| TEXT: | Electrical Engineering Principles and Applications 4th Edition Hambley, Allan R.; Pearson-Prentice Hall, 2008, ISBN 0-13-198922-7 |
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| INSTRUCTOR: | Walter L. Green, Professor Emeritus, Electrical Engineering, Ferris Hall RM 503 Ph. 974-5438. Office hours posted on door of RM 503. | ||
| COURSE WEB SITE: | http://www.ece.utk.edu/~green | email:wlg@utk.edu | |
| DATE | SECTION OF TEXT | MATERIAL |
|---|---|---|
| Aug – 23 – Th | Ch. 1: BASIC CONCEPTS pp. 10 - 24 |
Electric current, references, voltage, power, energy, KCL, KVL |
| Aug – 28 – T | Ch. 1: pp 24 – 37 | Circuit elements, independent voltage & current sources, dependent voltage & current sources, Ohm’s Law, resistors, power calculations, circuit analysis |
| Aug – 30 – Th | Ch. 2: RESISTIVE CIRCUITS pp 47-61 |
Series & parallel resistors, branch circuit analysis , voltage and current division |
| Sept – 04 – T | Ch. 2: pp 61-72 | Node voltage analysis with independent sources, Nodal analysis with super nodes |
| Sept – 06 – Th | Ch. 2: pp 72-82 | node analysis with controlled sources, mesh analysis, with independent sources |
| Sept – 11 – T | Ch. 2: pp 82 – 90 | Mesh analysis with controlled sources, Thevenin’s equivalent circuit |
| Sept – 13 – Th | Ch. 2: pp 90-94 | Continuation of Thevenin, Norton’s theorem, source transformation |
| Sept – 18 – T | Ch. 2: 94 –105 | Maximum power transfer, superposition, Wheatstone Bridge |
| Sept – 20 - Th | ****** TEST # 1 ****** | |
| Sept – 25 – T | Ch. 3: CAPACITORS AND INDUCTORS pp 121-134 |
Review Test #1, Capacitors and properties of capacitors |
| Sept – 27 – Tr | Ch. 3: pp 135-146 | Inductors and properties of inductors |
| Oct – 02 – T | Ch. 4: TRANSIENTS pp 157-168 |
First order RC and RL transient circuits |
| Oct – 04 - Th | Ch. 4: pp 168-174 | Solution of first order RC & RL transient circuits |
| Oct – 09 – T | Ch 4: pp 175-186 | RLC series and parallel 2nd order transient circuits |
| Oct – 11 - Th | ****** NO CLASS FALL BREAK ****** | |
| Oct – 16 – T | Ch.14: OPERATIONAL AMPLIFIERS Pp-666-675 |
Op-amp model, ideal noninverting op amp |
| Oct – 18 - Th | ****** NO CLASS ENGINEER’S DAY ****** |
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| Oct – 23 – T | Ch. 14: pp 675-686 | Inverting op-amp and related topics |
| Oct – 25 – Th | ****** TEST # 2 ****** |
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| Oct – 30 – T | Ch. 5: STEADY STATE SINUSOIDAL ANALYSIS pp 200-213 | Sinusoidal signals, RMS values, phasors |
| Nov – 01 – Th | Ch. 5: pp 213-222 | Complex impedance, series and parallel impedance, circuit analysis with phasors and impedance |
| Nov – 06 – T | Ch. 5: pp 222-224 | complex power, power factor correction |
| Nov – 08 – Th | Ch. 5: pp 224-230 | power in AC circuits, real power, reactive power |
| Nov - 13 – T | Ch. 5: pp 230-236 | power factor, power factor correction, maximum power transfer |
| Nov – 15 – Th | ****** TEST # 3 ****** | Mutual inductance, energy in coupled circuits, linear transformers |
| Nov – 20 – T | Ch. 15: TRANSFORMERS pp 739-746 | Review Test #3: Inductance and mutual inductance, linear transformers, dot marking convention |
| Nov – 22 – Th | ****** NO CLASS THANKSGIVING ****** |
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| Nov – 27 – T | Ch. 15: pp 746-758 | Ideal transformers |
| Nov – 29 – Th | Ch. 15: pp 746-758 | continuation of transformers, problems |
| Dec – 04 – T | OPEN: | Review |
| Final Exam: | Exam Given during 5:00 PM – 7:00 PM, Ferris Hall 502, Wednesday, December 12 | |
GRADING: (Course Contract)
Drop the lowest test.
Three tests @ 20% each: 60%
Homework: 14% ( Late homework receives zero credit )
Attendance: 1% (You are allowed to miss two class to receive this credit)
Final: 25% (Comprehensive final)
A: 90 –100; B+: 87 – 89; B: 80 – 85; C+: 77 – 79; C: 70 – 75; D: 60 – 69: F: Below 60