HBr + NH3 --> Br- + NH4+
Ammonia is very well dissolved by acidic solution of hydrogen bromide being a gaseous base in acid solution.
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complete HCL(aq) + NH3(l) ---> NH4+(aq) + Cl-(aq) net ionic H+(aq) + NH3(aq) ---> NH4+(aq)
HNO3 + NH3 =NH4NO3 is not a precipitation reaction, ALL(NO3-) nitrates are soluble even in water.
No, it isn't, NH3 in water is NH3.H2O or NH4OH, it is an alkali, not an acid.
The balanced chemical equation for the reaction NH3 + NO2 -> N2O + H2O is: 4 NH3 + 4 NO2 -> 3 N2O + 6 H2O
NH3 (aq)+ HBr(aq) --> NH4+ (aq)+ Br- (aq)
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None. This is a metathesis reaction, and thus nothing is produced but a combination of the reactants (NH4Br, for example).
complete HCL(aq) + NH3(l) ---> NH4+(aq) + Cl-(aq) net ionic H+(aq) + NH3(aq) ---> NH4+(aq)
When Ni^2+ reacts with NH3, it forms a complex ion known as [Ni(NH3)6]^2+. This complex ion is stable and soluble in water.
HNO3 + NH3 =NH4NO3 is not a precipitation reaction, ALL(NO3-) nitrates are soluble even in water.
No, it isn't, NH3 in water is NH3.H2O or NH4OH, it is an alkali, not an acid.
2 NH3 + 3 O2 = N2O3 + 3H2O
In the reaction involving NH3 (ammonia) and H2O (water), the two Brønsted-Lowry acids are H2O and NH4+ (ammonium ion). H2O donates a proton (H+) to NH3, forming NH4+ and OH-. Thus, H2O acts as an acid by donating a proton, and NH4+ is the resultant acid formed in the reaction.
The balanced chemical equation for the reaction NH3 + NO2 -> N2O + H2O is: 4 NH3 + 4 NO2 -> 3 N2O + 6 H2O
NH3 + H+ ---> NH4+ This is because nitric acid, a strong acid, exists as completely ionized form, whereas ammonia exists mostly as un-ionized in water. The product is a soluble, completely ionized salt.
ammonia, NH3