Physics II: Electricity and Magnetism

Course Description

8.02 is a second-semester freshman physics class in electromagnetism. The website features lecture notes, problem sets with solutions, exams with solutions, links to related resources, and a complete set of videotaped lectures. The 36 video lectures on Electricity and Magnetism, by Professor Lewi... (read more)

Video Lectures

# Lecture Play Video
  I. Electrostatics & Electric Fields  
1 Coulomb's Law & Electric Force Play Video
2 Electric Field Play Video
3 Gauss's Law & Electric Flux Play Video
4 Electric Energy Play Video
5 Conductor & Electrostatic Shielding Play Video
6 High-Voltage Breakdown Play Video
  II. Electric Circuits  
7 Capacitance & Field Energy Play Video
8 Polarization & Dielectrics Play Video
9 Ohm's Law, Resistivity & Currents Play Video
10 Kirchhoff's Rule & Power Play Video
  III. Magnetism  
11 Magnetic Field & Lorentz Force Play Video
12 Review Exam 1 Play Video
13 Moving Charges in B-Fields Play Video
14 Biot-Savart Law Play Video
15 Ampere's Law & Solenoids Play Video
  IV. Electromagnetic Induction  
16 Faraday's Law & Lenz Law Play Video
17 Motional Electromotive Force Play Video
18 Displacement Current Play Video
19 Superconductivity and Levitating Bullet Trains Play Video
20 Inductance & Magnetic Field Energy Play Video
21 Dia-, Para- & Ferromagnetism Play Video
22 Maxwell's Equations Play Video
23 Review Exam 2 Play Video
  V. Electromagnetic Waves  
24 Transformers & RC Circuits Play Video
25 Resonance & Driven LRC Circuit Play Video
26 Traveling Waves & Standing Waves Play Video
27 Electromagnetic Waves and Radar and Lasers Play Video
28 Polarization & Oscillating Charges Play Video
29 Color and Reflection Play Video
30 Polarizers Play Video
31 Rainbows Play Video
32 Review Exam 3 Play Video
  VI. Applications  
33 Interferometers Play Video
34 Telescopes Play Video
35 Doppler Effect & The Big Bang Play Video
36 Astronomy Research at MIT Play Video
Physics II: Electricity and Magnetism
Professor Walter Lewin photographed during a demonstration bouncing a balloon (sprayed with conducting paint) between his head and a small Van de Graaff generator. This demonstration can be viewed on the video of Lecture #2. (Image courtesy of Markos Hankin, MIT Physics Department Lecture Demonstration Group.)
2 ratings

Comments

Displaying 10 comments:

rajesh wrote 4 months ago.
hi this is nice

bassant wrote 5 months ago.
amazing thanx alot

Mundu Mustafa wrote 5 months ago.
Physics is so beautiful with Prof. Lewin. He becomes my role
model automatically. Am a Ugandan.Thanks alot.

PAUL ESOLA wrote 6 months ago.
Excellent-very helpful in my physics studies

Md.Momen Khan wrote 7 months ago.
Where there is a will,there is a way.So march forward on
your way.

Md.Momen Khan wrote 7 months ago.
know the mistreous world

Md.Momen Khan wrote 7 months ago.
know the mistreous world

Md.Momen Khan wrote 7 months ago.
know yourselves

fblin wrote 10 months ago.
The explanation of the 2 different lecture has to do with
the loops whether they include dflux/dt or not. If you
don't include it in the voltmeter analisys you get
inconsistences. Remmeber the Ohm's Law doesn't hold!
Faraday's Law does. (Volmeter is a big resistor and
you need to include dflux in the closed loop if it encircles
a dflux/dt).

banlue wrote 11 months ago.
I watched 11 videos, they were so good. Most of them
contained at least 2 samples I never aware. This solves the
problems why I always confuse myself when doing thought
experiments.

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Copyright Information:
Walter Lewin, 8.02 Physics II: Electricity and Magnetism, Spring 2002. (MIT OpenCourseWare: Massachusetts Institute of Technology), http://ocw.mit.edu/OcwWeb/Physics/8-02Electricity-and-Magnet... (Accessed August 07, 2008). License: Creative commons BY-NC-SA
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