ECE 3364 HW 7, F 2015 solutions
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Problem 1. A balanced 3-phase system has a Y-connected source (voltage and impedance Va 'n = 13650 Vrms ,
Z s = j 2 , positive phase sequence) connected to a transmission line (impedance Z line = 1.5 ) which is connected
ECE 3364 - Circuits and systems Homework 2B Due Thursday, February 9th
1) Problem 9.69, page 443, of "Electric Circuits", Nilsson, Riedel. 2) Problem 9.70, page 443, of "Electric Circuits", Nilsson, Riedel. Use the following value instead of the one provi
ECE 3364 - Circuits and systems
Homework 2A
Due Tuesday, 7th February
1) Problem 11.9, page 528, of Electric Circuits, Nilsson, Riedel. (It necessary that you show all
the steps. There is the solution at the end of the book).
2) Problem 11.31, page 532, o
ECE 3364 - Circuits and systems
Homework 1B
Due Thursday, 2nd February
1) Problem 11.22, page 530, of Electric Circuits, Nilsson, Riedel with the following different
value than that in the book. (the others are the same.)
Line impedance: (1.5 + j 7) /
2)
ECE 3364 - Circuits and systems
Homework 4B
Due Tuesday, 28th February
1) Problem 12.30, page 577, of Electric Circuits, Nilsson, Riedel.
2) Problem 12.32, page 577, of Electric Circuits, Nilsson, Riedel. Use the following value instead
of the one given i
ECE 3364 - Circuits and systems
Homework 4A
Due Tuesday, 21th February
1) Problem 12.26, page 576, of Electric Circuits, Nilsson, Riedel. Use the following value instead
of the one given in the book: Source current = 2cos(10 t) [A].
2) Problem 12.27, page
ECE 3364 - Circuits and systems
Homework 9A
Due Thursday, 30th of March
1)
Problem 13.81, page 647 of Electric Circuits, Nilsson, Riedel
2)
Problem 13.82, page 647 of Electric Circuits, Nilsson, Riedel
3)
Problem 13.84, page 648 of Electric Circuits, Nils
ECE 3364 - Circuits and systems
Homework 10A
Due Thursday, 6th of April
(this counts 50% of a full homework)
1)
Problem 14.1, page 689 of Electric Circuits, Nilsson, Riedel. Instead of the value given in
the book, assume R = 150 Ohm.
2)
Problem 14.3, page
ECE 3364 - Circuits and systems
Homework 8B
Due Tuesday, 28th of March
1)
Figure P13.22, page 634 of Electric Circuits, Nilsson, Riedel. Find the steady state
response for v0 with the last method studied in class.
2)
Problem 13.57, page 642 of Electric Ci
ECE 3364 - Circuits and systems
Homework 8
Due Thursday, 23rd of March
1)
Problem 13.12, page 632 of Electric Circuits, Nilsson, Riedel
2)
Problem 13.25, page 635 of Electric Circuits, Nilsson, Riedel
3)
Problem 13.30, page 636 of Electric Circuits, Nilss
ECE 3364 HW 6, Fall 2015 Due 10/8
Problem 1. Nilsson, 8th edition Problem 10.36
Problem 2. Nilsson, 8th edition Problem 10.55
Problem 3. Nilsson, 8th edition Problem 10.56
Problem 4. Nilsson, 8th edition Problem 10.58
Problem 5. Nilsson, 8th edition Probl
ECE 3364, Dr. Hebert, F 2015 HW 5 Due 10/1
Problem 1. Nilsson, 8th edition Problem 11.38
Problem 2. Nilsson, 8th edition Problem 11.48
Use any methods to solve the next problems
Problem 3. Nilsson, 8th edition Problem 6.38
Problem 4. Nilsson, 8th edition
ECE 3364, Dr. Hebert, F 2015 HW 03 due 9/17
Problem 1.
Nilsson, 8th edition
Problem 11.6
Problem 2.
Nilsson, 8th edition
Problem 11.9
Problem 3.
Nilsson, 8th edition
Problem 11.12
Problem 4.
Nilsson, 8th edition
Problem 11.15
Problem 5.
Nilsson, 8th editi
ECE 3364, Dr. Hebert, Fall 2015 HW 04 due 9/24
Problem 1.
Nilsson, 8th edition
Problem 11.37
Problem 2.
Nilsson, 8th edition
Problem 11.43
Problem 3.
Nilsson, 8th edition
Problem 11.46
Problem 4.
Nilsson, 8th edition
Problem 11.47
Problem 5.
Nilsson, 8th
ECE 3364, Dr. Hebert, F 2015 HW 3_solutions
Problem 1. Nilsson, 8th edition Problem 11.6
Problem 2. Nilsson, 8th edition Problem 11.9
Problem 3. Nilsson, 8th edition Problem 11.12
Problem 4. Nilsson, 8th edition Problem 11.15
Problem 5.
Problem 5. Nilsson
ECE 3364, Dr. Hebert, Fall 2015 HW 2, due 9/10
Problem 1.
Nilsson, eighth edition
Problem 10.40
Problem 2.
Nilsson, eighth edition
Problem 10.41
Problem 3.
Nilsson, eighth edition
Problem 10.42
Problem 4.
Nilsson, eighth edition
Problem 10.51
Problem 5.
N
ECE 3364, Dr. Hebert, F 2015 Homework 1, Solutions
Problem 1.
(A) A voltage source operates at 220 V rms. Its load absorbs an average power of 10 kW at a lagging
power factor of 0.75. Compute the complex power absorbed by the load and compute the impedanc
ECE 3364, Dr. Hebert, Fall 2015 HW 1 Due 9/3
Problem 1. (A) A voltage source operates at 220 V rms. Its load absorbs an average power of 10 kW at a lagging power factor of
0.75. Compute the complex power absorbed by the load and compute the impedance of t
ECE 3364, Dr. Hebert, Fall 2017 Homework 1, Solutions
Problem 1.
(A) A voltage source operates at 220 V rms. Its load absorbs an average power of 10 kW at a lagging
power factor of 0.75. Compute the complex power absorbed by the load and compute the imped