A solution has an osmotic pressure of 8....

A solution has an osmotic pressure of 8.314 pa at 300K. It's concentration would be:

0.056 M

0.56 M

0.0034 M

0.034 M

Text Solution

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The correct Answer is:

`pi=CRT` (C = Concentration)
`:. C=8.314/(8.314 xx 300)=0.0034M`

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A solution has an osmotic pressure of 0.821 atm at 300 K. Its concentration would be :

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An aqueous solution of glucose containing 60 g glucose (C_(6)H_(12)O_(6)) per litre has an osmotic pressure of 5.2 bar at 300 K. The concentration of the glucose solution having osmotic pressure 0of 1.3 bar at the same temperature is :

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An aqueous solution of a protein has an osomatic pressure of 3.8 mm of Hg at temperature of 300K . If concentration of protein is (1)/(49.26) % w/v , then calculate molecular mass of protein.

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200

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A solution has an osmotic pressure of 8.314 pa at 300K. It's concentration would be:

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A solution has an osmotic pressure of 0.821 atm at 300 K. Its concentration would be :

An aqueous solution of glucose containing 60 g glucose (C_(6)H_(12)O_(6)) per litre has an osmotic pressure of 5.2 bar at 300 K. The concentration of the glucose solution having osmotic pressure 0of 1.3 bar at the same temperature is :

An aqueous solution of a protein has an osomatic pressure of 3.8 mm of Hg at temperature of 300K . If concentration of protein is (1)/(49.26) % w/v , then calculate molecular mass of protein.

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NIKITA PUBLICATION-SOLUTION & COLLIGATIVE PROPERTIES -Multiple Choice Questions (Numericals)