Electric Charge and Field

• Chapter 1 Electric Charge and Field: Electric Charges and Their Basic Properties
• Chapter 1 Electric Charge and Field: Electric Field and Electric Field Due to a System Charges
• Chapter 1 Electric Charge and Field: Physical Significance of Electric Field, Electric Field Lines and Electric Flux
• Chapter 1 Electric Charge and Field: Coulombs Law's
• Chapter 1 Electric Charge and Field: Electric Dipole, Electric Field Due to a Dipole
• Chapter 1 Electric Charge and Field: Electric Field of Dipole for Points on the Equatorial Plane, Physical Significance of Dipoles
• Chapter 1 Electric Charge and Field: Torque on a Dipole in Uniform Electric Field, Continuous Charge Distribution
• Chapter 1 Electric Charge and Field: Electric Flux and Statement of Gauss's Theorem
• Chapter 1 Electric Charge and Field: Application of Gauss's Theorem to Find Field Due to Infinitely Long Straight Wire, Field Due to Uniformly Charged Infinite Plane Sheet
• Chapter 1 Electric Charge and Field: Field Due to Uniformly Charged Thin Spherical Shell (Field Inside and Outside) and Summary of the Chapter

Electrostatic Potential and Capacitance

• Chapter 2 Electrostatic Potential and Capacitance: Electric Potential, Potential Difference, Electric Potential Due to a Point Charge
• Chapter 2 Electrostatic Potential and Capacitance: Electrical Potential Due to System of Charges and Dipole
• Chapter 2 Electrostatic Potential and Capacitance: Equipotential Surfaces, Relation Between Field and Potential
• Chapter 2 Electrostatic Potential and Capacitance: Electrical Potential Energy of a System of Two Point Charges and of Electric Dipole in an Electrostatic Field
• Chapter 2 Electrostatic Potential and Capacitance: Electrostatics of Conductors, Free Charges and Bound Charges Inside a Conductor
• Chapter 2 Electrostatic Potential and Capacitance: Dielectrics and Electric Polarization, Capacitors and Capacitance
• Chapter 2 Electrostatic Potential and Capacitance: the Parallel Plate Capacitor and Effect of Dielectric on Capacitance
• Chapter 2 Electrostatic Potential and Capacitance: Combination of Capacitors in Series and in Parallel, Energy Stored in a Capacitor

Current Electricity

• Chapter 3 Current Electricity: Lecture 1 Drift Velocity, Drift of Electrons and the Origin of Resistivity
• Chapter 3 Current Electricity: Lecture 2 Electric Current, Flow of Electric Charges in a Metallic Conductor and Ohm's Law
• Chapter 3 Current Electricity: Lecture 3 Application of Temperature Dependence of Resistivity, Electrical Energy and Power
• Chapter 3 Current Electricity: Lecture 4 Mobility and Temperature Dependency and Resistivity
• Chapter 3 Current Electricity: Lecture 5 Internal Resistance, Potential Difference and Emf of a Cell
• Chapter 3 Current Electricity: Lecture 6 Combination of Cells in Series
• Chapter 3 Current Electricity: Lecture 7 Combination of Cells in Parallel
• Chapter 3 Current Electricity: Lecture 8 Kirchhoff's Rules
• Chapter 3 Current Electricity: Lecture 9 Application of Kirchhoff's Rules and the Wheatstone Bridge

Charges and Magnetism

• Chapter 4 Moving Charges and Magnetism: Lecture 1 Introduction
• Chapter 4 Moving Charges and Magnetism: Lecture 2 Magnetic Force
• Chapter 4 Moving Charges and Magnetism: Lecture 3 Magnetic Force
• Chapter 4 Moving Charges and Magnetism: Lecture 4 Motion in a Magnetic Field
• Chapter 4 Moving Charges and Magnetism: Lecture 5 Magnetic Field Due to a Current Element, Biot-Savart Law
• Chapter 4 Moving Charges and Magnetism: Lecture 6 Biot-Savart Law
• Chapter 4 Moving Charges and Magnetism: Lecture 7 Magnetic Field on the Axis of a Circular Current Loop
• Chapter 4 Moving Charges and Magnetism: Lecture 8 Ampere's Circuital Law 1
• Chapter 4 Moving Charges and Magnetism: Lecture 9 Ampere's Circuital Law 2
• Chapter 4 Moving Charges and Magnetism: Lecture 10 Ampere's Circuital Law 3
• Chapter 4 Moving Charges and Magnetism: Lecture 11 The Solenoid
• Chapter 4 Moving Charges and Magnetism: Lecture 12 Example on Solenoid
• Chapter 4 Moving Charges and Magnetism: Lecture 13 Force Between Two Parallel Currents, the Ampere
• Chapter 4 Moving Charges and Magnetism: Lecture 14 Torque on Current Loop, Magnetic Dipole 1
• Chapter 4 Moving Charges and Magnetism: Lecture 15 Torque on Current Loop, Magnetic Dipole 2
• Chapter 4 Moving Charges and Magnetism: Lecture 16 The Moving Coil Galvanometer 1
• Chapter 4 Moving Charges and Magnetism: Lecture 17 The Moving Coil Galvanometer 2

Magnetism and Matter

• Chapter 5 Magnetism and Matter: Lecture 1 Introduction
• Chapter 5 Magnetism and Matter: Lecture 2 The Bar Magnet
• Chapter 5 Magnetism and Matter: Lecture 3 The Bar Magnet
• Chapter 5 Magnetism and Matter: Lecture 4 The Bar Magnet
• Chapter 5 Magnetism and Matter: Lecture 5 The Bar Magnet
• Chapter 5 Magnetism and Matter: Lecture 6 Magnetism and Gausses Law
• Chapter 5 Magnetism and Matter: Lecture 7 Magnetization and Magnetic Intensity
• Chapter 5 Magnetism and Matter: Lecture 8 Magnetic Properties of Material

Electromagnetic Induction

• Chapter 6 Electromagnetic Induction: Introduction to Electromagnetic Induction
• Chapter 6 Electromagnetic Induction: The Experiment of Faraday's and Henry
• Chapter 6 Electromagnetic Induction: Faraday's Law of Induction 1
• Chapter 6 Electromagnetic Induction: Faraday's Law of Induction 2
• Chapter 6 Electromagnetic Induction: Motional Elecromotive Force 1
• Chapter 6 Electromagnetic Induction: Motional Elecromotive Force 2
• Chapter 6 Electromagnetic Induction: Lenz's Law and Conservation of Energy 1
• Chapter 6 Electromagnetic Induction: Lenz's Law and Conservation of Energy 2
• Chapter 6 Electromagnetic Induction: Inductance

System of Particles and Rotational Motion

• Chapyer 7 System of Particles and Rotational Motion
• Chapyer 7 System of Particles and Rotational Motion Based Questions 1
• Chapyer 7 System of Particles and Rotational Motion Based Questions 2
• Chapyer 7 System of Particles and Rotational Motion Based Questions- 1
• Chapyer 7 System of Particles and Rotational Motion Based Questions- 2