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ch 13 pt1 Forces to Fields (was ch14 in 3rd Ed)

ch13 pt2 Fields from Charges (was ch 14 in 3rd Ed)

ch14 pt1, Fields in Matter (ch 15 in 3rd Ed)

E-Fields from Distributed Charges (ch 15, M&I 4th Ed)

ch16 M&I: Electric Potential 4th Ed

ch17: M&I 4th Ed Magnetic Fields

ch18 M&I 4th Ed Current in Conductors

CH 19 M&I (4th Ed) : Circuit Elements

Simple Circuit Analysis

Ch 20: M&I 4th Ed: Magnetic Forces Update (fixed Audio)

Field Symmetries: M&I 4th Ed Chapter 21

Magnetic Forces: Single Particle Situations

Faraday's Law and Lenz's Rule

Hints about Fermat's Principle Assignment

Quick Induced EMF by bar magnet

Accelerometer Simulation

Positronium Activity

Moon-Earth Orbit Example

Angular Velocity/Frequency of a Binary Star system

Finding the location of the Max E field on the axis of a "ring" of charge

Magnetic Dipole in a Magnetic Field Lab

Mass of the Electron experiment

M&I Radiation I

Description:

Explore the fundamental principles of electricity and magnetism in this comprehensive 5-hour course. Delve into topics such as forces and fields, electric potential, magnetic fields, current in conductors, and circuit elements. Learn about field symmetries, Faraday's Law, Lenz's Rule, and induced EMF. Engage with practical applications through simulations and experiments, including accelerometer simulation, positronium activity, and the mass of the electron experiment. Investigate real-world scenarios like Moon-Earth orbits and binary star systems. Gain a solid foundation in electromagnetic theory and its applications, preparing for advanced studies in physics and engineering.

Intro to Electricity and Magnetism

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#Science #Physics #Electricity #Engineering #Electrical Engineering #Circuit Analysis #Electric Fields #Experimental Physics #Electromagnetism #Electromagnetic Induction

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