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.)
13 ratings

Comments

Displaying 18 comments:

Ayser wrote 18 days ago.
its a perfect lectures, and i hope to have even small
knowledge from that for this lecturer

MARGO23Wood wrote 2 months ago.
If you are willing to buy a house, you will have to receive
the <a
href="http://goodfinance-blog.com/topics/credit-loans&q
uot;>credit loans</a>. Furthermore, my mother
commonly uses a consolidation loan, which occurs to be
really rapid.

mahmood wrote 7 months ago.
123

BERNARD CHATENGA wrote 7 months ago.
very nice notes

latish wadhai wrote 1 year ago.
Thanks Professor Walter Lewin.......

MBehdani wrote 1 year ago.
I am assistan professor in Mashhad university and ineed your
lectur note.
my be please help me

vivek wrote 1 year ago.
did super conductivity exists in room temperature?

mustafa à wrote 2 years ago.
very good

rajesh wrote 2 years ago.
hi this is nice

bassant wrote 2 years ago.
amazing thanx alot

  Post comment as a guest user.
Click to login or register:
Your name:
Your email:
(will not appear)
Your comment:
(max. 1000 characters)
Are you human? (Sorry)
 
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
Disclaimer:
CosmoLearning is promoting these educational resources as a courtesy of Massachusetts Institute of Technology (MIT). We make no representations regarding the courses and videos of this content provider or any information related to them. CosmoLearning is not endorsed by MIT and we are not affiliated with them, unless otherwise specified. Any questions, claims or complaints regarding this content should be directed to the original creator.