Gas has a tremendously lower density than solids or liquids. If you want a lot of nitrogen in a given volume, you are much better off using ammonia than air. It is also not impossible to make nitric acid from atmospheric nitrogen, but it is not as easy as using ammonia, and we usually prefer to do things the easy way.
Atmospheric nitrogen can enter the ground through nitrogen-fixing bacteria that convert atmospheric nitrogen into a form that plants can use. It can also be deposited into the ground through rainfall as nitric acid or ammonium ions.
Nitric acid does not form the anhydride but dinitrogen penta oxide is theoretical anhydride of nitric acid.2HNO3 = N2O5 + H2O==========No. From the Wikipedia article on nitrogen pentoxide:N2O5 was first reported by Deville in 1840, who prepared it by treating AgNO3 with Cl2.Therefore, nitrogen pentoxide is the anhydride of nitric acid.
Nitric acid (HNO3) contains the elements hydrogen, nitrogen, and oxygen.
The oxidation number of nitrogen in nitric acid (HNO3) is +5.
Carbon is not typically found in nitric acid. Nitric acid is composed of nitrogen, oxygen, and hydrogen atoms. Carbon can react with nitric acid to produce carbon dioxide, water, and nitrogen oxides.
Atmospheric nitrogen can enter the ground through nitrogen-fixing bacteria that convert atmospheric nitrogen into a form that plants can use. It can also be deposited into the ground through rainfall as nitric acid or ammonium ions.
Nitric acid does not form the anhydride but dinitrogen penta oxide is theoretical anhydride of nitric acid.2HNO3 = N2O5 + H2O==========No. From the Wikipedia article on nitrogen pentoxide:N2O5 was first reported by Deville in 1840, who prepared it by treating AgNO3 with Cl2.Therefore, nitrogen pentoxide is the anhydride of nitric acid.
Nitric acid (HNO3) contains the elements hydrogen, nitrogen, and oxygen.
The oxidation number of nitrogen in nitric acid (HNO3) is +5.
Carbon is not typically found in nitric acid. Nitric acid is composed of nitrogen, oxygen, and hydrogen atoms. Carbon can react with nitric acid to produce carbon dioxide, water, and nitrogen oxides.
Nitric acid is not actually only one element! It is a compound of three elements in order to give this acid. The elements are: Nitrogen, Hydrogen and Oxygen. Hence, Nitrogen Hydroxide: Nitric Acid!
Yes, nitric acid (HNO3) is formed in the atmosphere when nitrogen dioxide (NO2) reacts with oxygen (O2) and water (H2O) to form nitric acid. This process occurs as a result of atmospheric pollution, leading to the formation of acid rain, which can have detrimental effects on the environment.
Nitrogen oxides can react with water in the atmosphere to form nitric acid. This nitric acid can then react further with sulfur dioxide to form sulfuric acid. This process is known as the formation of acid rain, which can have harmful effects on the environment and human health.
Nitrogen is not used to make acids itself, but it can be found in some acids such as nitric acid. Nitric acid is produced through the oxidation of ammonia, which contains nitrogen atoms.
There are three elements in nitric acid: hydrogen, nitrogen, and oxygen.
Nitric Acid
Sulfuric acid and nitric acid are the two primary acids produced in rain clouds through the reaction of sulfur dioxide and nitrogen oxides with atmospheric moisture. This leads to the formation of acid rain which can have harmful effects on the environment.