How Efficient Is a Solar Panel at Converting Sunlight to Electricity?

AI Thread Summary
The solar panel measures 58 cm x 53 cm and generates 2.7A at 14V, resulting in a power output of 37.8W. The sunlight delivers 1.0 x 10^3 W/m^2, and the panel's area is 0.307m^2, leading to a total solar power input of 307.4W. The efficiency of the panel is calculated by dividing the power output by the solar power input, yielding an efficiency of 12.3%. The discussion confirms that this calculation is correct, emphasizing that efficiency cannot exceed 100%.
BillJ3986
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Homework Statement


A solar panel (an assemblage of solar cells) measures 58 cm x 53 cm. When facing the sun, this panel generates 2.7A at 14V. Sunlight delivers an energy of 1.0 x 10^3 W/m^2 to an area facing it. What is the efficiency of this panel, that is, what fraction of the energy in sunlight is converted into electric energy?


Homework Equations


Am I doing this problem correctly


The Attempt at a Solution


The power delivered by the panel is P(delivered)= I x V= 2.7A x 14V= 37.8 W
For the power delivered by sunlight I multiplied 1.0 x 10^3 W/m^2 by the area of .58m x .53m:
so the area equals .307m^2.
1.0 x 10^3 W/m^2 x .307m^2= 307.4 W delivered by the sun.

So I needed to find the fraction of energy in sunlight that is converted into electric energy. I did that by dividing 37.8W/307.4. The fraction of energy converted is .123 or 12.3%.

Or is the answer 307.4/37.8= 8.13?

I'm not sure which is the right answer or if it I did it correctly please let me know.
 
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BillJ3986 said:
So I needed to find the fraction of energy in sunlight that is converted into electric energy. I did that by dividing 37.8W/307.4. The fraction of energy converted is .123 or 12.3%.
Looks good to me.

Or is the answer 307.4/37.8= 8.13?
No, you want the fraction of the energy in the sunlight that is converted to electrical energy. Your first answer was correct. (Efficiency could never be greater that 1 or 100%,)
 
Thank you.
 
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