it will decrease
The formation of ammonia from nitrogen may be spontaneous, but enthalpy alone can't be used to make that decision
Nitrogen and hydrogen react to form ammonia. This is the reaction in the Haber process, in which the gases are mixed at high pressure and moderately high temperature and passed over an iron catalyst.
Ammonia has a nitrogen with a lone pair and three hydrogens, so shouldn't there be extensive hydrogen bonding between molecules? I mean one hydrogen would attach to a nitrogen from ammonia and the next one would attach to another nitrogen from ammonia, etc
No. There are several oxides of nitrogen; none of which are ammonia. Ammonia is NH3, a compound of nitrogen and hydrogen.
Nitrogen and hydrogen.
The formation of ammonia from nitrogen may be spontaneous, but enthalpy alone can't be used to make that decision
The production of ammonia by bacteria during the decay of nitrogen-containing urea is called nitrogen cycle. The process of combining nitrogen gas with hydrogen to form ammonia is called nitrogen fixation.
By the Haber process, hydrogen gas reacts with nitrogen gas to produce ammonia.
Nitrogen and hydrogen react to form ammonia. This is the reaction in the Haber process, in which the gases are mixed at high pressure and moderately high temperature and passed over an iron catalyst.
Yes. Ammonia is a compound of nitrogen and hydrogen.
Ammonia has a nitrogen with a lone pair and three hydrogens, so shouldn't there be extensive hydrogen bonding between molecules? I mean one hydrogen would attach to a nitrogen from ammonia and the next one would attach to another nitrogen from ammonia, etc
Metaloids are elements, ammonia is a compound consisting of nitrogen and hydrogen. Nitrogen and hydrogen are nonmetals.
No. There are several oxides of nitrogen; none of which are ammonia. Ammonia is NH3, a compound of nitrogen and hydrogen.
Ammonia is a non-metal because it consists of nitrogen and hydrogen which are both non-metals.
Nitrogen and Hydrogen
Nitrogen and hydrogen
Nitrogen and hydrogen.