Gas devolve reactions are exothermic. So it is a exothermic too.
Previous answer: ExothermicEdit by a concerned member of the community: Reaction of ammonia with WHAT?
Alkaline, Acid, True Acid, Exothermic, Endothermic, Ammonia-Free, Thio-Free, Low-pH waves
Simply adding sulfuric acid to the ammonia solution will yield ammonium sulfate. The two will react naturally. Be sure to have your amounts and concentrations measured carefully so the reaction is as complete as possible. Pour the acid slowly as the reaction will be highly exothermic and may cause the solution to boil if not done carefully. The reaction equation is: H2SO4 + 2NH3 --> (NH4)2SO4
Exothermic reactions give out heat. some examples of exothermic reactions are : 1)burning fuel in a fire 2)the addition of acid to water 3)the thermite reaction(this one is quite a sight) 4)the haber process of producing ammonia Endothermic reactions take in heat from their environment. some examples of endothermic reactions are: 1)an ice cube melting 2)depressurising a can(responsible in part why deodorant feels cold) 3)dissolving ammonium nitrate in water 4)decomposition of mercury (II) oxide(this requires a lot of heat)
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Previous answer: ExothermicEdit by a concerned member of the community: Reaction of ammonia with WHAT?
Vinegar and baking soda can be combined for a good endothermic reaction. Bleach and ammonia can be combined in small amounts in a well-ventilated area for a good exothermic reaction (although there are actually several reactions going on simultaneously).
Alkaline, Acid, True Acid, Exothermic, Endothermic, Ammonia-Free, Thio-Free, Low-pH waves
In this reaction the forward reaction, the one making the ammonia, is exothermic meaning it gives off heat when it reacts and heats up the surroundings. The backward reaction is endothermic meaning it takes energy from the surroundings to break the bonds between the Nitrogen and Hydrogen. The exothermic reaction is making bonds. (If you need something to remember this by, snap something. You need to put energy in to break it so breaking chemical bonds needs energy put into it. Endothermic.) If you heat the reactants you are putting energy in so you are increasing the endothermic reaction which is the one breaking the bonds between the Nitrogen and Hydrogen. So by increasing the amount of ammonia that has been broken by heating the reactants and increasing the backward reaction you decrease your yield (the amount of ammonia you get at the end).
Simply adding sulfuric acid to the ammonia solution will yield ammonium sulfate. The two will react naturally. Be sure to have your amounts and concentrations measured carefully so the reaction is as complete as possible. Pour the acid slowly as the reaction will be highly exothermic and may cause the solution to boil if not done carefully. The reaction equation is: H2SO4 + 2NH3 --> (NH4)2SO4
Exothermic reactions give out heat. some examples of exothermic reactions are : 1)burning fuel in a fire 2)the addition of acid to water 3)the thermite reaction(this one is quite a sight) 4)the haber process of producing ammonia Endothermic reactions take in heat from their environment. some examples of endothermic reactions are: 1)an ice cube melting 2)depressurising a can(responsible in part why deodorant feels cold) 3)dissolving ammonium nitrate in water 4)decomposition of mercury (II) oxide(this requires a lot of heat)
Have you heard of Haber-Bosch process of production of ammonia. This is an example of the question you asked. If we apply the required heat in the beginning of the reaction we do not need to apply it again as its exothermic reversible reaction and will use the heat to continue the reaction. But the rate of reaction is not increased.
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A simple reaction: nitric acid plus ammonia solution.
because the particles of the ammonia are lighter so theyy movee faster
The salt formed in this reaction is ammonium hydroxide.
If you mix Ammonia as well as Hydrogen chloride, you will get ammonium chloride. It is given by NH3 (g) + HCl (g) → NH4Cl(s)