Calculate the degree of ionization of 0.1 M acetic acid. The dissociation constant of acetic acid is `1.8 xx 10^(-5)`

Calculate the pH of 0.08M solution of hypochlorous acid, HOCI. The ionization constant of the acid is 2.5 xx 10^(-5) . Determine the percent dissociation of HOCI

Calculate the H^+ ion concentration of a 0.01N weak monobasic acid. The value of dissociation constant is 4.0 xx 10^(-10) .

Calculate the degree of hydrolysis of 0.10 M solution of KCN. Dissociation constant of HCN = 7.2 xx 10^(-10) at 25@C and K_w = 1.0 xx 10^(-14)

Calculate the pH of 0.1(M) NH_(4)OH at 25^(@)C . The dissociation constant of NH_(4)OH at 25^(@)C is 1.76xx10^(-5) .

The ionisation constant of acetic acid is 1.74xx10^(-5). Calculate the degree of dissociation of acetic acid in its 0.05 (M) solution. Calculate the concentration of acetate ion in the solution and its pH.

Calculate the pH of 0.1 (N) acetic acid solution. Given: K_(a) (acetic acid) =1.8xx10^(-5)

The concentration of a monobasic acid is 0.01(M). If the dissociation constant of this acid is 1xx10^(-5) at 298 K, What will be the [H_3O^+] ions in the acid solution ?

Equivalent conductivity of acetic acid at infinite dilution is 39.7 and for 0.1 M acetic acid the equivalent conductance is "5.2 mho.cm"^(2)."gm.equiv."^(-1) . Calculate degree of dissociation, H^(+) ion concentration and dissociation constant of the acid.

Calculate the degree of dissociation (alpha) of acetic acid it its molar conductivity (Lambda_(m)) is "39.05 S.cm"^(2)."mol"^(-1) Given lambda_(H)^(@)="349.6 S.cm"^(2)."mol"^(-1) and lambda_(CH_(3)COO^(-))^(@)="40.9 S.cm"^(2)."mol"^(-1) .

At 55^@C a 0.01 (N) aqueous solution of CH_3COOH undergoes dissociation by 4.26% . The value of dissociation constant of acetic acid is