Chapter 6 - Electromagnetic Wave Propagation

Chapter 6 - Electromagnetic Wave Propagation - E E 330:...

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E E 330: Engineering Electromagnetics Chapter 06: Electromagnetic Wave Propagation Sven G. Bilén Communications and Space Sciences Lab Department of Electrical Engineering The Pennsylvania State University University Park, PA 16802
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E E 330: Engineering Electromagnetics 2 The Wave Equation §6.1
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E E 330: Engineering Electromagnetics 3 Linearly Polarized Waves
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E E 330: Engineering Electromagnetics 4 Speed of Light
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E E 330: Engineering Electromagnetics 5 One-Dimensional Wave Equation §6.2
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E E 330: Engineering Electromagnetics 6 Transverse vs. Longitudinal Waves
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E E 330: Engineering Electromagnetics 7 Traveling Waves
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E E 330: Engineering Electromagnetics 8 Finite Difference Time Domain
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E E 330: Engineering Electromagnetics 9 FDTD MATLAB Example example_608.m
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E E 330: Engineering Electromagnetics 10 Time-Harmonic Plane Waves §6.3 Hermann Ludwig Ferdinand von Helmholtz (1821– 1894), German physician and physicist
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E E 330: Engineering Electromagnetics 11 Solution to Wave Equation
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E E 330: Engineering Electromagnetics 12 Phase Velocity
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E E 330: Engineering Electromagnetics 13 Wave Vector sine_wave_propagation.m
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E E 330: Engineering Electromagnetics 14 Wave Characteristics
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E E 330: Engineering Electromagnetics 15 Circularly Polarized Waves
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E E 330: Engineering Electromagnetics 16 Magnetic Field Intensity
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E E 330: Engineering Electromagnetics 17 Characteristic Impedance and Power Flow
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Unformatted text preview: E E 330: Engineering Electromagnetics 18 Propagation in Dielectric Media: Lossless 6.4 E E 330: Engineering Electromagnetics 19 Propagation in Dielectric Media: Lossy E E 330: Engineering Electromagnetics 20 Group Velocity group_velocity.m E E 330: Engineering Electromagnetics 21 Attenuation damped_sine_wave_propagation.m E E 330: Engineering Electromagnetics 22 Case 1: Dielectric with small losses with a high-frequency approximation E E 330: Engineering Electromagnetics 23 Case 2: Dielectric with large losses with a low-frequency approximation E E 330: Engineering Electromagnetics 24 Skin Depth E E 330: Engineering Electromagnetics 25 Wave Propagating into Conductor example_618.m E E 330: Engineering Electromagnetics 26 Reflection and Transmission of EM Waves 6.5 E E 330: Engineering Electromagnetics 27 Reflection and Transmission Coefficients E E 330: Engineering Electromagnetics 28 Standing Waves standing_wave.m E E 330: Engineering Electromagnetics 29 FabryPerot Cavity E E 330: Engineering Electromagnetics 30 FabryPerot Cavity Example E E 330: Engineering Electromagnetics 31 FabryPerot Cavity Example (cont.) E E 330: Engineering Electromagnetics 32 Circularly Polarized Waves E E 330: Engineering Electromagnetics 33 Polarization Chart...
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This note was uploaded on 10/01/2008 for the course EE 330 taught by Professor Tofighimohammad- during the Spring '08 term at Pennsylvania State University, University Park.

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Chapter 6 - Electromagnetic Wave Propagation - E E 330:...

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