Saccharin `(K_(a)=2xx10^(-12))` is a weak acid represented by formula HSaC. A `4xx10^(-4)` mole amount of saccharin is dissolved in 200 `cm^(3)` water of pH 3. Assuming no change in volume. Calculate the soncentration of `SaC^(-)` ions in the resulting solution at equilibrium.

The solubility product of a salt having general formula MX_2 in water 4xx 10 ^(-12) .The concentration of M^(2+) ions in the aqueous solution of the salt is

Calculate the concentration of the formate ion present in 0.100 M formic acid (HCOOH) solution at equilibrium (K_(a) = 1.7xx10^(-4)) .

A weak acid, HA, has a K_(a) of 1.00xx10^(-5) . If 0.100 mol of the acid is dissolved in 1 L of water, the percentage of the acid dissociated at equilibrium is the close to

The solubility product of a salt having general formula MX_(2) in water is 4xx10^(-12) . The concentration of M^(2+) ions in the aqueous solution of the salt is:

Solid BaF_2 is added to a solution containing 0.1 mole of sodium oxalate solution (1 litre) until equilibrium is reached.If the Ksp of BaF_2 and BaC_2O_4(s) is 10^(-6) & 10^(-7) respectively.Assume addition of BaF_2 does not cause any change in volume and no hydrolysis of any of the cations or anions. (Given : sqrt116=10.77 ) If concentration of Ba^(2+) ions in resulting solution at equilibrium is represented as 2.7xx10^(-X) , then x is :

4g of NaOH was dissolved in one litre of a solution containing one mole of acetic acid and one mole of sodium acetete. Find the pH of the resulting solution ( K_(a) of acetic acid is 1.8xx10^(-3) )

Nicotinic acid (K_(a) = 1.4 xx 10^(-5)) is represented by the formula HNiC . Calculate its percent dissociation in a solution which contains 0.10 moles of nicotinic acid per 2.0L of solution.

If hydrogen ion concentration in a solution is 1xx10^(-5) moles/litre, calculate the concentration of OH ion in this solution (K_(w)=10^(-14)"moles"^(2)L^(-2)).

If hydrogen ion concentration in a solution is 1xx10^(-5) moles/litre, calculate the concentration of OH ion in this solution (K_(w)=10^(-14)"moles"^(2)L^(-2)).

0.15 mole of pyridinium chloride has been added into 500 cm^(3) of 0.2M pyridine solution. Calculate pH and hydroxyl ion contration in the resulting solution, assuming no change in volume. (K_(b)"for pyridine" = 1.5xx10^(-9)M)