Linear Momentum

Impulse

Conservation of Linear Momentum

Newton's 3rd Law

Free Body Diagram

Normal Reaction,Lift,Bird Cage Case

Motion of Bodies in Contact

Tension in String

Lami's Theorem,Translational Equilibrium

Solved Examples

Motion of Connected Bodies

Tension in Rod

Bodies hanging Vertically-1

Bodies hanging Vertically-2

Pulley Motion-1

Pulley Motion-2

Mechanical Advantage

Spring Force

Frame of Reference,Pseudo Force

Friction

School (11th)

Friction Introduction,Cause

Types of Friction

Normal Reaction in Some Case

Question

Angle of Friction,Angle of Repose,Pulling is Easier Than Pushing,Acceleration of a Body Down on a Rough Inclined Plane

Pulley with Friction Between Block and Surface

Miscellaneous Questions

Dynamics of Circular Motion

School (11th)

Introduction

Circular Turning of Roads

Banking of Roads

Friction and Banking

Conical Pendulum

Work Power Energy

School (11th)

Work

Work Done by Constant Force

Work Done by Variable Force

Work Done by Graphical Method

Work Done Depends on Frame of Reference

Energy and its Various Form

Work Energy Theorem

Kinetic Energy

Conservative and Non Conservative Force

Potential Energy

Potential Energy Curve and Equilibrium

Conservation of Mechanical Energy

Mechanical Energy Conservation of Freely Falling Body

Spring Potential Energy

Spring Block System

Mixed Question

Power

Extra Q on Power

Vertical Circular Motion

Q on Vertical Circular Motion

Rotational Motion

School (11th)

Rigid body,Rotational Motion of Rigid Bodies

Introduction of Rigid body :

TYPES OF ROTATIONAL MOTION

KINEMATICS OF ROTATIONAL MOTION

ROTATIONAL PARAMETERS Moment of Inertia

Moment of Inertia of continuous distribution of mass

Parallel Axis Theorem

Perpendicular Axis Theorem

Moment of Inertia of Composite Body

Moment of Inertia of Truncated Body

Radius of Gyration

Torque

Couple

Rotational Equilibrium

Angular Momentum of Particle

Angular Momentum of a Rigid Body

Relation Between Torque & Angular Momentum

Angular Impulse & Angular Impulse Momentum Principle

CONNECTED ROTATIONAL MOTION

ROTATIONAL KINETIC ENERGY, ROTATIONAL WORK & POWER

CONSERVATION OF ANGULAR MOMENTUM

Q on CONSERVATION OF ANGULAR MOMENTUM

Gravitation

School (11th)

NEWTON's LAW OF GRAVITATION

Vector form of Law of Gravitation

Properties of Gravitational force

LAW OF SUPERPOSITION OF FORCES

ACCELERATION DUE TO GRAVITY

VARIATION IN ACCELERATION DUE TO GRAVITY(Due to Height)

VARIATION IN ACCELERATION DUE TO GRAVITY(Due to Depth)

VARIATION IN ACCELERATION DUE TO GRAVITY(Due to Rotation)

VARIATION IN ACCELERATION DUE TO GRAVITY(Due to Shape of Earth)

GRAVITATIONAL POTENTIAL ENERGY

Gravitational Potential Energy of a Three Particle system

Change in Gravitational Potential Energy of Earth - Mass System

Application Based on Earth-Mass System

ESCAPE ENERGY & ESCAPE VELOCITY

Q On ESCAPE ENERGY & ESCAPE VELOCITY

KEPLER's LAWS OF PLANETARY MOTION

Q on KEPLER's LAWS OF PLANETARY MOTION

SATELLITE MOTION

Orbital Velocity & Time Period of a Satellite

Energy of Satellite,Binding Energy,Graphs

Q on Orbital Velocity Time Period Energy

GEO Stationary & Polar Satellite

🔥 Imp Q of Work

🔥 Imp Q of NLM

🔥 Imp Q of Circular Motion

🔥 Imp Q of Projectile,2D

🔥MCQ for Work

🔥 Imp Q of Conservation of Momentum,Collision,Centre of Mass

Kinematics 1D

School(11th)

Frame of Reference

Distance Displacement

Speed Velocity

Acceleration

Motion in Straight Line

Motion Under Gravity-1

Motion Under Gravity-2

Position Time Graph

Velocity Time

Accleration Time

Impossible Graph

Projectile Motion

School(11th)

Projectile Basic

Ground to Ground

Time of Flight,Max Height,Range

Comparison of Two Projectile

Equation of Trajectory,KE

Horizontal Projectile from a Height

Kinematics of Circular Motion

School(11th)

Angular Position,Angular Displacement

Relation among Linear and Angular Velocity

Angular Acceleration,Relation among Linear and Angular Quantities

Centripetal Acceleration

Uniform,Non Uniform Circular Motion

Acceleration in Non Uniform Circular Motion

NLM

School (11th)

Force and Classification

Newton Ist Law

Linear Momentum

Impulse

Conservation of Linear Momentum

Newton's 3rd Law

Free Body Diagram

Normal Reaction,Lift,Bird Cage Case

Motion of Bodies in Contact

Tension in String

Lami's Theorem,Translational Equilibrium

Solved Examples

Motion of Connected Bodies

Tension in Rod

Bodies hanging Vertically-1

Bodies hanging Vertically-2

Pulley Motion-1

Pulley Motion-2

Mechanical Advantage

Spring Force

Frame of Reference,Pseudo Force

Friction

School (11th)

Friction Introduction,Cause

Types of Friction

Normal Reaction in Some Case

Question

Angle of Friction,Angle of Repose,Pulling is Easier Than Pushing,Acceleration of a Body Down on a Rough Inclined Plane

Pulley with Friction Between Block and Surface

Miscellaneous Questions

Dynamics of Circular Motion

School (11th)

Introduction

Circular Turning of Roads

Banking of Roads

Friction and Banking

Conical Pendulum

Work Power Energy

School (11th)

Work

Work Done by Constant Force

Work Done by Variable Force

Work Done by Graphical Method

Work Done Depends on Frame of Reference

Energy and its Various Form

Work Energy Theorem

Kinetic Energy

Conservative and Non Conservative Force

Potential Energy

Potential Energy Curve and Equilibrium

Conservation of Mechanical Energy

Mechanical Energy Conservation of Freely Falling Body

Spring Potential Energy

Spring Block System

Mixed Question

Power

Extra Q on Power

Vertical Circular Motion

Q on Vertical Circular Motion

Rotational Motion

School (11th)

Rigid body,Rotational Motion of Rigid Bodies

Introduction of Rigid body :

TYPES OF ROTATIONAL MOTION

KINEMATICS OF ROTATIONAL MOTION

ROTATIONAL PARAMETERS Moment of Inertia

Moment of Inertia of continuous distribution of mass

Parallel Axis Theorem

Perpendicular Axis Theorem

Moment of Inertia of Composite Body

Moment of Inertia of Truncated Body

Radius of Gyration

Torque

Couple

Rotational Equilibrium

Angular Momentum of Particle

Angular Momentum of a Rigid Body

Relation Between Torque & Angular Momentum

Angular Impulse & Angular Impulse Momentum Principle

CONNECTED ROTATIONAL MOTION

ROTATIONAL KINETIC ENERGY, ROTATIONAL WORK & POWER

CONSERVATION OF ANGULAR MOMENTUM

Q on CONSERVATION OF ANGULAR MOMENTUM

Gravitation

School (11th)

NEWTON’S LAW OF GRAVITATION

Vector form of Law of Gravitation

Properties of Gravitational force

LAW OF SUPERPOSITION OF FORCES

ACCELERATION DUE TO GRAVITY

VARIATION IN ACCELERATION DUE TO GRAVITY(Due to Height)

