Solving Earth's Radiation Problem - 342 W/m2

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The Earth receives an average solar radiation of 342 W/m2, with about 30% reflected back, requiring the remaining energy to be emitted to maintain thermal equilibrium. To achieve this, approximately 239.4 W/m2 must be transferred back into space. The heat transfer mechanisms involved include conduction, convection, and radiation, with the latter being the primary method for energy loss into space. Using the black body approximation with an emissivity of 0.602, calculations show that the average surface temperature required to lose this amount of heat can be derived from the Stefan-Boltzmann law. The discussion highlights the importance of understanding these concepts in the context of Earth's energy balance.
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Hey guys having some trouble with this question its a new topic in my course

The Earth receives solar radiation at a rate of 342 W/m2 averaged over the total surface of the Earth. About
30% of this radiation gets reflected back into space while the rest is absorbed. For the Earth to maintain thermal
equilibrium (not to heat up), the absorbed energy must be transferred back into space.
a) With reference to the heat transfer mechanisms briefly describe how this transfer must occur
(1-2 sentences).
b) How much power per square meter must be transferred back into space to maintain thermal equilibrium?
c) If we treat the Earth as a black body ob ject (with emissivity e = 0.602) radiating out into space, calculate what
the average temperature the surface of the Earth must be in order to lose this amount of heat.
 
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The first one should be simple, as there are only 3 mechanisms of heat transfer, and 2 of them require physical contact between bodies.

What work have you done to solve the other two parts?
 
CrazyIvan said:
The first one should be simple, as there are only 3 mechanisms of heat transfer, and 2 of them require physical contact between bodies.

What work have you done to solve the other two parts?


This is more then likely wrong but for part B i said 70% of power had to be transferred back to maintain equilibrium so therefore 239.4 W/m^2

And for Part C I used T^4 = P/(e*"boltz constant"*Area)

Which then became

T = 4Sqrt(239.4 W/m^2/(0.602*5.67*10^-8*4*pi*6378000m^2)
 

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