Calculating Intensity of Sunlight Reaching Jupiter

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To calculate the intensity of sunlight reaching Jupiter, one must consider the distance from the Sun, as intensity decreases with distance due to the conservation of energy. The intensity at Earth is approximately 1500 W/m2, and since Jupiter is 5.4 times farther from the Sun, the intensity can be determined using the surface area of a sphere formula. The area of interest is not the planets themselves but rather the spherical surface area at Jupiter's orbital radius. Additionally, the discussion highlights a common mistake in calculations regarding the area formula, emphasizing the correct use of πR² for surface area. Understanding these principles allows for accurate calculations of solar intensity at different planetary distances.
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Homework Statement



The intensity of sunlight that reaches the Earth's atmosphere is about 1500 W/m2. What is the intensity of the sunlight that reaches Jupiter? Jupiter is 5.4 times as far from the sun as Earth. [Hint: Treat the Sun as an isotropic source of light waves.]
____ W/m2

Homework Equations



I = power/area?


The Attempt at a Solution



How do you do this? they don't give you that much information. Are you suppose to assume Earth's area? or jupiter's area? or does the area even matter?
 
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While the intensity will change depending on the distance from the sun, the power will not due to conservation of energy.

HINT: Find the power of the light hitting everything at the distance of Earth. This is the same as the power of the light hitting everything at the distance of Jupiter.

HINT 2: The light radiates away spherically, so the light at a distance, r, from the sun, impinges on a spherical surface of radius, r. The area you will be concerned with is the area of that surface.
 
Last edited:
does this depend on the area of Earth and jupiter?
 
Jtappan said:
does this depend on the area of Earth and jupiter?

I added an extra hint above about the area. Does that help, or are you still confused about the area?
 
so it is the area of jupiter? and is it assumed that we know the radius of Jupiter to figure out the problem?
 
Jtappan said:
so it is the area of jupiter? and is it assumed that we know the radius of Jupiter to figure out the problem?

No, we are not talking about the area of either one of the planets, but rather the area of the "imaginary sphere" centered at the sun with a radius equal to the radius of orbit of the planets.

Think about it like this:

The light that is hitting the Earth is also hitting every other point that far away from the sun, i.e. every point on a sphere of radius equal to the distance from the Earth to the sun. The area you are concerned with is the surface area of this sphere. The same goes for when the light gets to Jupiter's distance.

You should be able to look up the distance from the Earth to the Sun and from Jupiter to the Sun.

Does this help?
 
Yea thank you so much for your help! I was doing my math wrong a few times and that's where i got confused. I was doing 2piR instead of pi R^2.
 
I have another quick question that you may be able to answer...

The Sun emits electromagnetic waves (including light) equally in all directions. The intensity of the waves at the Earth's upper atmosphere is 1.4 kW/m2. At what rate does the Sun emit electromagnetic waves? (In other words, what is the power output?)
____ WIs this the same type of problem??
 
Yes, this question follows along the same lines.
 

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