So why does the atmosphere block gamma rays but not UV rays?

In summary, the window in the atmosphere for UV rays is determined by how different levels of energy in various frequencies interact with different molecules in the atmosphere. For example, the ozone layer mostly absorbs UV rays, while water vapor absorbs infrared rays. Visible light falls in between and is too energetic to excite oxygen, but not enough to excite molecular vibrations in air. Due to the varying composition of the atmosphere, there are different areas that absorb different types of electromagnetic radiation. By the time it reaches the surface, much of the EMR has been absorbed.
  • #1
jaydnul
558
15
Or light rays for that matter. Where does the window open in the atmosphere on the em spectrum, UV? Why is that?
 
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  • #2
it has to do with the how the various levels of energy in different frequencies interact with the various molecules in the atmosphere

for example, UV rays are mostly absorbed by the ozone layer http://en.wikipedia.org/wiki/Ozone_layer

infrared rays are apparently most absorbed by water vapor

visible light is apparently low enough energy to not excite oxygen, but too energetic to excite molecular vibrational frequencies of molecules in air.

http://en.wikipedia.org/wiki/Electr...absorption_of_EMR_in_the_Earth.27s_atmosphere
since the atmosphere is not the same everywhere, there are different places that absorb different kinds of EMR. But by the time you get to the surface, a lot of it has been absorbed.
 

1. Why do gamma rays have a shorter wavelength than UV rays?

Gamma rays have a shorter wavelength because they have a higher frequency and energy compared to UV rays. This means they have a shorter distance between each wave crest, resulting in a shorter wavelength.

2. How does the atmosphere block gamma rays?

The Earth's atmosphere is made up of gases, such as nitrogen and oxygen, which act as a shield against gamma rays. These gases absorb and scatter the gamma rays, preventing them from reaching the Earth's surface.

3. Does the atmosphere block all gamma rays?

No, the atmosphere does not block all gamma rays. Some gamma rays are able to penetrate the atmosphere, but they are greatly reduced in intensity by the time they reach the Earth's surface.

4. Why are gamma rays more harmful than UV rays?

Gamma rays are more harmful than UV rays because they have a higher energy and can penetrate deeper into living tissues. This can cause damage to cells and DNA, leading to an increased risk of cancer and other health problems.

5. Can UV rays also be harmful to living organisms?

Yes, UV rays can also be harmful to living organisms. While they have a lower energy compared to gamma rays, UV rays can still cause damage to skin cells and increase the risk of skin cancer. This is why it is important to protect oneself from UV rays by wearing sunscreen and protective clothing.

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