Calculate the energy flux density, Fm , at the average distance of Mars from the Sun, rm , (energy flux divided by surface area of sphere).Mars' distance from the Sun = rm = 2.279 x 1013 cmFm = L /(4prm2) = ________________ ergs/sNext Calcuate the Amount of Solar Energy absorbed by Mars is the surface area of Mars which is facing the Sun (1/2 of Mars' surface area = 4pdm2 / 2 = 2pdm2 ) . Where dm = 3.398 x 106 cm is the radius of Mars.So Mars receives :

Given: The distance of Mars from the Earth is 2.279×1013 cm. Introduction: Luminosity is a measure…

Calculate the energy flux density, Fm , at the average distance of Mars from the Sun, rm , (energy flux divided by surface area of sphere). Mars' distance from the Sun = rm = 2.279 x 1013 cm Fm = L /(4prm2) = ________________ ergs/s

Calculate the energy flux density, Fm , at the average distance of Mars from the Sun, rm , (energy flux divided by surface area of sphere). Mars' distance from the Sun = rm = 2.279 x 1013 cm Fm = L /(4prm2) = ________________ ergs/s

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Question

Calculate the energy flux density, F_m , at the average distance of Mars from the Sun, r_m , (energy flux divided by surface area of sphere).

Mars' distance from the Sun = r_m = 2.279 x 10¹³ cm
F_m = L /(4pr_m²) = ________________ ergs/s

Next Calcuate the Amount of Solar Energy absorbed by Mars is the surface area of Mars which is facing the Sun (1/2 of Mars' surface area = 4pd_m² / 2 = 2pd_m² ) . Where d_m = 3.398 x 10⁶ cm is the radius of Mars.

So Mars receives :

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