A monoprotic acid in a 0.1 M solution ionizes to `0.001%`. Its ionisation constant is

The strength of elctrolytes is expressed in terms of degree of dissociation alpha For strong electrolyte alpha is close to one and for weak electrolytes alpha is quite small. According to Ostwald Dilution Law alpha=sqrt((K)/(C)) For an acid [H^(+)] = sqrt(K_(a)C) For a base [OH^(-)] =sqrt(K_(b)C The relative strengths of acids or bases can be compared in terms of the square roots of their K_(a) " or " K_(b) values. A monoprotic acid in 0.1 M solution ionises to 0.001 % . Its ionisation constant is :

A monoprotic acid in 1.00 M solution is 0.01% ionised. The dissociation constant of this acid is

A weak acid is 0.1% ionised in 0.1M solution. Its ionisation constant is :

The degree of dissociation of 0.1 M HCN solution is 0.01%. Its ionisation constant would be :

0.2 M solution of formic acid is ionized 3.2% . Its ionization constant is

A 0.20 M solution of methanoic acid has degree of ionization of 0.032. Its dissociation constant would be