The solubility product of a binary weak electrolyte is `4xx10^-10` at 298K. Its solubility in mol `dm^(-3)` at the same temperature is

At 25^(@)C , the solubility product of a salt of MX_2 type is 3.2xx10^(-8) in water. The solubility (in mol/L) of MX_2 in water at the same temperature will be

The solubility product of calcium. Fluoride is 3.2xx10^-11 M^3 . Its solubility in saturated solution is

The solubility product of BaSO_4 is 1.1 xx 10^-10 at 25^@C . Determine the solubility in 0.1 (M) BaCI_2 solution at that temperature

The solubility of magnesium hydroxide in water is 8.35 xx 10^(-3) gm//L at 298 K. Calculate its solubility product at this temperature. (Molar mass of Mg is 24 gm)

At a certain temperature, solubility of CaF_(2) in its saturated aqueous solution is 2xx10^(-4)mol*L^(-1) . What is its solubility produced at that temperature?

Given the solubility product of Pb_3(PO_4)_2 is 1.5xx10^(-32) Determine the solubility in g/litre

At 25^@C , the solubility product of Hg_2Cl_2 in water is 3.2xx10^-17 mol^3 dm^-9 . What is the solubility of Hg_2Cl_2 in water at 25^@C ?

(b) At a constant temperature, the molar conductivity at infinite dilution of weak electrolyte is "x ohm"^(-1).cm^(2).mol^(-1) . If at the same temperature, the molar conductivity of the same electrolytic solution of a definite concentration is "0.02 x ohm"^(-1)."cm"^(2)."mol"^(-1) , what is the degree of dissociation of the electrolyte in the solution?

The solubility of BaSO_(4) in water is 2.42 xx 10^(-3) g * L^(-1) at 298 K . The value of its solubility product (K_(sp)) will be (Given molar mass of BaSO_(4) = 233 g * mol^(-1) )