VARIATION IN ACCELERATION DUE TO GRAVITY(Due to Depth)

VARIATION IN ACCELERATION DUE TO GRAVITY(Due to Rotation)

VARIATION IN ACCELERATION DUE TO GRAVITY(Due to Shape of Earth)

GRAVITATIONAL POTENTIAL ENERGY

Gravitational Potential Energy of a Three Particle system

Change in Gravitational Potential Energy of Earth - Mass System

Application Based on Earth-Mass System

ESCAPE ENERGY & ESCAPE VELOCITY

Q On ESCAPE ENERGY & ESCAPE VELOCITY

KEPLER's LAWS OF PLANETARY MOTION

Q on KEPLER's LAWS OF PLANETARY MOTION

SATELLITE MOTION

Orbital Velocity & Time Period of a Satellite

Energy of Satellite,Binding Energy,Graphs

Q on Orbital Velocity Time Period Energy

GEO Stationary & Polar Satellite

🔥 Imp Q of Work

🔥 Imp Q of NLM

🔥 Imp Q of Circular Motion

🔥 Imp Q of Projectile,2D

🔥MCQ for Work

🔥 Imp Q of Conservation of Momentum,Collision,Centre of Mass

🔥 MCQ of Gravitation

Vertical Circular Motion

 Theory

1- Vertical Circular Motion Basic

2- Minimum velocity at bottom to Complete the Vertical Circle

3- If Velocity is less than Critical FORCE

4- Tension in the String vs Angle

5- Different Situations

5- Body Moving on a Spherical Surface

 Example(112-136)

 Example(137-150)

 Exercise

COM

 Theory

1- Definition of COM

2- COM of Two Particles

3- COM of Continuous Mass Distribution

4- COM of Structure

5- Cavity Problem

6- Motion of COM

7- Conservation of Linear Momentum

8- Collision

 Example(1-20)

Center of Mass

 Example(21-41)

Motion of COM

 Example(42-82)

Linear Momentum

 Example(83-125)

Collision 1

 Example(126-160)

Collision 2

 Exercise-1
(For 1,2,3,4,5)

 Exercise-2
(For 6)

 Exercise-3
(For 7 )

 Exercise-4
(For 8)

 Imp Q

 Brain Storming

Rotation 1

 Theory

1-  Definition of Rigid Body Types of Motion

2- Moment of Inertia-1

3- Moment of Inertia-2

4- Theorem of Parallel Axes

5- Theorem of Perpendicular Axes

6- I of Compound Body

7- Cavity Problem

8- Torque about Point

9- Torque about Axis

10- Equilibrium 

11- Ladder Problem

12- Relation Between τ and α

13- Pulley Motion in Rotation

 Example(1-24)

Moment of Inertia 1

 Example(25-44)

Moment of Inertia 2

 Example(45-74)

Torque

 Example(75-78)

Rotational KE

 Exercise-1
(For 1)

 Exercise-2
(Topic 2,3,4,5,6,7)

 Exercise-3
(Topic 8,9,10,11,12,13)

Rotation 2

 Theory

1- Angular Momentum about a Point

2- Angular Momentum about an Axes

3- Conservation of Angular Momentum

4- Combined Rotational+Translational Motion-1

5- Combined Rotational+Translational Motion-2

6- Angular Momentum+Kinetic Energy in Combined Motion

 Example(79-96)

Angular Momentum-1

 Example(97-114)

Angular Momentum-2

 Example(115-132)

Combined Translational,Rotational Motion

 Example(133-150)

Miscellaneous

 Exercise-4
(Topic 14,15)

 Exercise-5
(Topic 16)

 Exercise-6
(Topic 17,18,19)

 Exercise-7
(Topic 20)

