Assume the intensity of solar radiation incident on the cloud tops of the Earth is 1 600 W/m². (a) Taking the average Earth-Sun separation to be 1.496 x 1011 m, calculate the total power radiated by the Sun. W (b) Determine the maximum value of the electric field in the sunlight at the Earth's location. kV/m (c) Determine the maximum value of the magnetic field in the sunlight at the Earth's location. μτ
Assume the intensity of solar radiation incident on the cloud tops of the Earth is 1 600 W/m². (a) Taking the average Earth-Sun separation to be 1.496 x 1011 m, calculate the total power radiated by the Sun. W (b) Determine the maximum value of the electric field in the sunlight at the Earth's location. kV/m (c) Determine the maximum value of the magnetic field in the sunlight at the Earth's location. μτ
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Transcribed Image Text:Assume the intensity of solar radiation incident on the cloud tops of the Earth is 1 600 W/m².
(a) Taking the average Earth-Sun separation to be 1.496 x 1011 m, calculate the total power radiated by the Sun.
W
(b) Determine the maximum value of the electric field in the sunlight at the Earth's location.
kV/m
(c) Determine the maximum value of the magnetic field in the sunlight at the Earth's location.
μτ
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