Calculate the apparent degree of ionisation of an electrolyte `MX_(2)` in water, if the observed molar mass of the solute by measuring elevation in boiling point is 65.6 (Normal molar mass of the solute = 164).

Calculate the percentage degree of dissociation of an electrolyte XY_(2) (Normal molar mass =164 ) in water if the observed molar mass by measuring elevation in boiling point is 65.6 :

Calcuate the percentage degree of dissociation of an electrolyte XY_(2) (Normal molar mass = 164) in water if the water if the observed molar mass by measuring elevation in boiling point is 65.6

Derive the relation between elevation of boiling point and molar mass of the solute .

Calculate the molar mass of H_2SO_4

How are DeltaT_(b) and DeltaT_(f) related to the molar mass of the solute?

For a dilute solution containing a nonvolatile solute, the molar mass of solute evaluated from the elevation of boiling point is given by the experssion:

The freezing point of a solution prepared from 1.25 g of non-electrolyte and 20 g of water is 271.9 K . If the molar depression constant is 1.86 K mol^(-1) , then molar mass of the solute will be

(a) A solution containing 0.5g of naphithalene in 50g C Cl_(4) yield a boiling point elevation of 0.4K , while a solution of 0.6g of an unknown solute in the same mass of the solvent gives a boiling point elevation of 0.65K . Find the molar mass of the unknown solute. (b) The boiling point of a solution of 0.1g of a substance in 16g of ether was found to be 0.100^(@)C higher that of pure ether. What is the molecular mass of the substance. K_(b) (ether) =2.16K kg "mol"^(-1)

Calculate the molality of solution containing 3 g glucose dissolved in 30 g of water . (molar mass of glucose = 180)

Calculate the molality of solution containing 3 g glucose dissolved in 30 g of water . (molar mass of glucose = 180)