IQ1. You will need to set up a spreadsheet to calculate the surface temperature of the three planets in the table below, assuming radiative balance and a perfect blackbody radiation for cooling (emissivity = 1). We call this TBB in the table below. calculate TBB. calculated Твв (К) for ɛ=1 Greenhouse effect distance to observed Tsurt (K) 0.62 0.29 0.16 albedo Tsut-TBB planet Venus Earth Mars sun (AU) 0.81 1.00 1.52 740 288 244

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IQ1. You will need to set up a spreadsheet to calculate the surface temperature of the
three planets in the table below, assuming radiative balance and a perfect blackbody
radiation for cooling (emissivity = 1). We call this TBB in the table below. calculate TBB.
%3D
Greenhouse
effect
calculated
Твв (К) for
observed
Tsurt (K)
740
distance to
Tsut-TBB
sun (AU)
0.81
1.00
1.52
planet
albedo
ɛ=1
Venus
0.62
0.29
288
Earth
Mars
0.16
244
IQ2. Based on your answers above, comparing Tsurf with TBB, answer the following
questions
a) What words would you use to describe the greenhouse effect on Venus?
b) Compare the greenhouse effect on Earth versus Mars. What do you think makes the
difference here?
Transcribed Image Text:IQ1. You will need to set up a spreadsheet to calculate the surface temperature of the three planets in the table below, assuming radiative balance and a perfect blackbody radiation for cooling (emissivity = 1). We call this TBB in the table below. calculate TBB. %3D Greenhouse effect calculated Твв (К) for observed Tsurt (K) 740 distance to Tsut-TBB sun (AU) 0.81 1.00 1.52 planet albedo ɛ=1 Venus 0.62 0.29 288 Earth Mars 0.16 244 IQ2. Based on your answers above, comparing Tsurf with TBB, answer the following questions a) What words would you use to describe the greenhouse effect on Venus? b) Compare the greenhouse effect on Earth versus Mars. What do you think makes the difference here?
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