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Calculus-based Introductory Physics II: Electricity and Magnetism

Calculus-based Introductory Physics II: Electricity and Magnetism (University of Pittsburgh). Instructor: Professor Chandralekha Singh. This is a series of videos that provides an introduction to electricity and magnetism and light. Topics covered in this series include: Origin of Electricity, Coulomb's Law, Superposition Principle, Electric Field, Electric Force, Electric Dipole, Electric Flux, Gauss's Law, Electrostatics, Electric Potential, Capacitors and Capacitance, Current, Resistivity and Resistance, Ohm's Law, EMF of a Battery, Kirchhoff's Rules, RC Circuits, Magnetism, Magnetic Field, Magnetic Force, Biot Savart Law, Ampere's Law, Faraday's Law, Lenz's Law, Induced Electric Field, Inductor, Inductance, LR Circuits, Magnetic Energy, Ideal Transformer, LC Circuits, LC Oscillation, Maxwell's Law of Induction, Maxwell's Equations, Nature of Electromagnetic Waves, and Properties of Light.

Lecture 05 - Electric Dipole, Electric Flux and Gauss's law

Time Lecture Chapters
[00:00:00] 1. Example Problems Related to Electric Field and Electric Force
[00:06:50] 2. Torque on an Electric Dipole in a Uniform External Electric Field
[00:22:00] 3. Potential Energy of an Electric Dipole in an External Electric Field
[00:43:00] 4. Gauss's Law vs Coulomb's Law
[00:50:00] 5. Definition of Electric Flux
[01:10:00] 6. Gauss's law
[01:26:00] 7. Gauss's Law and Coulomb's Law are Equivalent
[01:36:00] 8. Finding the Electric Field due to a Uniform Spherical Shell Using Gauss's law

Go to the Course Home or watch other lectures:

Lecture 01 - Origin of Electricity, Coulomb's Law, Superposition Principle
Lecture 02 - Electric Field, Electric Field due to Point Charges
Lecture 03 - Electric Field due to Point Charges, Electric Field Lines, Electric Dipole
Lecture 04 - Electric Field due to Continuous Charge Distributions
Lecture 05 - Electric Dipole, Electric Flux and Gauss's law
Lecture 06 - Example Problems Related to Electric Field, Electric Flux and Gauss's Law
Lecture 07 - Electric Field, Electric Flux and Gauss's Law
Lecture 08 - Example Problems Related to Electrostatics, Electric Potential
Lecture 09 - Electric Potential
Lecture 10 - Review of Lectures 1-8
Lecture 11 - Example Problems Related to Electric Potential
Lecture 12 - Capacitors and Capacitance
Lecture 13 - Equivalent Capacitance, Electrical Energy, Dielectric, Van de Graaff Generator
Lecture 14 - Current, Resistivity and Resistance, Ohm's Law
Lecture 15 - EMF of a Battery, Kirchhoff's Rules
Lecture 16 - Electron Volt, Ammeter and Voltmeter, Simple Capacitive-Resistive Circuit
Lecture 17 - Review of Lectures 9-14, Origin of Magnetism in Bar Magnets
Lecture 18 - Review of Lectures 9-14, Magnetism
Lecture 19 - Magnetic Field, Magnetic Force
Lecture 19.5 - Example Problems on Biot Savart Law
Lecture 20 - Ampere's Law
Lecture 21 - Magnetic Force, Magnetic Field
Lecture 22 - Faraday's Law, Lenz's Law
Lecture 23 - Induced Electric Field, Inductor, Inductance, LR Circuits
Lecture 24 - LR Circuits, Magnetic Energy, Ideal Transformer, LC Circuits
Lecture 25 - Example Problems on Magnetism, LC Oscillation
Lecture 25.5 - Maxwell's Law of Induction
Lecture 26 - Maxwell's Equations, Nature of Electromagnetic Waves, Polarization of Light
Lecture 27 - Refraction of Light, Interference of Light, Young's Double Slit Experiment