. Consider a geostationary-orbit satellite at an altitude of 35,784 km above the earth's equa- tor (such a satellite has a period equal to one day and appears stationary relative to the earth if it is in an equatorial orbit). The transmit frequency is 12 GHz. The transmit and receive antennas have a m² aperture with an aperture efficiency of 70%. The transmit power is 100 watts. Assume total system losses of 6 dB. Find the signal power at the receive antenna terminals in dBW, dBm, and microwatts.
. Consider a geostationary-orbit satellite at an altitude of 35,784 km above the earth's equa- tor (such a satellite has a period equal to one day and appears stationary relative to the earth if it is in an equatorial orbit). The transmit frequency is 12 GHz. The transmit and receive antennas have a m² aperture with an aperture efficiency of 70%. The transmit power is 100 watts. Assume total system losses of 6 dB. Find the signal power at the receive antenna terminals in dBW, dBm, and microwatts.
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![. Consider a geostationary-orbit satellite at an altitude of 35,784 km above the earth's equa-
tor (such a satellite has a period equal to one day and appears stationary relative to the earth
if it is in an equatorial orbit). The transmit frequency is 12 GHz. The transmit and receive .
antennas have a 1 m² aperture with an aperture efficiency of 70%. The transmit power is
100 watts. Assume total system losses of 6 dB. Find the signal power at the receive antenna
terminals in dBW, dBm, and microwatts.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F694c9daa-0250-4caf-9caa-0ffbe4ae5dfc%2F3bd1badd-955b-4cf2-b3c4-003ff0f94f99%2Fbd83up_processed.png&w=3840&q=75)
Transcribed Image Text:. Consider a geostationary-orbit satellite at an altitude of 35,784 km above the earth's equa-
tor (such a satellite has a period equal to one day and appears stationary relative to the earth
if it is in an equatorial orbit). The transmit frequency is 12 GHz. The transmit and receive .
antennas have a 1 m² aperture with an aperture efficiency of 70%. The transmit power is
100 watts. Assume total system losses of 6 dB. Find the signal power at the receive antenna
terminals in dBW, dBm, and microwatts.
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