Consider equimolal aqueous solutions of `NaHSO_(4)` and NaCl with `DeltaT_(b)` and `DeltaT'_(b)` as their respective boiling point elevation . The value of `underset(m to1)("lim") (DeltaT_(b))/(DeltaT'_(b))` will be :

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

Which will have largest DeltaT_(b) ?

Aluminium phosphate is 100\% ionised in 0.01 molal aqueous solution . Hence , DeltaT_(b) // K_(b) is :

Figure explains elevation in boiling point when a non-volatile solute is added to a solvent. Variation of vapour pressure with temperaure and elevation in boiling point is marked. Given that DeltaT_(b) is the elevation in boiling point of the solvent in a solution of molarity m then lim_(m rarr 0) ((Delta T_(b))/(m)) is equal to:

Aluminium phosphate is 100% ionised in 0.01 molal aqueous solution,Hence, DeltaT_(b)//K_(b) is :

1g of a non-volatile non-electrolyte solute is dissolved in 100g of two different solvents A and B whose ebullioscopic constants are in the ratio of 1 : 5. The ratio of the elevation in their boiling points, (DeltaT_(b)(A))/(DeltaT_(b)(B)) is

Given that DeltaT_(f) is the depression in freezing point of the solvent in a solution of a non-volatile solute of molarity m ,the quantity underset(m rarr0)(Lt) (DeltaT_(f)//m) is equal to ……………. .