(D) The osmotic pressure formula is $\pi = CRT$,where $C = \frac{n}{V} = \frac{W}{M \times V}$.Given: $\pi = 0.245 \ atm$,$V = 2.5 \ dm^3$,$T = 300 \

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(D) The osmotic pressure formula is $\pi = CRT$,where $C = \frac{n}{V} = \frac{W}{M \times V}$.Given: $\pi = 0.245 \ atm$,$V = 2.5 \ dm^3$,$T = 300 \ K$,$M = 58 \ g \ mol^{-1}$,$R = 0.0821 \ dm^3 \ atm \ K^{-1} \ mol^{-1}$.Substituting the values: $0.245 = \frac{W}{58 \times 2.5} \times 0.0821 \times 300$.$0.245 = \frac{W \times 24.63}{145}$.$W = \frac{0.245 \times 145}{24.63} \approx 1.44 \ g$.

Class 12 Chemistry Solutions Osmosis and Osmotic pressure of the solution

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Find the amount of solute in a solution obtained by dissolving it in $2.5 \ dm^3$ of water that generates an osmotic pressure of $0.245 \ atm$ at $300 \ K$. (Molar mass of solute $= 58 \ g \ mol^{-1}$,$R = 0.0821 \ dm^3 \ atm \ K^{-1} \ mol^{-1}$) (in $g$)

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A
$1.75$
B
$1.0$
C
$0.72$
D
$1.44$

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Find the amount of solute in a solution obtained by dissolving it in $2.5 \ dm^3$ of water that generates an osmotic pressure of $0.245 \ atm$ at $300 \ K$. (Molar mass of solute $= 58 \ g \ mol^{-1}$,$R = 0.0821 \ dm^3 \ atm \ K^{-1} \ mol^{-1}$) (in $g$)

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$300 \ mL$ of an aqueous solution of a protein contains $2.52 \ g$ of the protein. If the osmotic pressure of such a solution at $300 \ K$ is $5.04 \times 10^{-3} \ bar$,the molar mass of the protein in $g \ mol^{-1}$ is:

Calculate the molar mass of a solute when $4 \ g$ of it is dissolved in $1 \ dm^3$ of solvent,having an osmotic pressure of $2 \ atm$ at $300 \ K$. $[R = 0.082 \ dm^3 \ atm \ K^{-1} \ mol^{-1}]$

The osmotic pressure of a solution containing $3 \ g$ of glucose (molar mass = $180 \ g/mol$) in $60 \ g$ of water at $15^\circ C$ (density = $1 \ g/mL$) is ....... $atm$.

Which of the following aqueous solutions are isotonic $(R = 0.082 \ atm \ K^{-1} mol^{-1})$?

The pressure required for the reverse osmosis is quite high. For this,which of the following membranes is used?

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