Home
Class 11
CHEMISTRY
Calculate the molality (m) of 3 M soluti...

Calculate the molality `(m)` of `3 M` solution of `NaCl` whose density is `1.25 g mL^(-1)`.

Text Solution

Verified by Experts

Molar mass `(Mw_(2))` of `NaCl = (23 + 35.5) g = 58.5 g`
`M = 3 mol L^(-1)`
Mass of weight `(W_(2))` of `NaCl` in `1 L` solution
`3 xx 58.5 = 175.5 g`
First method:
`d_(sol) = M ((Mw_(2))/(1000) + (1)/(m))`
`1.25 g mL^(-1) = 3 ((58.5)/(1000) + (1)/(m))`
`(1.25)/(3) (58.5)/(1000) = (1)/(m)`
`0.416 - 0.058 = (1)/(m)`
`0.358 = (1)/(m)`
`m = (1)/(0.358) = 2.79 m`
second method:
`M = 3 mol L^(-1)`
Mass of `NaCl` in `1 L` solution `(W_(2)) = 3 xx 5835 = 175.5 g`
Mass of `1 L` solution `= V_(sol) xx d_(sol)`
`= 1000 xx 1.25 = 1250 g`
Mass of `H_(2) O` in solution `(W_(1))`
Mass of solution - Mass of slute
`= W_(sol) - W_(2)`
`= 1.250 - 175.5 = 1074 g = 1.0754 kg`
`:. m = (W_(2) xx 1000)/(Mw_(2) xx W_(1))`
`= (175.5 xx 1000)/(58.5 xx 1074.5) = 2.79 m`
or `m = ("Number of moles of solute")/("Mass of solvent in kg")`
`= (3 mol)/(1.0745 kg) = 2.79 m`
Promotional Banner

Similar Questions

Explore conceptually related problems

4.0 g of NaOH is contained in one decilitre of aqueous solution. Calculate the following in the solution (d of NaOH solution = 1.038 g mL^(-1) ) a. Mole fraction of NaOH b. Molartiy of NaOH c. Molality of NaOH

Calculate the molarity of a solution containing 5 g of NaOH in 450 mL solution.

What is the molarity and molality of a 13% solution (by weight) of sulphric acid with a density of 1.02gmL^(-1) ? To what volume should 100 mL of this acid be diluted in order to preapre a 1.5 N solution?

Calculate the molality of an aqueous solution containing 3.0g of urea (mol.mass=60) in 250g of water.

Calculate molality of 1 litre solution of 93% H_(2) SO_(4) by volume. The density of solution is 1.84 g mL^(-1) .

Calculate the molarity of KCl solution prepared by dissolving 7.45 g of KCl in 500 mL of the solution. (d_(sol) = 1.2 g mL^(-1))

Calculate the pH of a solution whose Hydroge ion conc.is 1.5xx10^(3)M .

Calculate the molarity of a solution obtained by mixing 100 mL of 0.3 M H_2 SO_4 and 200 mL of 1.5M H_2 SO_4