Unexploited Photons: What Happens to Solar Energy?

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In summary, if there are no photovoltaic panels to convert solar radiation into electrical energy, the photons would either be absorbed by the roof and transformed into heat or reflected back into space. The absorbed photons would heat up the roof and eventually be emitted as infrared radiation, while the reflected photons would take their energy elsewhere. Different wavelengths of light can have different effects, such as UV light causing sunburns and breaking down materials.
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Kyurius
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While I’m waiting until I can afford some photovoltaic panels, I wonder what is happening to all the photons pummeling my roof now?
If the (light) energy from one square cm of solar radiation is converted into electrical energy and then converted to heat by Aunt Matilda's blow-dryer, what would have otherwise happened to the energy from those same photons - if Matilda had not hired Green Inc. to install all those shiny, black rectangles on her roof?
Would they have been absorbed by the roof? If so, presumably they would not make Matilda's house glow in the dark. So, they would somehow be transformed into heat, or some other form of energy?
Would they have bounced back into space, taking their energy with them?
 
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Kyurius said:
Would they have been absorbed by the roof? If so, presumably they would not make Matilda's house glow in the dark. So, they would somehow be transformed into heat, or some other form of energy?
They would have heated the roof and the energy gone into heating the Earth, the Earth would then have emmitted that heat as infrared photons back into space
 
  • #3
The photons are either absorbed or reflected by the roof. Those that are absorbed will heat up the roof, which will release photons as infared radiation. We can't see the wavelength of light that is in the infared range with our eyes, but there are several instruments that can see it and turn it into a picture on a screen for us to interpret.

Those that are reflected take their energy with them to be absorbed or reflected elsewhere. Note that this only applies to visual and infared photons. Longer and shorter wavelengths are still absorbed or reflected, but can have different effects other than simply heating something. UV light has enough energy to strip electrons off of atoms and ionize them, which is what causes sunburns and breaks down certain materiels such as plastics and paints. (Which is why things that are left out in the sun tend to fade over time)
 

Related to Unexploited Photons: What Happens to Solar Energy?

1. What are unexploited photons?

Unexploited photons refer to solar energy that is not being harnessed and converted into usable electricity. These are the photons that are not captured by solar panels and are lost as heat or reflected back into the atmosphere.

2. Why is it important to study unexploited photons?

Studying unexploited photons is important because it can help us understand how to improve the efficiency of solar energy systems. By understanding where and why these photons are lost, we can develop better technologies to capture and utilize them.

3. What happens to unexploited photons?

Unexploited photons can either be absorbed by materials, reflected back into the atmosphere, or converted into heat. The exact fate of the photons depends on the type of material they encounter and the environmental conditions.

4. How can we capture and utilize unexploited photons?

There are several ways to capture and utilize unexploited photons. One method is to use more efficient solar panels that can capture a wider range of wavelengths. Another approach is to use reflective materials to redirect the photons towards the solar panels. Additionally, new technologies such as solar concentrators and photovoltaic-thermal systems are being developed to capture and utilize unexploited photons.

5. What are the potential benefits of harnessing unexploited photons?

If we are able to capture and utilize unexploited photons, we can significantly increase the efficiency of solar energy systems. This means that more clean and renewable energy can be produced, reducing our reliance on fossil fuels and decreasing our carbon footprint. It can also lead to lower energy costs for consumers and a more sustainable energy future.

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