No, but the bacteria and fungi doing the decomposition produce many gases including ammonia, carbon dioxide, hydrogen sulfide, and many worse smelling ones.
A small portion ammonia, but most does not. Ammonia is a compound composed of nitrogen and hydrogen. When your body decomposes, much of the mass becomes carbon dioxide and water. Some if it goes into more complex compounds found in the organisms doing the decomposing.
NH3 (ammonia) can form when nitrogen gas (N2) reacts with hydrogen gas (H2) in the presence of a catalyst, such as iron. The reaction is commonly known as the Haber process and is used to produce ammonia on an industrial scale. Ammonia is a colorless gas with a pungent odor and is commonly used in fertilizers, cleaning products, and as a refrigerant.
Ammonia gas when dissolved in water produce Ammonium hydroxide so its solution is basic.
Burning of coal, oil (including gasoline), and natural gas to produce carbon dioxide. Also decomposing of vegetable and animal matter to produce methane.
Ammonia is a gas at room temperature.
Ammonia is highly toxic to human beings. Though the scientists are not able to identify the cause of the toxicity but they have certain speculations. The ammonia toxicity finally leads to a state called as comatose state that is accompanied by cerebral edema (increase in the water content of cerebrum.
Ammonia factories produce the gas ammonia (NH3).
all ammonium salts react with bases to produce water, salt and ammonia gas
By the Haber process, hydrogen gas reacts with nitrogen gas to produce ammonia.
No because ammonia and chlorine gas react together, as well as ammonia and bleach. So in other words, you cannot produce a chlorine gas with something that is meant to react to it.
ammonia
3h2 + n2 = 2nh3
when ammnia gas is dissolved in water, NH4+ and OH- produce
yes to produce ammonia gas, salt and water
One way to test a gas to identify it as an HCL gas is to dip a glass rod in ammonia and place it in the gas. If a white smoke is produced, the gas is HCL gas.
NH3 (ammonia) can form when nitrogen gas (N2) reacts with hydrogen gas (H2) in the presence of a catalyst, such as iron. The reaction is commonly known as the Haber process and is used to produce ammonia on an industrial scale. Ammonia is a colorless gas with a pungent odor and is commonly used in fertilizers, cleaning products, and as a refrigerant.
Ammonia gas when dissolved in water produce Ammonium hydroxide so its solution is basic.
Burning of coal, oil (including gasoline), and natural gas to produce carbon dioxide. Also decomposing of vegetable and animal matter to produce methane.