1270

 

S 11    N. Cotter

Syllabus

 

Due

#

Date

Topics

 

1

M

10

Jan

Course Intro, procedures

 

2

W

12

 

CIRCUITS: Basic DC Circuits: Units, Voltage v, Current i, Power p

 

3

F

14

 

CIRCUITS: Basic DC Circuits: EM simp., Devices, Passive sign Ex 1

 

 

M

17

 

HOLIDAY: MARTIN LUTHER KING DAY

 

4

W

19

 

CIRCUITS: Basic DC Circuits: Sources: voltage, current, ind, dep Ex 1

HW 1

5

F

21

 

CIRCUITS: Kirchhoff's Laws: Wrtg v, i eqns: Ex 1

HW 2

6

M

24

 

CIRCUITS: Ohm's Law: R nets Ex 1,; V/IDividers Ex

HW 3

7

W

26

 

HW 3 solution

 

8

F

28

 

OP-AMPS: As high-gain differential amplifier, as ideal amplifier, Ex 2

HW 4

9

M

31

 

HW 4 solution

 

10

W

2

Feb

Exam 1

 

11

F

4

 

Exam 1 solution

 

12

M

7

 

CIRCUITS: Basic DC Circuits: Power; Node-Voltage Method Ex 1

HW 5

13

W

9

 

CIRCUITS: Node-Voltage Method Ex 4

HW 6

14

F

11

 

CIRCUITS: Mesh-Current Method Ex 1

HW 7

15

M

14

 

HW 7 solution

 

16

W

16

 

CIRCUITS: Thevenin Equivalent: Thevenin<->Norton xform Ex,; Ex

HW 8

17

F

18

 

HW 8 solution

 

 

M

21

 

HOLIDAY: PRESIDENT'S DAY

 

18

W

23

 

Exam 2

 

19

F

25

 

Exam 2 solution

 

20

M

28

 

RLC CIRCUITS: C (Capacitor Eqns): Ex 1; L (Inductor Eqns): Ex 1

 

21

W

2

Mar

RLC CIRCUITS: General RC/RL Solution: Ex 1

 

22

F

4

 

RLC CIRCUITS: General RC/RL Solution: Ex 3

HW 9

23

M

7

 

RLC CIRCUITS: General RC/RL Solution: Ex 6

HW 10

24

W

9

 

CIRCUITS: Max Pwr Xfer: Ex

HW 11

25

F

11

 

HW 11 solution

 

26

M

14

 

SUPERPOSITION: Circuits: VDC+VDC: Ex 1

HW 12

27

W

16

 

HW 12 solution

 

28

F

18

 

Exam 3

 

 

M

21

 

HOLIDAY: SPRING BREAK

 

 

W

23

 

HOLIDAY: SPRING BREAK

 

 

F

25

 

HOLIDAY: SPRING BREAK

 

29

M

28

 

Exam 3 solution

 

30

W

30

 

COMPLEX ANALYSIS: Basic Math: 10 views j=√-1, rationalization Ex 2

 

31

F

1

Apr

COMPLEX ANALYSIS: Basic Math: 10 views j=√-1, Add sub Ex

 

32

M

4

 

COMPLEX ANALYSIS: Phasors; IMPEDANCE: Ohm's Law: Ex 1, Ex 2

HW 13

33

W

6

 

IMPEDANCE CIRCUITS: Kirchhoff's Laws: Ex

 

34

F

8

 

IMPEDANCE CIRCUITS: Node-Voltage Method: Ex

HW 14

35

M

11

 

IMPEDANCE CIRCUITS: Thevenin Equivalent: Ex 1

HW 15

36

W

13

 

HW 15 solution

 

37

F

15

 

SUPERPOSITION: Circuits: VAC+VAC: Ex

HW 16

38

M

18

 

HW 16 solution

 

39

W

20

 

Exam 4

 

40

F

22

 

Exam 4 solution

HW 17

41

M

25

 

HW 17 solution

HW 18

42

W

27

 

HW 18 solution

 

 

M

2

May

Final Exam (8:00 AM − 10:00 AM, regular classroom)