Hydrolysis constants of two salts `K_(hA) and K_(hB)` of weak acids HA and are `10^(-8) and 10^(-6)` . If the dissociation constant of third acid HC is `10^(-2)`. The order of acidic strength of three acids will be

Hydrolysis constants of two salts K_(A) and K_(B) of weak acids HA and are 10^(-8) and 10^(-6) . If the dissociation constant of third acid HC is 10^(-2) . The order of acidic strength of three acids will be

Hydrolysis constants of two salts KA and KB of weak acids HA and HB are 10^(-8) and 10^(-6) . If the dissociation constant of third acid HC is 10^(-2) . The order of acidic strengths of three acids will be :

Hydrolysis constants of two potassium salts KA and KB of the weak acids HA and HB are 10^(-8) and 10^(-6) respectively. The dissociation constant of a third acid HC at the same temp is 10^(-4) . The acid strengths of the three acids are in the order

The hydrolysis constants of two salts M_(1)X and M_(2)X formed from strong acid and weak base are 10^(-6) and 10^(-3) respectively. If the dissociation constant of third Base is 10^(-3) , then the order of basic strengths is:

The dissociation constant of two acids are K_(1) and K_(2) . The relative strengths of two acids are given by :

If the dissociation constant of an acid HA is 1 xx 10^(-5) the Ph of a 0.1 M solution of the acid HA will be approximately:

The dissociation constant of a weak monobasic acid K_(a) is 1xx 10^(-5) . The pH of 0.1 M of that acid would be

The dissociation constant of a weak monobasic acid K_a is 1 xx 10^-5 . The pH of 0.1 M of that acid would be

What is dissociation constant of a weak acid (K_(a)) .

The dissociation constant of a weak acid is 10^(-6) . Then the P^(H) of 0.01 Nof that acid is