 Imp Question

 Brain Storming

Gravitation

 Theory

1- Newton's Gravitation Law

2- Principle of Superposition

3- Gravity

4- Variation in g

5- Variation in g Due ot Rotation,Due to Shape

6- Gravitational Field-1

7- Gravitational Field Due to Sphere

8- Graviation Field Due to Shell and Ring

9- Graviation Potential-1

10- Graviation Potential Due to Sphere 

11- Graviation Potential Due to Shell and Ring

12- Relation Between Potential and Field

13- Graviation Potential Energy

 Example(1-11)
Periodic,Oscillatory,Simple Harmonic-1 Motion

 Example(12-28)
Acceleration due to Gravity Motion

 Example(29-39)
Newtons Law of Gravitation

 Example(40-46)
Variation of Acceleration due to Gravity (Due to Rotation of Earth)

 Exercise-1
(Topic 1)

 Exercise-2
(Topic 2)

 Exercise-3
(For Topic 3,4,5,6,7,8)

Gravitation

 Theory

Fluid

 Theory

Surface Tension

 Theory

1- Intermolecular Force,Surface Tension

 Exercise-1
(Topic 1)

2- Force Due to Surface Tension

3- Factors Affecting Surface Tension,Applications of Surface Tension

4- Molecular Theory of Surface Tension

5- Q Based on Surface Tension

6- Surface Energy,Work Done in Blowing a Soap Bubble

7- Splitting/Merging Drop

8- Excess Pressure

9- Shape of Meniscus

10- Capillary Effect 

11- Q on Capliiary Effect,Shape of Drop

12- Miscellanious

SHM(Oscillations)

 Theory

1- Periodic,Oscillatory Motion

2- Simple Harmonic Motion

3- Comparison Between Linear & Angular SHM

4- Characteristics of SHM

5- Geometrical Meaning of SHM (Phasor diagrams)

6- Kinematics OF SHM

7- Graphs PE KE

8- Total Energy

9- Spring Pendulum

10- Combination of Springs

11- Extra Examples

12- Some Cases of Spring

13- Combination of SHM

14- Simple Pendulum

15- Effect of Gravity and Other Cases 

16- Physical Pendulum

17- Different Types of Oscillations

 Example(1-31)
Periodic,Oscillatory,Simple Harmonic-1 Motion

 Example(32-55)
Periodic,Oscillatory,Simple Harmonic-2

 Example(56-58)
Phasors in SHM

 Example(59-87)
Energy in Simple Harmonic Motion

 Example(88-112)
Spring Block System

 Example(113-136)
Angular SHM

 Example(137-143)
Miscellaneous

 Example(144-155)
Superposition,Damped,Forced Oscillation

Electrostatics-1

School (12th)

Charge Basic,Properties of Charge,Conductor Insulator

Method of Charging

Coulomb's Law

Superposition principle

String and Electric Force

Lami's Theorem

Electric Field

Electric Field Due to Point Charge

Electric Field Due System of Charges

Electric Field Lines

Continuous Charge Distribution

Field Due to Charged Ring

Electric Dipole

Force Due to Dipole

Force,Torque on Dipole

Work Done in Rotating Dipole

Electrostatics-1

School (12th)

Electric Flux

Gauss Law

E Due to Long Wire

Due to Plane Sheet,Conducting Sheet

Due to Thin Shell

Due to Non Conducting Sphere

Electric Potential

Potential Due to Point Charge

Potential Due to System of Charges

Potential Due to Continuous Charge Distribution

Potential Due to Electric Dipole

Relation Between Electric Field and Potential

Equipotential Surface

Potential Due to Charged Sphere

Potential Due to Non Conducting Sphere

Potential Due to Concentric Shell

Motion of Charged Particle in Electric Field

Electric Potential Energy

Potential Energy for a System of two Point Charges

Potential Due to Collection of Charges

Potential Energy of Dipole in Uniform Electric Field,Equilibrium of dipole

Electrostatics-1

School (12th)

Capacitance of Conductor

Spherical,Cylindrical Capacitor

Parallel Plate Capacitor

Partially Filled Capacitor

Effect of K on various Parameter

Combination of Capacitor(Series)

Combination of Capacitor(Parallel)

