Estimate the ratio of the maximum solar power density at sea level (see the figure below) to the power density received at the 50 GHz radio frequency. The solar power density at 50 GHz is 3400 x 10 22 W/m².Hz.
Estimate the ratio of the maximum solar power density at sea level (see the figure below) to the power density received at the 50 GHz radio frequency. The solar power density at 50 GHz is 3400 x 10 22 W/m².Hz.
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![Estimate the ratio of the maximum solar power density at sea level (see the figure below) to the power density received at the 50 GHz radio frequency. The solar power density at 50
GHz is 3400 x 10-22 W/m?.Hz.
Spectrum of Solar Radiation (Earth)
2.5
UV Visible Infrared
Sunlight without atmospheric absorption
5778K blackbody
Sunlight at sea level
но
Atmospheric
absorption bands
но со
0.5
но
но
HO
1000 1250 1500 1750 2000 2250 2500
250
500
750
Wavelength (nm)
Irradiance (W/m2/nm)](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F918181a1-6117-4f7f-b31d-750008075c9f%2Fcae71741-40f3-4d89-850e-6d1bf2ef843f%2Fgc6lzq5j_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Estimate the ratio of the maximum solar power density at sea level (see the figure below) to the power density received at the 50 GHz radio frequency. The solar power density at 50
GHz is 3400 x 10-22 W/m?.Hz.
Spectrum of Solar Radiation (Earth)
2.5
UV Visible Infrared
Sunlight without atmospheric absorption
5778K blackbody
Sunlight at sea level
но
Atmospheric
absorption bands
но со
0.5
но
но
HO
1000 1250 1500 1750 2000 2250 2500
250
500
750
Wavelength (nm)
Irradiance (W/m2/nm)
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