Week 1
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Tuesday Jan 13: Lecture #1.1 Charge model
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Thursday Jan 15: Lecture #1.2 Charge model
Week 2
- Tuesday Jan 20: Lecture #2.1 Coulomb's law
- Thursday Jan 22: Lecture #2.2 Electric field
Week 3 (Reading assignment: Knight 27.3 - 27.7)
- Tuesday Jan 27: Lecture #3.1 Electric field
- Thursday Jan 29: Lecture #3.2Electric field
Week 4 (Reading assignment: Knight 28.2-28,4, 28.6)
- Tuesday Feb 3: Lecture #4.1 Gauss's Law
- Thursday Feb 5: Exam 1
Week 5
- Tuesday Feb 10: Lecture #5.1 Gauss's law
- Thursday Feb 12: Lecture #5.2 Electric potential
Week 6 (Reading assignment: Knight 29.5 - 29.7, 30.1 - 30.3)
- Tuesday Feb 17: Lecture #6.1 Electric potential
- Thursday Feb 19: Lecture #6.2 Potential and Field
Week 7 (Reading assignment: Knight 30.5 - 30.7, 31.1 - 31.3)
- Tuesday Feb 24: Lecture #7.1 Potential and Field
- Thursday Mar 26: Lecture #7.2Current and resistance
Applet: drift velocity of electron
Week 8
- Tuesday Lecture #8.1, Current and resistance
- Thursday Mar 5: Exam 2 (Reading: review)
Week 9
Spring Break, no class!
Week 10
- Tuesday Mar 17: Lecture #10.1 Fundamentals of circuits
reading assignment: Chapter 32. 32.1 - 32.6
- Thursday Mar 19: Lecture #10.2Fundamentals of circuits
reading assignment: Chapter 32. 32.7 - 32.8
Week 11
- Tuesday Mar
24: Lecture #11.1 Magnetic field
Reading assignment: Knight 33.1 - 33.4
- Thursday Mar 26: Lecture #11.2 Magnetic field
Week 12
- Tuesday Mar 31: Lecture #12.1Magnetic field
Video of maglev train in Shanghai
- Thursday Apr 2: Exam 3 (Reading: review)
Week 13
- Tuesday Apr 7: Lecture #13.1 Electromagnetic induction
- Thursday Apr 9: Lecture #13.2Electromagnetic induction
Week 14
- Tuesday Apr 14: Lecture #14.1Electromagnetic waves
- Thursday Apr 16: Lecture #14.2Electromagnetic waves
Week 15
- Tuesday Apr 21: Mayfest, no class!
- Thursday Apr 23: Lecture #15.2AC circuits
Week 16
- Tuesday Apr 28: review: Review and summary