Energy Stored in Capacitor

Redistribution of Charge

Electric Current

School (12th)

Electric Current

Flow of Charge in Conductor

Current Density

Mechanism of Current Flow

Factors Responsible for Current Flow

Relation between Drift Velocity and Relaxation time

Relation between Current Density,Relaxation time,Electric Field

Electrical Resistance

Dependence of Resistance

Temperature Dependence of Resistance

Super Conductivity

Color Coding

Limitation of Ohm's Law

Combination of Resistance

Q on Combination of Resistance

Cell EMF,Internal Resistance,Potential Difference

Q on Cell

Combination of Cell

Q on Combination of Cell

Kirchhoff Ist Law

Kirchhoff 2nd Law

Electrical Instrument

School (12th)

Wheat Stone Bridge

Shorting of Circuit

Electric Symmetry

Earthing of a Circuit Point

Electrical Energy,Power

Connection of Electrical Appliances

Power Distribution of Cell

Measuring of Current Voltage

Ammeter

Voltmeter

MeterBridge

Potentiometer

Q on Potentiometer

Application of Potentiometer (Comparison of EMF)

Application of Potentiometer (Measurement of Internal Resistance)

Application of Potentiometer (Measurement of Current)

Application of Potentiometer (Comparison of Resistance)

Magnetic Effect of Current

School (12th)

Introduction

Biot Savart Law

Magnetic Lines of Forces

Direction of Magnetic Field

Application of Biot Savart Law(B due to Wire)

Cases for B due to Wire

B due to Circular Loop

B due to Circular Arc

Mixed Question

Helmholtz Coil

Ampere Circuital Law

Application of Ampere's Law

Solenoid Toroid

Magnetic Force

School (12th)

Force on Moving Charge

Force on Charged Particle in Magnetic Field

If θ is Different from 0,90,180

Lorentz Force

Motion of a charge Particle in combined electric field & Magnetic field

Cyclotron

Force on Current Carrying Wire

Force Between Two Wires

Magnetic Dipole

Current Carrying Loop in Magnetic Field

Moving Coil Galvanometer

Refraction Through Plane Surface

School (12th)

REFRACTION OF LIGHT

LAWS OF REFRACTION

Cauchy's Equation,Dependence of Refractive Index,Optical Path

Q on Laws of Refraction

Real Depth,Apparent Depth & Normal shift

Q on Real Depth,Apparent Depth

REFRACTION THROUGH A SLAB

Image Shift in Mirror

TOTAL INTERNAL REFLECTION

Application of TIR

Moving Coil Galvanometer

Prism

School (12th)

REFRACTION OF LIGHT

LAWS OF REFRACTION

Cauchy's Equation,Dependence of Refractive Index,Optical Path

Q on Laws of Refraction

Real Depth,Apparent Depth & Normal shift

Q on Real Depth,Apparent Depth

REFRACTION THROUGH A SLAB

Prism

School (12th)

Ray Diagram through a Prism,Geometry

Minimum Deviation

Maximum Deviation,Condition for No Emergence

Dispersion Through Prism

Combination of Prisms

Dispersion Without Deviation,Deviation Without Dispersion

Q on Dispersion Without Deviation,Deviation Without Dispersion

Refraction at Spherical Surface

School (12th)

REFRACTION at SPHERICAL SURFACE

Q on REFRACTION at SPHERICAL SURFACE

Lens

School (12th)

