bcz it has lone pair of electrons on nitrogen atom tht is y it can donate an electron pair so it is lewis base
Yes - it is a "Lewis salt" formed from a Lewis acid and a Lewis base. Most chemists would not call it a salt which is a term they would reserve for the product of the neutralisation of an H+ acid. They would call this an adduct or a complex.
Consider NH3 reacting with water to form ammonium and hydroxide ions according to this equation: NH3(g) + H2O(l) --> NH4+(aq) + OH-(aq). In order to form the products, the water molecule has to donate a hydrogen to the NH3. Because the water has donated a hydrogen ion, it is a B-L acid; because the NH3 has accepted it, it is a B-L base. In the reverse reaction, the NH4+ is the acid and the OH- is the base. This makes NH4+ and NH3 a conjugate acid-base pair, and it makes H2O and OH- a conjugate acid-base pair as well.
NH4+ is NH3's conjugate acid. NH3 accepts H+ to become a Bronsted-Lowry base.
Among these NH3 is the weakest base so strongest conjugate acid would be NH4+ ion.
Lewis base gives out a lone pair of electrons.N of NH3 has a lone pair.So it can act as Lewis base.
it can either be an acid or a base depending on its participation in the reaction. if it accepts H+ then it is a base and if it donates H+ then it is an acid..
NH3
nh3 for base nd zncl2 for acid
nh3 for base nd zncl2 for acid
The Lewis bases are electrons pair donor species. The best example of Lewis base is ammonia NH3
NH3 is ammonia. If you mean can NH3 form covalent compounds the answer is yes, in the cases where it acts as Lewis base donating electrons to a Lewis acid (electron acceptor)
bcz it has lone pair of electrons on nitrogen atom tht is y it can donate an electron pair so it is lewis base
:nh3, h2o:, co, ch3coo-, oh-, cn-, ch3o-
NH3 is called an amphoteric compound because it can act as either a base or an acid.
In BF3, boron has an uncompleted octet where two more electrons can be obtained. Therefore it can act as a Lewis base.
The name of the common base NH3 is ammonia.