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Electricity and Magnetism: Electrostatics

S# Lecture Course Institute Instructor Discipline
26
L5v4: Electric Flux Through a Closed Surface
Electricity and Magnetism: Electrostatics MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
27
L12v3: Parallel Plate Capacitors
Electricity and Magnetism: Electrostatics MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
28
L3DDv5: Final Form of the Dipole Far FIeld
Electricity and Magnetism: Electrostatics MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
29
L9v1: Zero Point of the Potential Function
Electricity and Magnetism: Electrostatics MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
30
L3v1: Introduction to Electric Dipoles
Electricity and Magnetism: Electrostatics MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
31
L5v5: Gauss's Law Misconception – Zero Charge Enclosed Does Not Mean No Electric Field
Electricity and Magnetism: Electrostatics MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
32
L9v2: Superposition of Potential
Electricity and Magnetism: Electrostatics MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
33
L12v4: Cylindrical Shell Capacitor
Electricity and Magnetism: Electrostatics MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
34
L6av1: Gauss's Law as Surface and Volume Integrals
Electricity and Magnetism: Electrostatics MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
35
L3v2: Electric Dipole Moment of 2 Charges
Electricity and Magnetism: Electrostatics MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
36
L9v3: Potential for an Arbitrary Charge Source
Electricity and Magnetism: Electrostatics MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
37
L12v5: Spherical Shell Capacitor
Electricity and Magnetism: Electrostatics MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
38
L6av2: Source with Symmetry for Gauss's Law
Electricity and Magnetism: Electrostatics MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
39
L3v3: Definition of the Dipole Moment
Electricity and Magnetism: Electrostatics MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
40
L12v6: Energy Stored in the Electric Field
Electricity and Magnetism: Electrostatics MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
41
L9v4: Potential Along the Axis of a Uniformly Charged Ring
Electricity and Magnetism: Electrostatics MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
42
L6av3: Electric Field of an Infinite Sheet
Electricity and Magnetism: Electrostatics MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
43
L13v1: Dielectrics
Electricity and Magnetism: Electrostatics MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
44
L9v5: Potential Near a Uniformly Charged Rod
Electricity and Magnetism: Electrostatics MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
45
L3v4: Worked Example – Dipole Moment of 3 Charges
Electricity and Magnetism: Electrostatics MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
46
L6av4: Electric Field of Two Infinite Sheets
Electricity and Magnetism: Electrostatics MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
47
L13v2: Capacitor Demo
Electricity and Magnetism: Electrostatics MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
48
L9v6: Configuration Energy
Electricity and Magnetism: Electrostatics MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
49
L3v5: Dipole Moment is Independent of Origin
Electricity and Magnetism: Electrostatics MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences
50
L6av5: Electric Field of an Infinite Slab
Electricity and Magnetism: Electrostatics MIT Peter Dourmashkin, Krishna Rajagopal, Dr. Kerstin Perez, Dr. Analia Barrantes, Dr. Michelle Tomasik, Prof.Robert Redwine Basic and Health Sciences