Types of Lenses,Concave,Convex Terms used in Lens

Rules for Image Formation

Lens Formula & Lens Maker's Formula

FOCAL LENGTH OF LENS IN DIFFERENT MEDIUM

FOCAL LENGTH OF LENS IF MEDIUM ARE DIFFERENT ON BOTH SIDES

FOCAL LENGTH OF LENS IF GEOMETRY ARE DIFFERENT

MAGNIFICATION

POWER OF LENS

Behaviour of a Transparent Sphere

Questions

DISPLACEMENT method For Focal Length

NEWTON'S FORMULA OF FOCAL LENGTH

SPEED 0f IMAGE

CUTTING THE LENS

COMBINATION of Lenses

Combination of Lenses and Mirror

Image Formation Due to Multiple Lenses & Mirror

LENS of DIFFERENT MATERIALS

Spherical Mirror

 Theory

Refraction

 Theory

Prism

 Theory

Lens

 Theory

🔥 Imp Q of Electric Charge Field

🔥 Imp Q of Electric Potential,Potential Energy,Capacitor

🔥 Imp Q of Current

🔥 Imp Q of Optics

🔥 MCQ of Capacitor

🔥 MCQ of Electrostatics

🔥 MCQ of Current

🔥 MCQ of EMI

🔥 MCQ of Atom

🔥 Imp Q of Lens Prism Refraction at Curved Surface

🔥 Imp Q of Magnet

🔥 Imp Q of Magnet

🔥 Imp Q of EMI

🔥 Imp Q of Atom

Kinematics 1D

NEET(Level 1)

Max Separation

Graph(Straight Line)

Graph(Parabola)

Reading of Graph(Position Time Graph)

Reading of Graph(V-T Graph)

Reading of Graph(a-T Graph)

Drawing of Graph

Conversion of Graph

Motion of Two Bodies on Same Axis

Variable Acceleration

 Example(1-34)
Distance and Displacement,Speed and Velocity

 Example(35-70)
Acceleration,Kinematic Equations

 Example(71-106)
Motion Under Gravity

 Example(107-125)
Calculus based Q

 Example(126-150)
Graph based Q

 Exercise-1
Distance,Displacement,Speed,Velocity

 Exercise-2
Application of Calculus

 Exercise-3
Constant Acceleration,Reaction Time,Motion Under Gravity

 Exercise-4
Q Based on Graphs,Other Topic

Kinematics 2D

NEET(Level 1)

Projectile Basic

Velocity Position at a Given Time/Height

Equation of Trajectory

Projectile Fired Parallel to Horizontal

Projectile at an Angle θ from Horizontal

Projectile Motion on Inclined Plane

 Example(1-18)
Motion in a plane

 Example(19-54)
Projectile Motion-1

 Example(55-84)
Projectile Motion-2

 Example(85-102)
Projectile Motion-3

 Example(103-125)
Projectile From Height,Inclined Plane

 Exercise-1
Basic Projectile Trajectory,Velocity,Position

 Exercise-2
Projectile From a Height,At an Angle

 Imp Question(1D,2D)

 Brain Storming(1D,2D)

Relative Motion

NEET(Level 1)

Relative Motion in 1D

Meeting of Particles/Bodies

Relative Motion Under Gravity

Relative motion in Plane,Rain Man Problem

Collision of Two Particles

River Boat Problem

Conveyor Belt Problem

 Example(126-138)
Relative Motion

 Example(139-150)
River Boat

Kinematics of Circular Motion

NEET(Level 1)

Terminology of Circular Motion

Angular Velocity

Angular Acceleration

Uniform/NonUniform Circular Motion

Eq of Circular Motion

Miscellaneous Examples

 Example(1-40)
Characteristics of Circular Motion

 Example(41-53)
Uniform & Non-Uniform Circular Motion

Constraint Motion

NEET(Level 1)

String Constraint

IInd format (when pulley is also moving)

Solving Strategy FORCE

Wedge Constraint

NLM

NEET(Level 1)

Types of Force

Normal Reaction

Tension

Newton Ist,2nd Law

Problem Solving Strategy

Block Placed on Surface

Motion of Bodies in Contact

Motion of Connected Bodies

Body on Smooth Inclined Plane

Pulley Block System

Newton 3rd Law

Climbing on Rope

Spring Force

Spring Force System

Frame of Reference

Pseudo Force

Weighing Machine

 Example(1-28)
Newton's Law

 Example(29-59)
Force

 Example(60-73)
Application of NLM

 Example(74-87)
Frame of Reference

 Exercise-1
(For Topic 1,2)

