Comparing power output of Solar Panels/cells

AI Thread Summary
The discussion focuses on comparing the power outputs of solar cells and solar panels through experimental methods. For solar cells, power is measured using a voltmeter and ammeter, while solar panel output is assessed by heating water in a beaker. The importance of load resistance in maximizing power output from solar cells is highlighted, along with the need to consider the duration of heating when comparing energy outputs. Additionally, the impact of light reflection and the color of the beaker on heat absorption is discussed. Overall, understanding the relationship between light wavelengths and power output is crucial for accurate comparisons.
jonnyrocks
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Homework Statement


The task is to compare the power outputs of solar cells, and solar panels. For solar cells, a circuit is devised to work out the power, solar panels a beaker of water is heated.

Homework Equations


Power=voltagextime
Q=mc(delta)T
Power=Energy/time

The Attempt at a Solution


Here is a scan of my two circuits at the moment
(The link is in my signature, it won't let me post it here ;) 0
For the solar cell, i will use the voltmeter and ammeter to work out the power. However, not sure if a resistor is nnecessary, will it affect the measured output power?

Also, how would I make the experement more accurate? I've already got mirrors to reflect as much light as possible, but would making thew beaker black absorb more light? Aditionally, am I right in thinking that 100g of water = 100ml?

Finally, would I have to multiply the powewr output for the cells by the length of time the solar panel is heating?


Thanks very much!
 
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Heres the scan:
 

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To measure the the output of the solar cell you have to connect a load and measure the current that goes through it and the voltage across it. You have to try different resistances as load to see what the value of the load resistance is that maximizes the power.

Energy = Power * Time, so you do have to multiply the power of the solar cell to compare it to the heat added to the water.
 
Hi,

Solar cells generate an electrical current when light hits their surface. White light that we see from the Sun includes all colors of the visible spectrum and ranges in wavelength from about 400 nanometers (nm) to about 780 nm. Solar cells vary in their response to different wavelengths, or color, of light.

A solar panel will output different levels of power depending on the color and wavelength of the incoming light.
 

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