Calcium lactate is salt of weak acid and represented as `Ca(LaC)_(2)`. A saturated solution of `Ca(LaC)_(2)` contains `0.13mol` of salt in `0.50L` solution. The `pOH` of this is `5.60`. Assuming complete dissociation of salt, calculate `K_(a)` of lacetic acid.

Calcium lactate is a salt of weak organic acid and strong base represented as Ca(LaC)_(2). A saturated solution of Ca(LaC)_(2) contains 0.6 mole in 2 litre solution. pOH of solution is 5.60. If 90% dissociation of the salt takes place then what is pK_(a) of lactic acid?

Assuming complete dissociation , calculate the pH of the following solutions: 0.0009M nitric acid

A solution was prepared by dissolving 0.0005 mol of Ba(OH)_(2) in 100 mL of the solution. If the base is assumed to ionise completely, the pOH of the solution will be

Solubility product of Ba(OH)_2 is 5.0.* 10^(-7) . pOH of saturated solution of Ba(OH)_2 is

A 0.1molar solution of weak base BOH is 1% dissociated. If 0.2mol of BCl is added in 1L solution of BOH . The degree of dissociation of BOH will become

Calculate the mass of anhydrous Ca_3(PO_4)_2 present in 1L of 0.25 M solution.

A weak acid HA is found to be 3% dissociated in 0.1 M solution . Calculate the value of K_a

A metal M of molar mass 96 reacts with fluorine to form a salt that can be represeneted as MF_(x) . In order to determiner x a 9.18 a sample of the salt is dissolved in 100g of water and its K_(b) (water 0.512 kg/mol. Assuming complete dissociation of salf.

Van't Hoff factor is 1.92 for MgI_(2) solution with concentraition 0.2M then the degree of dissociation of salt at this concentration is :-

Molal depression constant for a solvent is 4.0 kg mol^(-1) . The depression in the freezing point of the solvent for 0.03 mol kg^(-1) solution of K_(2)SO_(4) is : (Assume complete dissociation of the electrolyte)