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Electricity and Magnetism: Maxwell’s Equations

S# Lecture Course Institute Instructor Discipline
26
L27v2: Magnetic Energy Density
Electricity and Magnetism: Maxwell’s Equations MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
27
L37v1: Radiation Pressure
Electricity and Magnetism: Maxwell’s Equations MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
28
L31v7: Adding Impedance in Series
Electricity and Magnetism: Maxwell’s Equations MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
29
L27v3: Calculating Capacitance and Inductance in Two Ways
Electricity and Magnetism: Maxwell’s Equations MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
30
L37v2: Momentum Carried by Electromagnetic Radiation
Electricity and Magnetism: Maxwell’s Equations MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
31
L32DD1: Deep Dive – Solving the Undriven RLC Circuit
Electricity and Magnetism: Maxwell’s Equations MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
32
L28v1: Charge on a Capacitor in an RC Circuit
Electricity and Magnetism: Maxwell’s Equations MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
33
L37v3: Perfectly Absorbing and Reflecting Surfaces
Electricity and Magnetism: Maxwell’s Equations MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
34
L32v5: RLC Circuit and Resonance
Electricity and Magnetism: Maxwell’s Equations MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
35
L28v2: Inductors in a Circuit
Electricity and Magnetism: Maxwell’s Equations MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
36
L38v1: Interference
Electricity and Magnetism: Maxwell’s Equations MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
37
L28v3: Current in a LR Circuit
Electricity and Magnetism: Maxwell’s Equations MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
38
L38v2: Two Slit Interference
Electricity and Magnetism: Maxwell’s Equations MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
39
L32v6: Transformers
Electricity and Magnetism: Maxwell’s Equations MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
40
L28v4: Time Constants
Electricity and Magnetism: Maxwell’s Equations MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
41
L38v3: Red Laser Interference
Electricity and Magnetism: Maxwell’s Equations MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
42
L28v5: LR Circuit Demo
Electricity and Magnetism: Maxwell’s Equations MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
43
L32v7: Step-up and Step-Down Transformers
Electricity and Magnetism: Maxwell’s Equations MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
44
L38v4: Diffraction
Electricity and Magnetism: Maxwell’s Equations MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
45
L33v1: Displacement Current
Electricity and Magnetism: Maxwell’s Equations MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
46
L29DD1: Analogy of LC Circuits to Simple Harmonic Motion
Electricity and Magnetism: Maxwell’s Equations MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
47
L38v5: Red Laser Diffraction
Electricity and Magnetism: Maxwell’s Equations MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
48
L33v2: Right Hand Rule for Ampere-Maxwell Equation
Electricity and Magnetism: Maxwell’s Equations MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
49
L38v6: Diffraction and Interference
Electricity and Magnetism: Maxwell’s Equations MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
50
L29v1: Review of Simple Harmonic Motion
Electricity and Magnetism: Maxwell’s Equations MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences