No. There are several oxides of nitrogen; none of which are ammonia. Ammonia is NH3, a compound of nitrogen and hydrogen.
The industrial production of ammonia is done from nitrogen gas, not nitrogen oxide. The reaction is-N(2) + 3H(2) ---> 2 NH(3)The process is called Haber Bosch process.
ammonia(Nitrogen+hydrogen) nitric acid nitrogen dioxide nitrous oxide amino acids & proteins cyanides
lead oxide changes to lead ,water and nitrogen gas is formed
Nitrogen fixation is one process by which molecular nitrogen is reduced to form ammonia. This complex process is carried out by nitrogen-fixing bacteria present in the soil.
Yes ammonia does burn in oxygen. On combustion it forms Nitrogen oxide and water. Reaction involved is-4NH(3) + 5O(2) ---> 4NO + 6H(2)O.
Commercially, NO (nitric oxide or nitrogen oxide) is produced by the oxidation of ammonia at between 750 °C to 900 °C using platinum as catalyst. I
The industrial production of ammonia is done from nitrogen gas, not nitrogen oxide. The reaction is-N(2) + 3H(2) ---> 2 NH(3)The process is called Haber Bosch process.
copper , nitrogen & water produced
ammonia(Nitrogen+hydrogen) nitric acid nitrogen dioxide nitrous oxide amino acids & proteins cyanides
nitrous oxide is manufactured by heating ammonia nitrate which decomposes into N2O and water vapor
The complete question: Lead (II) oxide reacts with ammonia forming solid lead nitrogen gas and liquid water. 1.)How many grams of ammonia are consumed in the reaction of 75.0g lead (II) oxide? 2.) If 56.4g of lead are produced how many grams of nitrogen are also formed?
2NH3 + 3CuO --> Cu3N2 + 3H2O-----------------------------------------
lead oxide changes to lead ,water and nitrogen gas is formed
In most cases hydrogen and oxygen form the compound ammonia (NH3), but they can also form hydrazine (N2H4).
Yes. Ammonia is a compound of nitrogen and hydrogen.
NO is the simplest oxide of nitrogen.
Nitrogen fixation is one process by which molecular nitrogen is reduced to form ammonia. This complex process is carried out by nitrogen-fixing bacteria present in the soil.