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Electricity and Magnetism: Electrostatics

(82 Lectures Available)

S# Lecture Course Institute Instructor Discipline
1
  • L01v01: What is Charge
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
2
  • L02v06: Electric Field Lines
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
3
  • L10v1: Electric Field is the Negative Gradient 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
4
  • L10v2: Calculate Electric Field from the Potential Along the Axis of a 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
5
  • L10v3: Calculate the Electric Field from the Potential of Three Point 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
6
  • L10v4: Equipotentials
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
7
  • L11v1: Conductors and Insulators
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
8
  • L11v2: Properties of Conductors
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
9
  • L11v3: Induced Charge on a Conductor from a Charge Outside
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
10
  • L11v4: Induced Charge on a Conductor from a Charge Inside
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
11
  • L11v6: Faraday Cage
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
12
  • L12v1: Capacitance
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
13
  • L12v2: 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
14
  • 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
15
  • 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
16
  • 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
17
  • 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
18
  • 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
19
  • 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
20
  • L13v3: Dielectric Constant
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
21
  • L13v4: Dissectible 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
22
  • L1v2: Electric Force
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
23
  • L1v3: Rewrite the Unit Vector in Coulomb'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
24
  • L1v5: Analogy of Coulomb's Law and Gravity
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
25
  • L2v1: Vector Fields
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