TEXT: | Fundamentals Of Electric Circuits, 2th Edition, C. K. Alexander, Matthew Sadiku: McGraw-Hill Publishing Company, 2004 ISBN 0-07-246331-7. |
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INSTRUCTOR: | Walter L. Green, Professor Emeritus, Electrical Engineering, FH 503, Ph. 974-5438. | ||
COURSE WEB SITE: | http://www.ece.utk.edu/~green | email:wlg@utk.edu |
DATE | SECTION OF TEXT | MATERIAL |
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Jan - 13 - Tr | Ch. 1:BASIC CONCEPTS pp 04 21 | Course overview, system of units, charge and current, voltage, power and energy,circuit elements |
Jan - 18 - T | Ch. 2: BASIC LAWS pp 28-43 | Ohm's Law, nodes, branches, loops, Kirchhoff's Laws, series resistor, voltage division |
Jan - 20- Tr | Ch. 2: pp 43 60 | Parallel resistors, current division, wye to delta and delta to wye transformations |
Jan 25 T | Ch. 3: METHODS OF ANALYSIS pp 78 90 | Nodal analysis |
Jan - 27 - Tr | Ch. 3: pp 90 104 | Mesh Analysis |
Feb 01 - T | Ch. 3: Open | Further application of nodal and mesh Analysis |
Feb 03 Tr | ***** TEST #1 ***** | Chapters 1, 2, 3 |
Feb 08 T | Ch. 4: CIRCUIT THEOREMS pp 126 - 137 | Review test #1, linearity & superposition |
Feb - 10 - Tr | Ch. 4: pp 137 - 148 | Thevenin's theorem, Norton's theem |
Feb - 15 - T | Ch. 4: pp 148 - 158 | Maximum power transfer, Applications |
Feb - 17 - Tr | Ch. 5: OPERATIONAL AMPLIFIERS pp 174 188 | Fundamentals of operational amplifiers |
Feb 22 T | Ch. 6: CAPACITORS & INDUCTORS pp 212 222 | Continuation of Op Amps, Capacitors as physical devices |
Feb 24 Tr | Ch. 6: pp 222 236 | Inductors as physical devices |
March 01 T | ***** TEST # 2 ***** | Chapters 4, 5, 6 |
Mar 03 - Tr | Ch. 7: FIRST-ORDER CIRCUITS Pp 250 261 | Review test #2, Source free RC & RL circuits |
Mar 08 - T | Ch. 7: pp 261 273 | Singularity functions, step response of RC circuit |
Mar 10 - Tr | Ch. 7: pp 273 280 | RC and RL step response |
Mar 15 - T | Ch. 8: SECOND ORDER CIRCUITS Pp 310 322 | Finding initial conditions, source free series step response |
Mar 17 - Tr | Ch. 8: pp 322 340 | source free RLC parallel circuit, step Response |
Mar 21 25 | ***** SPRING BREAK NO CLASSES ***** | |
Mar 29 - T | Ch. 9: SINUSOIDS & PHASORS pp 370 392 | Sinusoids, phasors, impedance, admittance, Kirchhoff's laws in the frequency domain |
Mar 31 - Tr | Ch. 10: SINUSOIDAL STEADY STATE ANALYSIS | AC circuits: mesh analysis, nodal analysis, Thevenin and Norton methods for AC ckts pp 414-431 |
Apr 05 T | ***** TEST # 3 ***** | Chapters 7, 8, 9, 10 |
Apr 07 Tr | Ch. 11: AC POWER ANALYSIS pp 458 470 | Review Test 3, instantaneous and average power, maximum power transfer for AC Circuits, effective or RMS values |
Apr 12 T | Ch. 11: pp 471 484 | Apparent power and power factor, complex power, conservation of power, Power factor correction |
Apr 14 Tr | Ch. 13: MAGNETICALLY COUPLED CIRCUITS Pp 556 573 | Mutual inductance, energy in coupled circuits, linear transformers |
Apr 19 T | Ch. 13: pp 573 584 | Ideal transformers |
Apr 21 Tr | Ch. 19: TWO PORT NETWORKS Pp 854 862 | impedance parameters, transmission admittance parameters |
Apr 26 T | Ch. 19: pp 862 871 | hybrid parameters, transmission parameters |
Final Exam: | The final exam will be Tuesday, May 3, 10:15 am 12:15 pm: FH 510 Morning Section Thursday, May 5, 2:45 4:45 PM: Estabrook 209 Afternoon Section |
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GRADING: | Your course grade will be determined using the following distribution. Grades are not curved. |
A: 90 - 100
B+: 87 - 89
B: 80 - 86
C+: 77 - 79
C: 70 - 76
D: 60 69
F: below 60
COURSE AVERAGE:
Percentage of course work assignment:
Test # 1 ..... 14%
Test # 2 ..... 14 %
Test # 3 ..... 14 %
Laboratory ..... 15 %
Project ..... 5 %
Homework ..... 15 %
Final Exam, Comprehensive ..... 23 %
Additional 1 % for 90 % attendance
All exams will be graded by Professor Green. All homework and lab reports will be graded by a graduate assistant.
Office Hours:
Office hours are posted on my door: FH 503: Ph. 975-5438,
e-mail wlg@utk.edu