 Exercise-2
(For Topic 3,4,5,6,7,8)

 Exercise-3
(For Topic 9,10,11)

 Exercise-4
(For Topic 12,13,14,15,16,17)

 Imp Q

 Brain Storming

Friction

NEET(Level 1)

Introduction,Cause of Friction

Types of Friction

Normal Reaction in Some Case

Minimum Force to Slide a Block Graph

Graph Between Force and Friction,Angle of Friction,Angle of Repose

Pulling is Easier Than Pushing

Acceleration of Body Down The Plane

Pulley With Friction

Use of Pseudo Force in Friction

Miscellaneous Illustration

Two Blocks system in Friction-1

Two Blocks system in Friction-2

Direction of Friction in Cycling

 Example(88-119)
Frictional Force

 Example(120-126)
Angle of Friction and Angle of Repose

 Example(127-133)
Block on Block Systems

 Example(127-133)
Miscellaneous Cases in Friction

Dynamics of Circular Motion

NEET(Level 1)

Centripetal Centrifugal Force

Tough Solved Problems

Circular Turning Road

Banking of Road

Friction and Banking

Conical Pendulum

Death Well/Rotor Plane

 Example(54-78)
Centripetal & Centrifugal Force

 Example(79-111)
Applications of Circular Motion

Work Power Energy

NEET(Level 1)

Definition of Work

Various type of Work

WORK DONE BY A VARIABLE FORCE

Work Done by Force Displacement Graph

INTERNAL WORK

CONSERVATIVE FORCE

NON-CONSERVATIVE FORCES

ENERGY

CONSERVATIVE FORCE AND POTENTIAL ENERGY

Types of Equilibrium

Work Energy Theorem

Q When only Conservative Force is Acting

Q on When both Conservative and Non Conservative Force acts

Power

 Example(1-37)
Work Basic

 Example(38-59)
Kinetic Energy

 Example(60-78)
Work Energy Theorem

 Example(79-102)
Potential Energy

 Example(103-125)
Conservation of Mechanical Energy

 Example(126-150)
Power

 Exercise-1
(For 1,2,3,4,5)

  Exercise-2

  Exercise 3
(Topic 6,7,8,9,10,11,12,13)

  Exercise-4

 Imp Q

 Brain Storming

Vertical Circular Motion

NEET(Level 1)

Vertical Circular Motion Basic

Minimum velocity at bottom to Complete the Vertical Circle

If Velocity is less than Critical FORCE

Tension in the String vs Angle

Different Situations

Body Moving on a Spherical Surface

 Example(112-136)

 Example(137-150)

 Exercise

COM

NEET(Level 1)

Definition of COM

COM of Two Particles

COM of Continuous Mass Distribution

COM of Structure

Cavity Problem

Motion of COM

Conservation of Linear Momentum

Collision

 Example(1-20)

Center of Mass

 Example(21-41)

Motion of COM

 Example(42-82)

Linear Momentum

 Example(83-125)

Collision 1

 Example(126-160)

Collision 2

 Exercise-1
(For 1,2,3,4,5)

 Exercise-2
(For 6)

 Exercise-3
(For 7 )

 Exercise-4
(For 8)

 Imp Q

 Brain Storming

Rotation 1

NEET(Level 1)

Definition of Rigid Body Types of Motion

Moment of Inertia-1

Moment of Inertia-2

Theorem of Parallel Axes

Theorem of Perpendicular Axes

I of Compound Body

Cavity Problem

Torque about Point

Torque about Axis

Equilibrium

Ladder Problem

Relation Between τ and α

Pulley Motion in Rotation

 Example(1-24)

Moment of Inertia 1

 Example(25-44)

Moment of Inertia 2

 Example(45-74)

Torque

 Example(75-78)

Rotational KE

 Exercise-1
(For 1)

 Exercise-2
(Topic 2,3,4,5,6,7)

