Ozone and the challenges of the times

Ozone gas is found mainly in a stratosphere, whose presence is due to many interactions between atomic and molecular oxygen. The ozone gas does not stay in place, but after a period of time it disintegrates due to the sun's rays, then turns into particles, Layer of ozone.
Ozone is one of the gases in nature. It is characterized by its blue color. It contains three atoms of oxygen. It is symbolized by O3 in the chemical formula. Its transparent color is 1% of the million in the atmosphere because it contains toxic and harmful substances.

The presence of ozone gas in the lower layers causes damage to the body, as opposed to its presence in the upper atmosphere. It causes weakness in the lungs and thus leads to cell breakdown. It also eliminates polymers and rubber, especially tires. Its presence in the lower layers of the earth, perhaps the most important air pollution exhaust cars, and smoke factories.

Step 1: The binary UV rays in the oxygen molecules break down, leading to two strong and active oxygen peaks.
Step 2: The oxygen atoms combine with the active oxygen molecules, causing the ozone part, which is symbolized by O3, and the process continues several times.
The importance of ozone gas reduces the possibility of ultraviolet rays penetrating the earth, where only a small percentage of the radiation needed by humans is allowed.

It treats cirrhosis of the liver and lung, in addition to it is used to treat atherosclerosis and arteriosclerosis. Maintains the health of the respiratory system and thus protects against asthma and allergies. Addresses AIDS. Maintains the health of the brain, due to its effective ability to regenerate its cells. It protects against Alzheimer's and dementia. It treats digestive system parasites, constipation, blood pressure, and wounds. Improves mood and thus protects against depression. Maintains drinking water and makes it usable.

Ozone depletion is due to the release of satellites or missiles in the atmosphere. One missile contains 187 tons of chlorine gases and 17 tons of nitrogen oxide, which in turn causes damage to the ozone layer. Increase the proportion of aircraft exhaust in the upper atmosphere. Various nuclear explosions, occurring in the upper atmosphere. Excessive use of pesticides, detergents containing chemicals, as well as air fresheners. Hydrochlorofluorocarbon gas leakage, which is used for cooling.