A 10 GHz uniform plane wave is propagating in the positive z direction and is incident from free space to a fiberglass (e,= 4.9, Mo, 0 = 4.9, Mo, 0) radome as in Figure 4. he Air Eo. Ho Fiberglass e=4.9 Hoia=0 Figure 4 Air Eo. Ho a) Determine the thickness of the radome so that there will be no reflection. b) If the amplitude of the incident electric field 1 = 100 ejot and if we maintain the same physical thickness (in meters) of the fiberglass radome determined in part (a), use a Smith chart to determine the amplitude of the transmitted electric field in the fiberglass when the frequency is decreased by 10%.

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A 10 GHz uniform plane wave is propagating in the positive z direction and is incident from
free space to a fiberglass (e,= 4.9, Ho, o =
4.9, Mo,
the
Air
Eo. Ho
0) radome as in Figure 4.
Fiberglass
e=4.9
Poia=0
Figure 4
Air
Eo. Po
a) Determine the thickness of the radome so that there will be no reflection.
b) If the amplitude of the incident electric field 1 = 100 ejot and if we maintain the
same physical thickness (in meters) of the fiberglass radome determined in part (a),
use a Smith chart to determine the amplitude of the transmitted electric field in the
fiberglass when the frequency is decreased by 10%.
Transcribed Image Text:A 10 GHz uniform plane wave is propagating in the positive z direction and is incident from free space to a fiberglass (e,= 4.9, Ho, o = 4.9, Mo, the Air Eo. Ho 0) radome as in Figure 4. Fiberglass e=4.9 Poia=0 Figure 4 Air Eo. Po a) Determine the thickness of the radome so that there will be no reflection. b) If the amplitude of the incident electric field 1 = 100 ejot and if we maintain the same physical thickness (in meters) of the fiberglass radome determined in part (a), use a Smith chart to determine the amplitude of the transmitted electric field in the fiberglass when the frequency is decreased by 10%.
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