 Exercise-3
(Topic 8,9,10,11,12,13)

Rotation 2

NEET(Level 1)

Angular Momentum about a Point

Angular Momentum about an Axes

Conservation of Angular Momentum

Combined Rotational+Translational Motion-1

Combined Rotational+Translational Motion-2

Angular Momentum+Kinetic Energy in Combined Motion

 Example(79-96)

Angular Momentum-1

 Example(97-114)

Angular Momentum-2

 Example(115-132)

Combined Translational,Rotational Motion

 Example(133-150)

Miscellaneous

 Exercise-4
(Topic 14,15)

 Exercise-5
(Topic 16)

 Exercise-6
(Topic 17,18,19)

 Exercise-7
(Topic 20)

 Imp Question

 Brain Storming

Gravitation

NEET(Level 1)

Newton's Gravitation Law

Principle of Superposition

Gravity

Variation in g

Variation in g Due ot Rotation,Due to Shape

Gravitational Field-1

Gravitational Field Due to Sphere

Gravitation Field Due to Shell and Ring

Gravitation Potential-1

Gravitation Potential Due to Sphere

Gravitation Field Due to Shell and Ring

Relation Between Potential and Field

Gravitation Potential Energy

 Example(1-11)
Periodic,Oscillatory,Simple Harmonic-1 Motion

 Example(12-28)
Acceleration due to Gravity Motion

 Example(29-39)
Newtons Law of Gravitation

 Example(40-46)
Variation of Acceleration due to Gravity (Due to Rotation of Earth)

 Exercise-1
(Topic 1)

 Exercise-2
(Topic 2)

 Exercise-3
(For Topic 3,4,5,6,7,8)

Gravitation

NEET(Level 1)

Kepler's Law-1

Kepler's Law-2

Motion of Satellite

Time Period of Satellite

Total Energy and Binding Energy

Types of Satellite

Escape Velocity

Escape Energy

Max Height attained by Particle

Fluid

NEET(Level 1)

Pressure

Density

Pascal's Law

Archimede's Principle

Q on Archimede's Principle

Types of Flow

Critical Velocity,Reynolds Number

Eq of Continuity

Energy of Flowing Fluid,Bernoulli Theorem

Application of Bernoulli

Venturimeter

Velocity of Efflux

Viscosity

Stoke's Law

Poiseuille

Surface Tension

NEET(Level 1)

Intermolecular Force,Surface Tension

Force Due to Surface Tension

Factors Affecting Surface Tension,Applications of Surface Tension

Molecular Theory of Surface Tension

Q Based on Surface Tension

Surface Energy,Work Done in Blowing a Soap Bubble

Splitting/Merging Drop

Excess Pressure

Shape of Meniscus

Capillary Effect

Q on Capillary Effect,Shape of Drop

Miscellaneous

SHM(Oscillations)

NEET(Level 1)

Periodic,Oscillatory Motion

Simple Harmonic Motion

Comparison Between Linear & Angular SHM

Characteristics of SHM

Geometrical Meaning of SHM (Phasor diagrams)

Kinematics OF SHM

Graphs PE KE

Total Energy

Simple Pendulum

Effect of Gravity and Other Cases

Physical Pendulum

Spring Pendulum

Combination of Springs

Extra Examples

Combination of Springs

Combination of Springs

Different Types of Oscillations

 Example(1-31)
Periodic,Oscillatory,Simple Harmonic-1 Motion

 Example(32-55)
Periodic,Oscillatory,Simple Harmonic-2

 Example(56-58)
Phasors in SHM

 Example(59-87)
Energy in Simple Harmonic Motion

 Example(88-112)
Spring Block System

 Example(113-136)
Angular SHM

 Example(137-143)
Miscellaneous

 Example(144-155)
Superposition,Damped,Forced Oscillation

Electrostatics-1

Charge Basic

Coulomb'S Law

Vector forms of Coulomb’s law FORCE

Coulomb'S Law in Medium

Electric Field-1