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BRILLIANT PUBLICATION|Exercise LEVEL-III ( Linked Comprehension Type )|12 Videos
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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
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?
In a saturated solution of the sparingly soluble salt AgIO_(3) (Mol. Mass = 283 g mol^(-1) ), the equilibrium which sets in is AgIO_(3)(s) iff Ag^(+)(aq)+IO_(3)^(-)(aq) . If the K_(sp) of AglO_(3) is 1 times 10^(-8)M^(2) at 298 K. What is the mass of AglO_(3) contained in 100 ml of its saturated solution at 298 K?
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
Calculate the solubility of Ni(OH)_2 in 0.1M NaOH solution. K_(sp) of Ni(OH)_2 is 2xx10^(-15)
If the solubility of Ag_(2)CrO_(4) in water is C mole/litre, Its solubility product will be
The solubility of Mg(OH)_2 at 298K is 1.5xx10^-4 . Calculate the solubility product.
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
BRILLIANT PUBLICATION-CHEMICAL AND IONIC EQUILIBRIUM-Level - III (Linked Comprehension Type Questions)
