Date 
Day 
Chapter/Section

Topics 
Additional
Notes 
JAN
6 
W 
1.2 
Introduction,
Gradient 
Lecture 1

JAN
8 
F 
1.2,
1.3 
Gradient,
divergence, and curl 
Divergence theorem 
JAN
11

M 
1.4,
1.5 
Gradient,
divergence, and curl 
Lecture 3 
JAN
13 
W 
1.5,
2.1 
The
delta function, Coulomb's law 

JAN 15

F

2.2 
The delta function, Spherical
and cylindrical coordinates, Quiz 1 

JAN
18 
M 

Martin
Luther King Jr. Day 

JAN
20 
W 
2.2 
Divergence
and Curl continued, Gauss's law 

JAN 22

F

2.2 
Divergence
and Curl continued, Gauss's law 

JAN 25

M

2.2, 2.3 
Gauss's law, Potential, Quiz
2 

JAN
26 
T 

Mid
term 1 (8:20 pm tto 10:10 pm) 

JAN
27 
W 
2.3, 2.4 
Potential, Work, Energy 

JAN
29 
F 
2.4, 2.5 
Work, Energy, Conductors 

FEB 1

M

2.5 
Conductors 

FEB
3 
W 
3.1 
Laplace
equation solutions, Mean value theorem 
Mean value theorem 
FEB 5

F

3.1 
Uniqueness theorems 

FEB
8 
M 
3.2 
Method of images, Quiz 3 and extra credit problem 

FEB 10

W

3.2 
Method of images 
image, boundary 
FEB
12 
F 
3.2 
Method of images 

FEB
15 
M 
3.3 
Solutions
of Laplace's equation 
Laplace 
FEB
17 
W 
3.3 
Solutions
of Laplace's equation, Quiz 4 

FEB 19

F

3.3 
Solutions
of Laplace's equation 

FEB 22

M

3.3 
Solutions
of Laplace's equation 

FEB
23 
T 

Mid
term 2 (8:20 pm tto 10:10 pm) 

FEB 24

W

3.4 
Multipole
expansion 

FEB 26

F

4.1 
Polarization 

FEB 29

M


Spring Break 

MAR
2 
W 

Spring
Break 

MAR
4 
F 

Spring Break 

MAR 7

M

4.2 
Polarization and bound charges 
bound charges 
MAR
9 
W 
4.2, 4.3 
Constant P problem, Electric displacement 

MAR
11 
F 
4.4 
Linear
dielectrics 

MAR
14 
M 

Differential
equations 
Legendre diff. eq. 
MAR
16 
W 
4.4 
Linear
dielectrics, Quiz 5 

MAR
18 
F 
4.4 
Linear
dielectrics, Work and Energy 

MAR
21 
M 
5.1 
Magnetic
fields 

MAR
23 
W 
5.1 
Magnetic
fields due to currents, Quiz 6 

MAR
25 
F 
5.1, 5.2 
Magnetic
fields due to currents, BiotSavart law 

MAR
28 
M 
5.2 
BiotSavart
law 

MAR
29 
T 

Mid
term 3 (8:20 pm tto 10:10 pm) 

MAR
30 
W 
5.3 
Divergence
and curl of B fields 

APR
1 
F 
5.4 
Vector
potential, Spinning charged sphere 
Charged
sphere 
APR
4 
M 
5.4 
Spinning
charged sphere, Boundary conditions 

APR
6 
W 
5.4 
Multipole
expansion, Quiz 7 (HW 7) 
corollary1 
APR
8 
F 
6.1 
Magnetic
materials 

APR
11 
M 
6.2 
Field
of a magnetized object, Quiz 8 

APR
13 
W 

ALC
test 

APR
15 
F 
6.2, 6.3 
Field
of a magnetized object, The auxiliary field H 
corollary2 
APR
18 
M 
6.4 
Linear
magnetic media 
Boundary conditions 
APR
20 
W 
6.4 
Ferromagnets, Quiz 9 
Ferromagnetism 
APR
25 
M 

Review
for Final (time TBD) 

APR
28 
R 

Final
exam (12:30 pm to 2:30 pm) 
