w112111111 1.A uniform lossy medium with &, 3, tand = 0.1, and u = Ho fills the region betweenz = 0 and z = 20 cm, with a ground plane at z = 20 cm. An incident plane wave withan electric fieldĒin = £100e-Yz V/mis present at z = 0 and propagates in the +z direction. The frequency is 3.0 GHz.Compute the power density of the incident wave, Si, and the power density of thereflected wave, Sr, at z = 0.

Given: Uniform lossy medium, εr=3tanδ=0.1μ=μ0 Region between, z=0 cm to z=20 cm Electric field,…

1. A uniform lossy medium with ɛ, 3, tand = 0.1, and u = Ho fills the region between z = 0 and z = 20 cm, with a ground plane at z = 20 cm. An incident plane wave with an electric field Ēin = 2100e Yz V/m is present at z = 0 and propagates in the +z direction. The frequency is 3.0 GHz. Compute the power density of the incident wave, Si, and the power density of the reflected wave, S, at z 0.

1. A uniform lossy medium with ɛ, 3, tand = 0.1, and u = Ho fills the region between z = 0 and z = 20 cm, with a ground plane at z = 20 cm. An incident plane wave with an electric field Ēin = 2100e Yz V/m is present at z = 0 and propagates in the +z direction. The frequency is 3.0 GHz. Compute the power density of the incident wave, Si, and the power density of the reflected wave, S, at z 0.

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Question

w112111111

1.
A uniform lossy medium with &, 3, tand = 0.1, and u = Ho fills the region between
z = 0 and z = 20 cm, with a ground plane at z = 20 cm. An incident plane wave with
an electric field
Ēin = £100e-Yz V/m
is present at z = 0 and propagates in the +z direction. The frequency is 3.0 GHz.
Compute the power density of the incident wave, Si, and the power density of the
reflected wave, Sr, at z = 0.

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