Calculate the Average Surface Temperature of Earth

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SUMMARY

The average surface temperature of Earth can be estimated using the Stefan-Boltzmann law, represented by the equation P = eσAT^4. Given that the Earth receives approximately 390 W/m² of radiant energy from the Sun, the calculated average surface temperature is 288 Kelvin (15°C) when considering a surface area of 1 m². However, accounting for Earth's albedo of 30% reduces the effective power to about 340 W/m², resulting in a more accurate average temperature of 255 Kelvin.

PREREQUISITES
  • Understanding of the Stefan-Boltzmann law
  • Knowledge of radiant energy and thermal equilibrium
  • Familiarity with the concept of albedo
  • Basic proficiency in algebra for manipulating equations
NEXT STEPS
  • Research the Stefan-Boltzmann constant and its applications in thermodynamics
  • Learn about the effects of albedo on planetary temperatures
  • Explore the concept of thermal equilibrium in planetary science
  • Investigate the implications of solar radiation on climate models
USEFUL FOR

Students studying physics, climate scientists, and anyone interested in understanding Earth's energy balance and temperature calculations.

lasisdabomb
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Homework Statement


The Earth receives on average about 390 W m−2 of radiant thermal energy from the Sun, averaged over the whole of the Earth. It radiates an equal amount back into space, maintaining a thermal equilibrium that keeps the average temperature on Earth the same. Assuming the Earth is a perfect emitter of radiant energy (e = 1), estimate the average surface temperature of the Earth in °C

Homework Equations


P = eσAT^4
P ∝ T^4
λmaxT = 2.898 × 10−3 m K
3. Attempt
I've tried all these formulas, but I'm not getting anywhere. Am I supposed to know the surface area of the Earth because I feel like it's impossible without it
 
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Assume the area of the Earth to be ##A##, a variable. What, then, is the total power incident on the Earth's surface?
 
Qwertywerty said:
Assume the area of the Earth to be ##A##, a variable. What, then, is the total power incident on the Earth's surface?
Is the 390 m^-2 relevant for the equation. Should that be stated as the P value or should it just be 390W
 
Do you know what intensity is? It's formula? It's unit?
 
Qwertywerty said:
Do you know what intensity is? It's formula? It's unit?
I've realized how to do it. The Power is average for each m^2 of earth. That means the surface area should be 1m^2 and the Power should be 390.
By subbing everything in, you get an average surface temperature of 288 Kelvin or 15°C
 
lasisdabomb said:
That means the surface area should be 1m^2 and the Power should be 390.
More appropriate wording would be - an average of 390W of power is incident per sq.m on the surface of the earth. This is what you mean, right?

And congratulations, on having solved the problem:smile:
 
Qwertywerty said:
More appropriate wording would be - an average of 390W of power is incident per sq.m on the surface of the earth. This is what you mean, right?

And congratulations, on having solved the problem:smile:
Yes, that's the right answer with the given information, but 390 W/m2 is too high. Should be more like 340.
Taking the 30% albedo into account as well would bring the temperature down to 255K, which is the standard result.
 
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haruspex said:
Yes, that's the right answer with the given information, but 390 W/m2 is too high. Should be more like 340.
Taking the 30% albedo into account as well would bring the temperature down to 255K, which is the standard result.
Thanks for the info!
 

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