`K_(sp)` of `CaSO_(4)` at 298 K is `6.4 times 10^(-5)M^(2)`. If `9 times 10^(-3)` mol of `CaSO_(4)` is added to 1L of water at 298 K, the amount of `CaSO_(4)` remaining undissolved is

The K_(sp) of Ag_(2)CrO_(4) at 298 K is 1 times 10^(-12)M^(3) The solubility of Ag_(2)CrO_(4) in a 0.1 M AgNO_(3) solution at 298 K is

Ka of HCN at 298 K is 1 times 10^(-9) . The pH of a decimolar aq. Solution of HCN at 298 K is

The K_(sp) of M(OH)_(2)" is "5 times 10^(-10)M^(3) . The molar solubility of M(OH)_(2) in a 0.1 M NaOH solution is

K_(sp) of the salt AB_(2) at 298 K is 4 times 10^(-11)M . A precipitate of AB_(2) is formed when equal volumes of which of the following solutions of A^(2+) and B^(-) are mixed? A) 2 times 10^(-4)M" "A^(2+) and 2 times 10^(-4)M" "B^(-)" B) 2 times 10^(-5)M" "A^(2+) and 2 times 10^(-3)M" "B^(-) C) 2 times 10^(-2)M" "A^(2+) and 2 times 10^(-3)M" "B^(-)

If the ionic product of water (K_(w)) at 298 K is 1 times 10^(-14)M^(2) , the pKw of water at 323 K is

K_(sp) of AgBr at room temperature is 5 times 10^(-13)M^(2) . The quantity of KBr (Mol. mass = 120 g/mol) to be added to 1 litre of a 0.05 M solution of AgNO_(3) at room temp. to start the precipitation of AgBr is

The K_(a) of a substituted benzoic acid at 298 K is 1 times 10^(-4) . The pH of a 0.01 M aq. solution of its sodium salt at 298 K is

At 298 K, the K_(sp) of Hg_(2)Cl_(2) is 3.2 times 10^(-17)mol^(3)L^(-3) . What is the solubility of Hg_(2)Cl_(2) in water at 298 K?