`K_(f) of 1,4-"dioxane is" 4.9mol^(-1)` for `1000g`.The depression in freezing point for a`0.001m` solution in dioxane is

Molal depression constant for a solvent is 4.0 K kg mol^(-1) . The depression in the freezing point of the solvent for 0.5 mol kg^(-1) solution of KI (Assume complete dissociation of the electrolyte) is _______ .

Molal depression constant for a solvent is 4.0 K 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)

A solution of CaCl_(2) was prepared by dissolving 0.0112g in 1 kg of distilled water (molar mass of Ca = 41 g mol^(-1) and Cl =35.5 g mol^(-1) ). The freezing point constant of water is 2 "K kg mol"^(-1) . The depression in the freezing point of the solution is :

A solution is prepared by dissolveing 26.3g of CdSO_(4) in 1000g water. The depression in freezing point of solution was found to be 0.284K. Calculate the Van't Hoff factor. The cryoscopic constant of water is 1.86K kg solvent "mol"^(-1)-"solute" .

In coparison to a 0.01 M solution of glucose, the depression in freezing point of a 0.01 M MgCl_(2) solution is……

Elevation in boiling point of a solution of non-electrolyte in CCl_(4) is 0.60^(@)C . What is the depression in freezing point for the same solution? K_(f)(CCl_(4)) = 30.00 K kg mol^(-1), k_(b)(CCl_(4)) = 5.02 k kg mol^(-1)

Elevation in boiling point of a solution of non-electrolyte in CCl_(4) is 0.60^(@)C . What is the depression in freezing point for the same solution? K_(f)(CCl_(4)) = 30.00 K kg mol^(-1), k_(b)(CCl_(4)) = 5.02 k kg mol^(-1)