Only on Thursadyas
UV-C and UV-B, as most of the more energetic wavelengths are gone before the ozone layer. credit goes to ANSWERS
No, it doesn't. It only absorbs UV rays.
it is a problem because the electromagnetic waves (radiowaves, microwaves, infared,visible light, ultra violet light, x rays and gamma-rays) are stopped by the ozone layer making the waves not so penetrating and harmful to people. if the ozone layer was reduced, the amount of electromagnetic waves getting through/penetrating the ozone layer would be greater, making the risk of retinal damage, cell damage sunburn and diseases like cancer more common.
Before i answer this,i must remind you that its supposed to be (ozone layer)ans:Yes, the gases in the ozone layer (and elsewhere in the atmosphere, to a smaller extent) filter out UV-B and more energetic light.Oxygen and nitrogen are the primary absorbers of UV-C and more energetic light (X-rays, gamma rays from space), and they do this completely by the lower stratosphere. One side effect of their absorption of this light, is they make ozone. This ozone is concentrated here, since it is unstable, and the "ozone layer" is formed. Some recombines into N2O*, which later forms either ozone or more stable NOx (if it encounters water vapor first). Some single oxygen atoms encounter O2 and make ozone directly.Ozone absorbs UV light shorter than 260 nm or so. This includes UV-B, UV-C and more energetic light. Only ozone in our atmosphere absorbs UV-B, which would otherwise be stopped only by soil, meters depth of water, or the DNA of all surface life on Earth.Additionally, the natural and Man-made "greenhouse gases" in our atmosphere (carbon dioxide, water vapor, ozone, for examples), serve to allow visible light and UV-A in to Earth's surface, but moderate the transmission of infrared light back to space... keeping Earth a tad bit warmer than it would otherwise be without an atmosphere.Long wave UV (UV-A) and visible light always gets through the ozone layer. As the ozone layer is thinned, additional energetic UV (UV-B) gets through, which will cause problems down here on the surface.As UV is absorbed, and used in a reaction O3 + uv light = O + O2 ,Ozone directly absorbs UV-B and either becomes oxygen, or becomes ozone again, with the light scattered again in random directions.When UV hits the Ozone (O3) it is 'absorbed,' meaning the energy is used to split the ozone into Oxygen gas (O2) and an Oxygen free radical (O). The remaining energy from the UV light is re-emitted as infra-red (heat).O3 + UV-B -> O2 + OThe Ozone layer is situated on the upper stratosphere. Ozone (O3) is very unstable gas. Ozone is the only gas in our atmosphere that absorbs UV-B.Oxygen and nitrogen molecules absorb UV-C and more energetic light, and later recombine in different forms. Oxygen atoms sometimes recombine to form ozone, and this primarily occurs in the lower stratosphere... and forms the ozone layer.Oxygen and nitrogen protect us from very short wave UV, by absorbing the light and breaking apart.Similarly, ozone has an extra resonance (than its parent oxygen), and can absorb less energetic UV, stuff that still causes cancer, and ozone breaks apart into oxygen gas and a oxygen atom looking for a place to land.Infrared radiation such as the sun which is blocked by the ozone layer. Such as why to much time in the sun will give you skin cancer. Also it reminds you of when you go to the dentist, whoever is taking your x-ray never stays in the same room and that is why they put a huge metal pad over you. If they did not, it might give them cancer.Oxygen and nitrogen absorb UV-C. Some of the "shattered" oxygen forms ozone. The UV-C mostly ends up as both heat, and re-emitted as less energetic light in a random direction.Ozone absorbs UV-B (and some UV-C). The UV-B mostly ends up as heat, and re-emitted as less energetic light in a random direction. Some of the ozone is destroyed in the process of absorbing UV-C or UV-B, and little of it reforms as ozone.Since atmospheric gases have very low absorptivity / emissivity at visible and IR wavelengths, they do not contribute to heating the surface of the Earth to any great extent. Ozone does have some limited resonance in the IR range, which is why it is called a greenhouse gas too. But it has very low concentration.See "Is UV radiation filtered out by the ozone layer?"
Ozone, on the surface of earth is a corrosive and poisonous gas but at the height of 20-50 km from the Earth i.e. in the earth's atmosphere, becomes vital to life as it absorbs almost all u.v. radiations which are harmful to living things.
The atmosphere does not filter X-rays. It does filter ultraviolet radiation, in the ozone layer.
UV-C and UV-B, as most of the more energetic wavelengths are gone before the ozone layer. credit goes to ANSWERS
The stratosphere and the thermosphere are the two layers of the atmosphere that heat up because they absorb high-energy rays from the sun. The ozone layer in the stratosphere absorbs UV radiation, while the thermosphere absorbs extreme ultraviolet and X-ray radiation.
Ozone layer. I think it's the UV light that the ozone stops. I think X rays are prevented from reaching Earth's surface by the lower atmosphere.
X-rays and gamma rays from the sun are black by the atmosphere. The ozone layer partially blocks out ultraviolet rays, but some do get through, creating a risk of sunburn, skin cancer, and eye damage.
Cancer begins when Uv rays, gamma rays, and x-rays from the sun get to you. Since the Ozone layer is lessoning, more of these harmful rays can hit you, causing more cases of cancer to happen.
No because if O3 (ozone)layer was not present we would have been suffering from various skin diseases,affecting food chain and not only that we cannot live on this earth without this layer as all kind of sun rays such as U.V rays,X rays would reach the surface causing it too heat prohibiting man life on earth.
No, it doesn't. It only absorbs UV rays.
Ultraviolet radiation is absorbed by ozone in the ozone layer. Low-energy (long wavelength) radiation, including infrared, microwave, and radio waves, is typically deflected by atmospheric particles.
lead
Gamma rays and X-rays will pass right through paper (which will stop alpha rays) and aluminum sheets (that will stop beta rays), but can be stopped by a thick layer of concrete, lead, or other substances having sufficient mass.
because absorb x-rays