Calculate the concentration of `OH^(-)` ions in solution when `[H^(+)]=6.2xx10^(-2)molL^(-1)`.

If hydrogen ion concentration in a solution is 1xx10^(-5) moles/litre, calculate the concentration of OH ion in this solution (K_(w)=10^(-14)"moles"^(2)L^(-2)).

If hydrogen ion concentration in a solution is 1xx10^(-5) moles/litre, calculate the concentration of OH ion in this solution (K_(w)=10^(-14)"moles"^(2)L^(-2)).

A solution contains 0.10 M H_2S and 0.3 HCl Calculate the concentration of S^(2-) and HS^(-) ions in the solution . For H_2S , K_(a_1) = 1 xx 10^(-7) and K_(a_2) = 1.3 xx 10^(-13)

An aqueous solution contains 0.10 MH_2 S and 0.20 M HCl if the equilibrium constants for the formation of HS^(-) " from " H_2S " is " 1.0 xx 10^(-7) and " that of " S^(2-) " from " HS^(-) ions is 1.2 xx 10 ^(-13) then the concentration of S^(2-) ions in aqueous solution is 5 xx 10 ^(-8) 3 xx 10 ^(-20) 6 xx 10 ^(-21) 5 xx 10 ^(-19)

Calculate the concentration of overset(Θ)OH in the solution of base with pH a. 10.4771

Calculate the concentration of OH^- ions in a solution prepared by mixing equal volumes of 0.2 M methyl amine and 0.6 M CH_3NH_3^+Cl^(-)[Given K_b=3.6xx10^-4]

Calculate the pH value of the solution in which the concentration of OH^(-) " ions is " 5.0 xx 10^(-9) " mol " L^(-1) at 298 K

What is the concentration of hydrogen ions [H^(+)(aq)] in a solution when pH = 0?

K_(1) and K_(2) for dissociation of H_(2)A are 4xx10^(-3) and 1xx10^(-5) . Calculate concentration of A^(2-) ion in 0.1M H_(2)A solution. Also report [H^(+)] and pH.

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