Calculate the concentration of `OH^_` ions of `0.01 M NH_4OH : K_b = 1.58 xx 10^(-5)`

2.5 mL of (2)/(5)M weak monoacidic base (K_(b)=1xx10^(-12) at 25^(@)C) is titrated with (2)/(15) M HCl in water at 25^(@)C . Calculate the concentration of H^(+) at equilibrium point. (k_(w)=1xx10^(-14))

Freshly precipitated aluminium and magnesium hydroxides are stirred vigorously in a buffer solution containing 0.25 mol L^(-1) of NH_4Cl and 0.05(M) of ammonium hydroxide. Calculate the concentration of aluminium and magnesium ions in solution. K_b(NH_4OH)=1.8xx10^(-5),K_(sp)[Al(OH)_3]=6xx10^(-32) K_(sp)[Mg(OH)_2)]=8.9xx10^(-12)

2.5 ml 0.4 (M) weak monoacidic base ( k_b=1 xx 10^(-12) at 25^@ C ) is titrated with 2/15(M) HCl in water at 25^@C . The concentration of H^+ at equivalence point is ( K_w=1xx10^(-14) , at 25^@C )

The first ionisation constant of H_(2)S is 9.1xx10^(-8) . Calculate the concentration of HS^(-) ion in its 0.1(M) solution. How this concentration be affected if the solution is 0.1(M) in HCl also? If the second dissociation constant of H_(2)S is 1.2xx10^(-13) , calculate the concentration of S^(2-) under both conditions.

800mL 0.l(M) HCl solution is mixed with 200mL 0.5(M) CH_3NH_2 solution. In the resulting solution , concentration of H_3O^(+) ions is [K_b(CH_3NH_2)=5xx10^(-4)] is

Calculate the extent of hydrolysis and the pH of 0.02 M CH_3COONH_4. [K_b (NH_3)=1.8×10^(−5) , K_a (CH 3COOH)=1.8×10^(−5) ]

The concentration of an aqueous solution of the weak acid, HA is 0.1(M). Calculate the pH and concentrations of A^- ion and HA at equilibrium in the solution. Given: K_b(HA)=1.35xx10^(-3)

At 25^(@)C what is the concentration of H_(3)O^(+) ions in an aqueous solution in which the concentration of OH^(-) ions is 2xx10^(-5)(M) ?