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| No. | Date | Topic | Chapter (pages) | Lecture Note |
| 1 | 08/31(w) | The electromagnetic model Vector analysis |
1(1-10) 2(11-18) |
Lecture 1 |
| 2 | 09/02(f) | Vector Analysis | 2 (37-60) | Lecture 2 |
| 09/05(m) | Labor Day | |||
| 3 | 09/07(w) | Fundamental Postulates, Coulomb's Law | 3 (72-80) | Lecture 3 |
| 4 | 09/09(f) | E fields due to Discrete Charges and Continuous Distribution of Charge | 3 (82-87) | Lecture 4 |
| 5 | 09/12(m) | Gauss's Law and Applications | 3 (87-92) | Lecture 5 |
| 6 | 09/14(w) | Electric Potential | 3 (92-100) | Lecture 6 |
| 7 | 09/16(f) | Conductors in Static Electric Field, Dielectric in Static Electric Fields | 3 (100-108) | Lecture 7 |
| 8 | 09/19(m) | Electric Flux Density, Boundary Conditions | 3 (109-118) | Lecture 8 |
| 9 | 09/21(w) | Capacitance and Capacitors | 3 (121-125) | Lecture 9 |
| 10 | 09/23(f) | Electrostatic Energy | 3 (133-140) | Lecture 10 |
| 11 | 09/26(m) | Electrostatic Forces | 3(140-143) | Lecture 11 |
| 12 | 09/28(w) | Review of chapters 1-3(1) | 1-3(1-143) | Lecture 12 |
| 13 | 09/30(f) | Review of chapters 1-3(2) | 1-3(1-143) | Lecture 12 |
| 14 | 10/03(m) | Exercise Problems | กก | |
| 15 | 10/05(w) | Exam I (20%) | 1-3(1-143) | Solutions |
| 16 | 10/07(f) | Poisson's and Laplace's Equations | 4(152-157) | Lecture 14 |
| 17 | 10/10(m) | Uniqueness of Electrostatic Solutions, Method of Images | 4(157-162) | Lecture 15 |
| 18 | 10/12(w) | Boundary-Value Problems in Cartesian Coordinates | 4(174-182) | Lecture 16 |
| 19 | 10/14(f) | Boundary-Value Problems continued | 4(174-182) | Lecture 16 |
| 20 | 10/17(m) | Current Density, Ohm's Law | 5(198-204) | Lecture 17 |
| 21 | 10/19(w) | Joul's Law, Boundary Conditions for Current Density | 5(210-215) | Lecture 18 |
| 22 | 10/21(f) | Resistance Calculations | 5(215-219) | Lecture 19 |
| 23 | 10/24(m) | Review of chapter 4 and 5 | 4-5(152-219) | Lecture 20 |
| 24 | 10/26(w) | Static Magnetic Fields, Fundamental Postulates | 6(225-231) | Lecture 21 |
| 25 | 10/28(f) | Vector Magnetic Potential, The Biot-Savart law | 6(232-238) | Lecture 22 |
| 26 | 10/31(m) | Exam II (20%) | Solutions | |
| 27 | 11/02(w) | Magnetic Dipole | 6(239-243) | Lecture 23 |
| 28 | 11/04(f) | Magnetization | 6(243-249) | Lecture 24 |
| 29 | 11/07(m) | Magnetic Field Intensity, Magnetic Circuits | 6(249-257) | Lecture 25 |
| 30 | 11/09(w) | Boundary Conditions for Magnetostatic Fields | 6(257-266) | Lecture 26 |
| 31 | 11/11(f) | Inductances and Inductors I | 6(266-272) | Lecture 27 |
| 32 | 11/14(m) | Inductances and Inductors II | 6(272-276) | Lecture 28 |
| 33 | 11/16(w) | Magnetic Energy | 6(277-281) | Lecture 29 |
| 34 | 11/18(f) | Magnetic Forces | 6(281-285) | Lecture 30 |
| 35 | 11/21(m) | Magnetic Torques | 6(285-289) | Lecture 31 |
| 36 | 11/23(w) | Forces and Torques in terms of Stored Magnetic Energy | 6(289-294) | Lecture 32 |
| 11/24-25 | Thanksgiving | |||
| 37 | 11/28(m) | Faraday's Law | 7(307-310) | Lecture 33 |
| 38 | 11/30(w) | Transformers and Moving Conductor in a Magnetic Field | 7(310-317) | Lecture 34 |
| 39 | 12/02(f) | Demonstration of Faraday's Law | 7(314-321) | Demonstration |
| 40 | 12/05(m) | Maxwell's Equations | 7(321-328) | Lecture 35 |
| 41 | 12/07(w) | Wave Equations | 7(332-335) | Lecture 36 |
| 42 | 12/09(f) | Review of chapter 6 and 7 | 6-7(225-338) | Lecture 37 |
| 43 | 12/12(m) | Review of chapters 3-5 | 3-5(72-219) | Exercise and sol |
| Finals (am) (40%) | Final Exam/Sol |