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Chlorine molecules will break down when exposed to UV light and create CL free radicals. CL molecules will freely colide with other molecules and create free radicals. I cannot find a specific reason for why CL doesn't decompose.
because no free radicals are involved in the reaction process only carbo cations and Cl- are evolved which are ionic !!!
Chloromethane is the product that is formed when methane and chlorine react with each other. Dichloromethane is another product that can also be formed when methane and chlorine react.
Rain. Or the combination of hydrogen and oxygen molecules. Could you be a little more vague?
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The main sources of chlorine radicals in the atmosphere are man-made chlorofluorocarbons (CFCs) and other halocarbons. These compounds are released into the atmosphere from activities such as refrigeration, air conditioning, and aerosol propellant use. Once in the atmosphere, sunlight breaks down these compounds, releasing chlorine radicals that can contribute to ozone depletion.
Chlorine radicals are formed by CFC's. They deplete the ozone layer.
It is a photochemical reaction; the diatomic molecule of chlorine is photochemically (under the action of photons) dissociated in chlorine radicals. Chlorine radicals react with the diatomic molecule of hydrogen to form hydrogen chloride (HCl). A radical chain reaction was initiated and is continued. For details you can read a very interesting article at the link below.
Chlorine molecules will break down when exposed to UV light and create CL free radicals. CL molecules will freely colide with other molecules and create free radicals. I cannot find a specific reason for why CL doesn't decompose.
By the reaction of hydrogen and chlorine gas HCl (Hydrochloric acid) may be formed. To bring about this reaction free radicals of hydrogen and chlorine in the ionic form are needed.
Over 80% of the chlorine found in the stratosphere comes from chlorofluorocarbons (CFCs). These compounds can break down in the upper atmosphere, releasing chlorine atoms that can then participate in ozone depletion reactions.
1. The most important part of the sodium and chlorine are dissolved from the earth salts and transported by rivers in seas/oceans.2. A small part of chlorine is originated from the eruptions of submarine volcanoes
Yes it does. Chlorine depletes the ozone layer.
The biggest and the most deadly by far is when chlorine radicals destroy ozone since the reduction in use of chlorofluorocarbons the amount of chlorine radicals being pumped into the atmosphere has decreased, but chlorine radicals cannot be destroyed by reactions unless they are with each other.cl and o3 (chlorine and ozone)become clo and O2 (chlorineoxide and oxygen)clo and 03become cl and 202 (chlorine radical and 2 oxygen)so ozone gets destroyed a lot and the cl is free againMy friend got all his chemistry assignment answer help from examville.com and if he needs any specific question to be answered that he just can't find on any site, he posts it on examville and gets the answer...cool site.
No, chlorine is not a main group metal. It is a halogen and is classified as a nonmetal in the periodic table.
CFC under UV irradiation produce chlorine radicals which contribute to the deomposition of ozone.
What is the main function for sulfur