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Week - 1 |
Lecture 1: Ampere’s Law Of Force And Biot-Savart Law;
•Lecture 2: Ampere’s Circuital Law In non-magnetic media (free space) |
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Week - 2 |
Lecture 3: Vector Magnetic Potential And Magnetic Dipole;
•Lecture 4: Divergence Of B, Magnetic Flux, And Inductance |
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Week - 3 |
Lecture 5: Magnetization;
•Lecture 6: Types Of Magnetic Materials And Boundary Conditions For Magnetostatic Fields |
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Week - 4 |
Lecture 7: Magnetic Forces And Torques
•Lecture 8: Faraday’s Law Of Electromagnetic Induction, Potantial function for electric field |
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Week - 5 |
Lecture 9: The General Form Of Ampere’s Law, And Maxwell’s Equations;
•Lecture 10: Application |
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Week - 6 |
Application, Questions/Answers |
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Week - 7 |
Lecture 11: Time-Harmonic Maxwell’s Equations;
•Lecture 12: Phasor, Electromagnetic Boundary Conditions, Plane Waves In Lossless Medium |
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Week - 8 |
Lecture 13: Electromagnetic Plane Waves;
•Lecture 14: Transverse Electromagnetic(TEM) Waves, Production of Electromagnetic Waves (Hertz Antennas). |
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Week - 9 |
Lecture 15:Polization of Plane Waves, Plane Waves In Lossy Media;
•Lecture 16: Power And The Poynting Vector |
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Week - 10 |
Lecture 17: Exercises
•Lecture 18: Normal Incidence On a interface of Plane Waves |
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Week - 11 |
Lecture 19: Normal Incidence On a interface of Plane Waves: Lossless Dielectric;
•Lecture 20: Oblique Incidence On a interface of Plane Waves |
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Week - 12 |
Application, Questions/Answers |
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Week - 13 |
Lecture 21: TE, TM Waves;
•Lecture 22: Introduction to Waveguides and Cavity Resonators |
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Week - 14 |
Lecture 23: Rectangular Waveguides;
•Lecture 24: Cavity Resonators |
Eskisehir Technical University Info Package 
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