`H_(2)`A is a weak diprotic acid. If the pH of 0.1 M `H_(2)A` solution is 3 and concentration of `A^(2-)` is `10^(-12)` at `25^(@)C.`
Select correct statement (s)

HA is a weak acid. The pH of 0.1 M HA solution is 2. What is the degree of dissociation (alpha) of HA ?

What will be the pH of 1xx10^(-4) M H_(2)SO_(4) solution ?

H_(3)PO_(4) is a weak triprotic acid, approximate pH 0.1 M Na_2HPO_(4) (aq.) is calculated by:

What is the pH of a 0.10 M C_(6)H_(5)O^(-) solution? The K_(a) of C_(6)H_(5)OH is 1.0xx10^(-10)

Statement-1: H_(2)S is weak diprotic acid. Statement-2: Salt of aq. Na_(2)S has pH greater than 7.

pH of a strong diprotic acid (H_(2)A) at concentrations: (i) 10^(-4) M, (ii) 10^(-4) N are respectively:

It is given that 0.001 mol each of Cd^(2+) and Fe^(2+) ions are contained in 1.0L of 0.02M HC1 solution. This solutions is now saturated with H_(2)S gas at 25^(@)C . a. Determine whether or not each of these ions will be precipitated as sulphide? b. How much Cd^(2+) ions remains in the solution at equilibrium? K_(1)(H_(2)S) = 1.0 xx 10^(-7), K_(2) (H_(2)S) = 1.0 xx 10^(-14) : ltbRgt K_(sp) (CdS) = 8 xx 10^(-27): K_(sp) (FeS) = 3.7 xx 10^(-19) .

25 mL of 0.50M H_(2)O_(2) solution is added to 50 mL of 0.20 M KMnO_(4) is acid solution. Which of the following statements is true?

H_(2)S behaves as a weak diprotic acid in aqueous solution. Which of the following is the correct explanantion for pH of a solution of H_(2)S in terms of its pK_(1), pK_(2), [H_(2)S] and [S^(2-)]

A 20.0 mL sample of a 0.20 M solution of the weak diprotic acid H_(2)A is titrated with 0.250 M NaOH. The concentration of solution at the second equivalent point is: