A weak acid `HX` has the dissociation constant `1 xx 10^(-5)M`. It forms a salt `NaX` on reaction with alkali. The percentage hydrolysis of `0.1M` solution of `NaX` is

A certain weak acid has a dissociation constant 1.0xx10^(-4) . The equilibrium constant for its reaction with a strong base is :

A certain weak acid has a dissocation constant of 1.0 xx 10^(-4) . The equilibrium constant for its reaction with a strong base is

HX is a weak acid (K_(a) = 10^(-5)) . If forms a salt NaX(0.1M) on reacting with caustic soda. The degree of hydrlysis of NaX in % is

A salt is formed when a weak acid of dissociation constant 10^(-4) and weak base of dissociation constant 10^(-5) are mixed. The pH and degree of hydrolysis of salt solution are

The dissociation constant of an acid, HA is 1 x 10^-5 The pH of 0.1 M solution of the acid will be

The dissociation constant of an acid is 1xx10^(-5) . The pH of its 0.1 M solution will be approximately

pK_(a) value for acetic acid at an experimental temperature is 5. The percentage hydrolysis of 0.1 M sodium acetate solution will be

Acetic acid tends to form dimer due to formation of intermolcular hydrogen bonding. 2CH_(2)COOHhArr(CH_(3)COOH)_(2) The equilibrium constant for this reaction is 1.5xx10^(2)M^(-1) in benzene solution and 3.6xx10^(-2) in water. In benzene, monomer does not dissociate but it water, monomer dissociation simultaneously with acid dissociation constant 2.0xx10^(-5) M. Dimer does not dissociate in benzene as well as water. The pH of 0.1M acetic acid solution in water, considering the simultaneous dimerisation and dissociation of acid is :

Ionisation constant of HA (weak acid) and BOH (weak base) are 3.0xx10^(-7) each at 298 K. the percentage extent of hydrolysis of BA at the dilution of 10 L is :

The degree of hydrolysis of a salt of weak acid and weak base in its 0.1M solultion is found to be 50% . If the molarity of the solution is 0.2M , the percentage hydrolysis of the salt should be: