At `25^(@)C`, the dissociation constant of a base, BOH id `1.0xx10^(-12)`. The concentration of hydroxyl ions in 0.01 M aqueous solution of the base would be

At 25^(@)C , the dissociation constant of a base. BOH is 1.0xx10^(-12) . The concentration of hydroxyl ions in 0.01 M aqueous solution of the base would be

Calculate the concentration of hydroxyl ions in a 0.1 M solution of ammonia if the value of K_b is 1.76 xx 10^(-5)

The ionization constant of phenol is 1.0xx10^(-10) . What is the concentration of phenolate ion in 0.05 M solution of phenol? What will be its degree of ionization if the solution is also 0.01 M in sodium phenolate?

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 a base MOH is 4xx10^(-6) then calculate the dissociation constant of its conjugate acid

The dissociation constant of a base MOH is 4xx10^(-6) then calculate the dissociation constant of its conjugate acid

The dissociation constatn of 0.01 M CH_(3)COOH is 1.8xx10^(-5) then calculate CH_(3)COO^(-) concentration of 0.1 M HCl solution.

The dissociation constatn of 0.01 M CH_(3)COOH is 1.8xx10^(-5) then calculate CH_(3)COO^(-) concentration of 0.1 M HCl solution.

The dissociation constant of a weak acid HA is 1.2 xx 10 ^(-10) Calculate its pH in a 0.1 M solutions

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