1- A uniform plane wave of 100 MHz propagating in air (medium 1: z<0, µ=µ, ɛ=ɛ0) is normally incident upon a good conducting half space, (medium 2: z>0, µ=µo, ɛ=4ɛo, =10). Phasor electric field of the incident wave is given by, -jk,z E = a _10e V/m Determine, a) numerical value of the propagation constants of both medium 1 and medium 2. b) reflected and transmitted electric field in the phasor domain. c) transmitted electric field in the time domain. d) magnitude of the electric field intensity at z=0.1mm and z=2mm. Comment on the numerical values you obtained.

1- A uniform plane wave of 100 MHz propagating in air (medium 1: z<0, µ=µ, ɛ=ɛ0) is normally incident upon a good conducting half space, (medium 2: z>0, µ=µo, ɛ=4ɛo, =10). Phasor electric field of the incident wave is given by, -jk,z E = a _10e V/m Determine, a) numerical value of the propagation constants of both medium 1 and medium 2. b) reflected and transmitted electric field in the phasor domain. c) transmitted electric field in the time domain. d) magnitude of the electric field intensity at z=0.1mm and z=2mm. Comment on the numerical values you obtained.

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Question

The question is in the attached file.

1- A uniform plane wave of 100 MHz propagating in air (medium 1: z<0, µ=µ, E=ɛ) is
normally incident upon a good conducting half space, (medium 2: z>0, µ=µo, E=4ɛo, 0=10).
Phasor electric field of the incident wave is given by,
-jk z
Е 3 а 10е
V/m
Determine,
a) numerical value of the propagation constants of both medium 1 and medium 2.
b) reflected and transmitted electric field in the phasor domain.
c) transmitted electric field in the time domain.
d) magnitude of the electric field intensity at z=0.1mm and z=2mm. Comment on the
numerical values you obtained.

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