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 11 - Example Problems Related to Electric Potential
Time
Lecture Chapters
[00:00:00]
1. Example Problems Related to Electric Potential
[00:31:20]
2. Equipotential Surface
[00:40:00]
3. If the Electric Field Everywhere inside a Conductor is Zero in Equilibrium
[00:47:30]
4. Potential due to a Uniform Sphere of Charge
[00:59:40]
5. Potential due to an Infinite Line of Charge
[01:08:30]
6. Example Problem Involving Conservation of Mechanical Energy
[01:18:00]
7. Finding the Electric Field from the Information about the Electric Potential
[01:29:00]
8. Potential Energy of a System of Charges
[01:36:00]
9. Methods for Calculating the Work Done by the Electric Force in Moving a Test Charge