1270 |
|
|
S 09 N. Cotter |
Due |
# |
Date |
Topics |
||
|
1 |
M |
12 |
Jan |
Course Intro, procedures |
|
2 |
W |
14 |
|
CIRCUITS: Basic DC Circuits: Units, Voltage v, Current i, Power p |
|
3 |
F |
16 |
|
CIRCUITS: Basic DC Circuits: EM simp., Devices, Passive sign Ex 1 |
|
|
M |
19 |
|
HOLIDAY: MARTIN LUTHER KING DAY |
|
4 |
W |
21 |
|
CIRCUITS: Basic DC Circuits: Sources: voltage, current, ind, dep Ex 1 |
HW 1 |
5 |
F |
23 |
|
CIRCUITS: Kirchhoff's Laws: Wrtg v, i eqns: Ex 1 |
HW 2 |
6 |
M |
26 |
|
|
HW 3 |
7 |
W |
28 |
|
HW 3 solution |
|
8 |
F |
30 |
|
OP-AMPS: As high-gain differential amplifier, as ideal amplifier, Ex 2 |
HW 4 |
9 |
M |
2 |
Feb |
HW 4 solution |
|
10 |
W |
4 |
|
|
|
11 |
F |
6 |
|
Exam 1 solution |
|
12 |
M |
9 |
|
CIRCUITS: Basic DC Circuits: Power; Node-Voltage Method Ex 1 |
HW 5 |
13 |
W |
11 |
|
CIRCUITS: Node-Voltage Method Ex 4 |
HW 6 |
14 |
F |
13 |
|
CIRCUITS: Mesh-Current Method Ex 1 |
|
15 |
M |
16 |
|
HOLIDAY: PRESIDENT'S DAY |
HW 7 |
16 |
W |
18 |
|
HW 7 solution |
|
17 |
F |
20 |
|
CIRCUITS: Thevenin Equivalent: Thevenin<->Norton xform Ex,; Ex |
HW 8 |
|
M |
23 |
|
HW 8 solution |
|
18 |
W |
25 |
|
|
|
19 |
F |
27 |
|
Exam 2 solution |
|
20 |
M |
2 |
Mar |
RLC CIRCUITS: C (Capacitor Eqns): Ex 1; L (Inductor Eqns): Ex 1 |
|
21 |
W |
4 |
|
RLC CIRCUITS: General RC/RL Solution: Ex 1 |
|
22 |
F |
6 |
|
RLC CIRCUITS: General RC/RL Solution: Ex 3 |
HW 9 |
23 |
M |
9 |
|
RLC CIRCUITS: General RC/RL Solution: Ex 6 |
HW 10 |
24 |
W |
11 |
|
CIRCUITS: Max Pwr Xfer: Ex |
HW 11 |
25 |
F |
13 |
|
HW 11 solution |
|
26 |
M |
16 |
|
HOLIDAY: SPRING BREAK |
|
27 |
W |
18 |
|
HOLIDAY: SPRING BREAK |
|
28 |
F |
20 |
|
HOLIDAY: SPRING BREAK |
|
|
M |
23 |
|
SUPERPOSITION: Circuits: VDC+VDC: Ex 1 |
HW 12 |
|
W |
25 |
|
HW 12 solution |
|
|
F |
27 |
|
|
|
29 |
M |
30 |
|
Exam 3 solution |
|
30 |
W |
1 |
Apr |
COMPLEX ANALYSIS: Basic Math: 10 views j=√-1, rationalization Ex 2 |
|
31 |
F |
3 |
|
COMPLEX ANALYSIS: Basic Math: 10 views j=√-1, Add sub Ex |
|
32 |
M |
6 |
|
|
HW 13 |
33 |
W |
8 |
|
IMPEDANCE CIRCUITS: Kirchhoff's Laws: Ex |
|
34 |
F |
10 |
|
IMPEDANCE CIRCUITS: Node-Voltage Method: Ex |
HW 14 |
35 |
M |
13 |
|
IMPEDANCE CIRCUITS: Thevenin Equivalent: Ex 1 |
HW 15 |
36 |
W |
15 |
|
HW 15 solution |
|
37 |
F |
17 |
|
SUPERPOSITION: Circuits: VAC+VAC: Ex |
HW 16 |
38 |
M |
20 |
|
HW 16 solution |
|
39 |
W |
22 |
|
|
|
40 |
F |
24 |
|
Exam 4 solution |
HW 17 |
41 |
M |
27 |
|
HW 17 solution |
HW 18 |
42 |
W |
29 |
|
HW 18 solution |
|
|
H |
7 |
May |
Final Exam (8:00 AM − 10:00 AM, regular classroom) |