violently. does that need clarification?
Ozone layer is formed by UV radiations. These UV rays decompose oxygen to 2 nascent oxygen which reacts with oxygen to form ozone.
When water reacts with carbide, it produces acetylene gas and calcium hydroxide. The acetylene gas is highly flammable and can be used in welding torches, while the calcium hydroxide is a byproduct of the reaction and is often discarded as waste.
Calcium acetylene and calcium carbide are not the same. Calcium carbide is a chemical compound composed of calcium and carbon, while calcium acetylene is a gas produced when calcium carbide reacts with water. Calcium carbide is commonly used in the production of calcium acetylene for welding and cutting applications.
As the concentration of chlorine rises, the concentration of ozone decreases. This is because chlorine reacts with and depletes ozone molecules in the stratosphere through a chain reaction known as ozone depletion.
As chlorine concentration rises, the concentration of ozone in the atmosphere decreases. This is because chlorine reacts with ozone, breaking it down into oxygen molecules, thereby depleting the ozone layer.
Ozone and acetylene
Ozone is destructed by CFC's. It reacts with ozone to deplete it.
CFC's cause depletion of ozone. It reacts with ozone to deplete it.
The ozone in hole is caused by CFC's. It reacts with ozone and deplete it.
The stratospheric ozone is destroyed by CFC's. It reacts with ozone to deplete it.
The gas responsible for ozone depletion is CFC. It reacts with ozone to deplete it.
Chlorine atom reacts with ozone. It destroys 100,000 atoms of ozone.
Chlorine causes the ozone depletion. It reacts with ozone to deplete it.
Process of ozone destruction is a chemical process. Chlorine there reacts with ozone.
CFC's react with ozone. They decompose it and deplete it.
Calcium carbide reacts with water to form acetylene gas
Yes, that's correct. When calcium carbide reacts with water, it produces acetylene gas along with calcium hydroxide as a byproduct. This reaction is commonly used in welding and metal cutting applications due to the high temperature flame produced by burning acetylene gas.