Solubility product `(k_(sp))` of saturated `PbCl_(2)` in water is `1.8xx10^(-4)"mol"^(3)"dm"^(-9)`. What is the concentration of `Pb^(2+)` in the solution?

The solubility product of Ag CrO_(4) is 32xx10^(-12). What is the concentration of CrO_(4)^(2-) ions in that solution ?

At 25^(@) C, the solubility product of Hg_(2)CI_(2) in water is 3.2xx10^(-17)mol^(3)dm^(-9) what is the solubility of Hg_(2)CI_(2) in water at 25^(@) C ?

NaCl solution is added to a saturated solution of PbCl_(2). What will happen to the concentration of Pb^(+2) ions?

The solubility product of a sparingly soluble metal hydroxide [M(OH)_(2)] is 5xx10^(-16) mol^(3)dm^(-9) at 298 K. Find the pH of its saturated aqueous solution.

In a saturated aqueous solution of AgBr, concentration of Ag^(+) ion is 1xx10^(-6) mol L^(-1) it K_(sp) for AgBr is 4xx10^(-13) , then concentration of Br^(-) in solution is

The solubility of Pb(OH)_(2) in water is 6.7xx10^(-6) M. Calculate the solubility of Pb(OH)_(2) in a buffer solution of pH=8 .

The solubility of Pb(OH)_(2) in water is 6.7xx10^(-6) M. Calculate the solubility of Pb(OH)_(2) in a buffer solution of pH=8 .

The solubility of Pb(OH)_(2) in water is 6.7xx10^(-6) M. Calculate the solubility of Pb(OH)_(2) in a buffer solution of pH=8 .

The solubility of Pb(OH)_(2) in water is 6.7xx10^(-6) M. Calculate the solubility of Pb(OH)_(2) in a buffer solution of pH=8 .

The solubility product of BaCl_(2) is 3.2xx10^(-9) . What will be solubility in mol L^(-1)