There are huge environmental affects of deplete in ozone. Global warming is one such.
Not all fluorocarbons contain the halogens chlorine or bromine. Only those compounds that contain chlorine or bromine can have adverse effects on ozone.Fluorocarbons are sometimes present in the ozone layer as both chloro- and bromo- fluoridated species. Of the three halogen species present (fluorine, chlorine, and bromine) only the chlorine and bromine participate in the breakdown of ozone. Due to its stability in compounds, fluorine has no known adverse impact on ozone. Bromine is from 10 to 100 times more impactful than chlorine.The process of ozone degradation is the release of chlorine or bromine from the source molecule by the action of sunlight. These free radicals convert ozone to oxygen and atomic oxygen. The atomic oxygen can free more chlorine or bromine. Because the CFC's are just a catalyst in the reaction, they can continue to deplete the ozone layer for some time.
Reduced ozone layer causes skin cancer. It can also cause eye cataract.
Some gaseous products of human activity can reduce the about of ozone in the upper atmosphere, thus decreasing the effectiveness of the ozone layer in shielding the surface of the planet from ultraviolet radiation.
Ozone is increased by various natural factors. Thunders and UV are some of them.
Earth has an ozone layer in atmosphere. It is present in the stratospheric region. Other planets which have oxygen in their environment might have ozone.Some planets like earth do. Others might have.
The release of CFC's lead to ozone layer depletion. It reacts with ozone to deplete it.
CFC's cause ozone destruction. They react with ozone to deplete it.
CFC's are responsible for ozone depletion. They react with ozone and deplete it.
Appliances deplete ozone. Refrigerators, Air conditions are examples of some.
The layer is heated. Some oxygen, nitrogen, and ozone molecules are destroyed. Ozone is made. This is how the ozone layer returns after the polar winters deplete the layer. Lack of sunlight is the major issue with ozone depletion and the ONLY method that allows the ozone to return.
Flurocarbons react with ozone and deplete it. It causes various adverse effects.
Ozone is depleted everywhere. Some of the contaminats that deplete ozone in the hole, making it larger, starting sooner, and getting larger / deeper, also deplete ozone everywhere. Ozone has been depleting since the 1700s, not just since the invention of CFCs (after 1920). The ozone hole is just a symptom of overall ozone layer health.
Not all fluorocarbons contain the halogens chlorine or bromine. Only those compounds that contain chlorine or bromine can have adverse effects on ozone.Fluorocarbons are sometimes present in the ozone layer as both chloro- and bromo- fluoridated species. Of the three halogen species present (fluorine, chlorine, and bromine) only the chlorine and bromine participate in the breakdown of ozone. Due to its stability in compounds, fluorine has no known adverse impact on ozone. Bromine is from 10 to 100 times more impactful than chlorine.The process of ozone degradation is the release of chlorine or bromine from the source molecule by the action of sunlight. These free radicals convert ozone to oxygen and atomic oxygen. The atomic oxygen can free more chlorine or bromine. Because the CFC's are just a catalyst in the reaction, they can continue to deplete the ozone layer for some time.
CFC's have destroyed the ozone. They react with ozone to deplete it.
Reduced ozone layer causes skin cancer. It can also cause eye cataract.
There is no actual break in the ozone layer. The "hole" is an annual event above the poles caused by the lack of sun reaching the ozone layer. CFC's are believed by some to cause a contributing change in this layer. The lagest "hole" recorded occurred decades before CFC's were created. The primary cause for ozone is lack of sun, not any gas.
Some do, some don't. It is because of the care of some people towards environment.