(B) The formula for osmotic pressure is $\pi = MRT$. Here,$M$ is the molarity,$R$ is the gas constant,and $T$ is the temperature. Molarity $M = \frac{

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(B) The formula for osmotic pressure is $\pi = MRT$. Here,$M$ is the molarity,$R$ is the gas constant,and $T$ is the temperature. Molarity $M = \frac{n_2}{V} = \frac{\text{mass} / \text{molar mass}}{V} = \frac{3 / 60}{2} = \frac{0.05}{2} = 0.025 \ mol \ dm^{-3}$. Substituting the values: $\pi = 0.025 \times 0.0821 \times 300$. $\pi = 0.61575 \ atm \approx 0.62 \ atm$.

Class 12 Chemistry Solutions Osmosis and Osmotic pressure of the solution

Medium

What is the osmotic pressure of a solution prepared by dissolving $3 \ g$ of solute in $2 \ dm^3$ of water at $300 \ K$ (in $atm$)? (Molar mass of solute $= 60 \ g \ mol^{-1}$,$R = 0.0821 \ dm^3 \ atm \ K^{-1} \ mol^{-1}$)

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A
$0.76$
B
$0.62$
C
$0.51$
D
$0.84$

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Osmosis and Osmotic pressure of the solution

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When the temperature of a certain solution is increased from $37\, ^\circ C$ to $327\, ^\circ C$,how many times will the osmotic pressure change?

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The osmotic pressure of which solution is maximum? (Consider that a $0.1 \ M$ solution of each is $90\%$ dissociated.)

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Which of the following conditions is correct for reverse osmosis? [$C =$ Concentration of solution in $mol \ L^{-1}$; $T =$ Temperature in Kelvin scale; $P_{ext} =$ External pressure; $\pi = CRT =$ Osmotic pressure]

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What is the osmotic pressure of a solution prepared by dissolving $3 \ g$ of solute in $2 \ dm^3$ of water at $300 \ K$ (in $atm$)? (Molar mass of solute $= 60 \ g \ mol^{-1}$,$R = 0.0821 \ dm^3 \ atm \ K^{-1} \ mol^{-1}$)

Similar Questions

$A$ $5\% \, w/v$ solution of cane sugar is isotonic with a $1\% \, w/v$ solution of substance $X$. The molecular weight of $X$ is:

When the temperature of a certain solution is increased from $37\, ^\circ C$ to $327\, ^\circ C$,how many times will the osmotic pressure change?

The osmotic pressure of which solution is maximum? (Consider that a $0.1 \ M$ solution of each is $90\%$ dissociated.)

The process of getting fresh water from sea water is known as

Which of the following conditions is correct for reverse osmosis? [$C =$ Concentration of solution in $mol \ L^{-1}$; $T =$ Temperature in Kelvin scale; $P_{ext} =$ External pressure; $\pi = CRT =$ Osmotic pressure]

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