For a non-electrolyte solution, the Van'...

For a non-electrolyte solution, the Van't Hoff factor is equal to

Zero

Between 0 and 1

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For a non-electrolytic solution, van't Hoff factor is equal to

between 1-2

If in a solvent, n simple molecules of solute combine of form an associated molecule, alpha is the degree of association, then Van't Hoff factor is equal to

`(1)/(1- n alpha)`

`(1-alpha + n alpha)/(1)`

`(1-alpha+ alpha//n)/(1)`

`(alpha/n - 1+ alpha)/(1)`

The Van't Hoff factor (i) accounts for

extent of solubility of solute

extent of dissociation of solute

extent of dissolution of solute

extent of mobility of solute

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The electrolyte solutions show abnormal colligative porperties.To account for this effect we define a quantity called the Van't Hoff factor given by i=("Actual number of particles in solution after dissociation")/("Number of formula units initially dissolved in solution") i=1 ("for non-electrolytes") igt1 ("for electrolytes, undergoing dissociation") ilt1 ("for solutes, undergoing association") Answer the following questions: For a solution of a non-electrolyte in water, the Van't Hoff factor is

What is van't Hoff factor?

The Van't Hoff's factor 'i' accounts for

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If DeltaT_(f) is the depression in freezing point for the electrolyte and DeltaT_(f)^(@) for the non-electrolyte of the same concentration, then Van't Hoff factor (i) is

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For a non-electrolyte solution, the Van't Hoff factor is equal to

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For a non-electrolytic solution, van't Hoff factor is equal to

If in a solvent, n simple molecules of solute combine of form an associated molecule, alpha is the degree of association, then Van't Hoff factor is equal to

The Van't Hoff factor (i) accounts for

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MODERN PUBLICATION-SOLUTIONS-Multiple Choice Questions (Level-I) (Basic conceptual Qs) (Colligative Properties of Electrolyte Solutions)