When chlorine water is exposed to direct sunlight, it undergoes a photochemical reaction that produces free radicals like chlorine atoms. These radicals react with water to form hydrochloric acid and hypochlorous acid. The hydrochloric acid is produced as a result of the chlorine radicals combining with water molecules.
chlorine water + sunlight gives chlorine and oxygen in normal STP conditions .
When chlorine water is exposed to sunlight, it can undergo a reaction that produces hydrochloric acid and oxygen gas. This reaction is a form of photochemical decomposition, where the energy from sunlight breaks down the chlorine water into its constituent elements.
Without sunlight, chlorine in water will slowly dissipate through evaporation, reacting with organic matter or forming chloramines. This process can take longer compared to when exposed to sunlight, as the degradation of chlorine is accelerated by UV radiation.
Oxygen gas is evolved when chlorine is passed into water and subsequently exposed to sunlight, which causes the chlorine to react with water, releasing oxygen and forming hypochlorous acid.
Yes! Once cfc's are released into the atmosphere the travel into the statosphere where they linger for hundreds of years & under the influance of sun light a chlorine atom is released from the cfc molecule.
explain the effects of the sunlight striking earth
Polar stratospheric clouds can convert the products of CFCs (chlorofluorocarbons) into reactive forms that contribute to ozone depletion. The chlorine released from CFC molecules in the presence of sunlight can react with ozone molecules in the stratosphere, leading to ozone destruction. This process can further exacerbate the thinning of the ozone layer.
When chlorine water is exposed to direct sunlight, it undergoes a photochemical reaction that produces free radicals like chlorine atoms. These radicals react with water to form hydrochloric acid and hypochlorous acid. The hydrochloric acid is produced as a result of the chlorine radicals combining with water molecules.
When CFCs (chlorofluorocarbons) break down in the atmosphere due to factors like sunlight, they release chlorine molecules. These chlorine molecules then catalyze the breakdown of ozone molecules in the stratosphere, leading to the depletion of the ozone layer. This depletion allows more harmful ultraviolet rays from the sun to reach the Earth's surface, posing risks to human health and the environment.
chlorine water + sunlight gives chlorine and oxygen in normal STP conditions .
When chlorine water is exposed to sunlight, it can undergo a reaction that produces hydrochloric acid and oxygen gas. This reaction is a form of photochemical decomposition, where the energy from sunlight breaks down the chlorine water into its constituent elements.
Without sunlight, chlorine in water will slowly dissipate through evaporation, reacting with organic matter or forming chloramines. This process can take longer compared to when exposed to sunlight, as the degradation of chlorine is accelerated by UV radiation.
Oxygen gas is evolved when chlorine is passed into water and subsequently exposed to sunlight, which causes the chlorine to react with water, releasing oxygen and forming hypochlorous acid.
Do you mean elemental chlorine, or the "chlorine" that's used in swimming pools?Sunlight can break down swimming pool "chlorine". For that matter, it can break down elemental chlorine also, into two chlorine free radicals, which are much more reactive than elemental chlorine (which is, itself, kinda reactive). Sunlight can cause a mixture of elemental chlorine and elemental hydrogen to explode.Free radical chlorine is serious business. It's one of the prime culprits in the degradation of the Earth's ozone layer.
Chlorofluorocarbons (CFCs) are the main gases responsible for the depletion of the ozone layer. When released into the atmosphere, CFCs break down under the influence of sunlight and release chlorine atoms, which can then catalyze the destruction of ozone molecules.
When chlorine water is exposed to sunlight, it can produce a mixture of chemicals including hypochlorous acid, hydrochloric acid, and oxygen. In the presence of organic matter, additional byproducts such as chloroform and other disinfection byproducts may also form.