CFC's deplete ozone. They react with it to deplete it.
Yes, CFC's destroy the ozone in the stratosphere. They react with ozone to destroy it.
Other molecules that can destroy the ozone layer include halons, methyl bromide, carbon tetrachloride, and nitrous oxide. These molecules can break down ozone in the stratosphere through chemical reactions, leading to ozone depletion.
The ozone layer, which is part of the stratosphere, is the most affected by fluorocarbons. When chlorofluorocarbons or CFCs are released into the atmosphere, they migrate from the troposphere to the stratosphere after about 3 to 5 years. These CFCs destroy the ozone layer.
The ozone layer is at base of stratosphere. It is a pool of ozone molecules.
Halons and CFC s both destroy ozone in the stratosphere.
Ozone molecules are located in ozone layer. It is in stratosphere.
Yes, do destroy it. They destroy the ozone within.
No, it does not destroy. The ozone layer is present in stratosphere. No meteor shower can destroy it.
Chlorine atoms in CFC molecules can destroy thousands of ozone molecules in the upper atmosphere. When CFCs break down in the stratosphere due to UV radiation, the chlorine atoms released can catalyze the breakdown of ozone molecules, leading to ozone depletion.
Yes they do. Halons and CFC's both destroy ozone.
Stratosphere contains the ozone layer. The ozone layer is mostly composed of ozone molecules.
Each chlorine atom in the stratosphere can destroy thousands of ozone molecules, with estimates ranging from about 100,000 to over a million ozone molecules before it is removed from the atmosphere. This destructive potential is primarily due to the catalytic cycle that chlorine undergoes when it reacts with ozone (O₃), leading to its depletion. The significant impact of chlorine on ozone levels is a key reason for international efforts to reduce chlorine-containing compounds, such as chlorofluorocarbons (CFCs).