A solution of `CaF_(2)` is found to contain `4 xx 10^(-4)M` of `F^(Theta)`, `K_(sp)` of `CaF_(2)` is

A solution of caF_(2) is found to contain 10^(-4)M F^(Θ) ions. What is the K_(sp) of caF_(2) ?

What is minimum concentration of SO_(4)^(2-) required to precipitate BaSO_(4) in solution containing 1 xx 10^(-4) mole of Ba^(2+) ? ( K_(sp) of BaSO_(4) = 4 xx 10^(-10) )

A solution is found to contain [CI^(Theta)] = 1.5 xx 10^(-1)M, [Br^(Theta)] = 5.0 xx 10^(-4)M, [CrO_(4)^(2-)] = 1.9xx 10^(-2)M . A solution of AgNO_(3) (100 % dissociated) is added to the above solution drop by drop. Which silver salt will precipiate first ? Given: K_(sp) (AgCI) = 1.5 xx 10^(-10), K_(sp) (AgBr) = 5.0 xx 10^(-13),K_(sp) (Ag_(2)CrO_(4)) =1.9 xx 10^(-12) .

When solid SrCO_(3) is equilibrated with a pH 8.60 buffer, the solution was found to have [Sr^(2+)] = 2.2 xx 10^(-4) . What is the K_(sp) of SrCO_(3) . (K_(2) of H_(2)CO_(3) = 4.7 xx 10^(-11))

Calculate the solubility of CaF_(2) in a solution buffered at pH = 3.0. K_(a) for HF = 6.3 xx 10^(-4) and K_(sp) of CaF_(2) = 3.45 xx 10^(-11) .

Solubility of CaF_(2) is 0.5xx10^(-4)" mol L"^(-1) . The value of K_(sp) for the salt is

Calculate the solubility of CaF_(2) in water at 298 K which is 70% dissociated. K_(sp) of CaF_(2) is 1.7 xx 10^(-10) . If answer is x xx 10^(-4) mol/ltr then x = ____?

2M solution of Na_(2)CO_(3) is boiled in a closed container with excess of CaF_(2) . Very small amount of CaCO_(3) and NaF are formed. If K_(sp) of CaCO_(3) is x and molar solubility of CaF_(2) is y , find the molar after cocentration of F^(Theta) in the resulting solution after equilibrium is attained.

The specific conductance of saturated solution of CaF_(2) " is " 3.86 xx 10^(-5) mho cm^(-1) and that of water used for solution is 0.15 xx 10^(-5) . The specific conductance of CaF_(2) alone is

A solution is saturated with respect to SrCO_(3) and SrF_(2) . The [CO_(3)^(2-)] was found to be 1.2 xx 10^(-3)M . The concnetration of F^(Theta) in the solution would be Given K_(sp) of SrCO_(3) = 7.0 xx10^(-10)M^(2) , K_(sp) "of" SrF_(2) = 7.9 xx 10^(-10) M^(3) ,