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JEE Advance - Chemistry (1983 - No. 4)

The density of a 3 M Sodium thiosulphate solution (Na2S2O3) is 1.25 g per ml. Calculate

(i) the percentage by weight of sodium thiosulphate,

(ii) the mole fraction of sodium thiosulphate and

(iii) the molalities of Na+ and $$S_2O_3^{-2}$$ ions
(i) 37.92, (ii) 0.065, (iii) 7.732m, 3.865m
(i) 40.00, (ii) 0.070, (iii) 8.000m, 4.000m
(i) 35.00, (ii) 0.060, (iii) 7.500m, 3.750m
(i) 38.50, (ii) 0.068, (iii) 7.800m, 3.900m
(i) 37.00, (ii) 0.062, (iii) 7.600m, 3.800m

הֶסבֵּר

3 M Na2S2O3 solution means 3 moles of Na2S2O3 present in 1 litre of solution.

$$\therefore$$ Volume of solution = 1 litre = 1000 ml

Density of solution = 1.25 g/ml

$$\therefore$$ Mass of solution = 1000 $$\times$$ 1.25 = 1250 gm

Molar mass of Na2S2O3 = 158 gm

$$\therefore$$ Weight of solute Na2S2O3 = 3 $$\times$$ 158 = 474 gm

$$\therefore$$ Weight of water = 1250 $$-$$ 474 = 776 gm

(i) % weight of $$N{a_2}{S_2}{O_3} = {{Weight\,of\,N{a_2}{S_2}{O_3}} \over {Weight\,of\,solution}} \times 100$$

$$ = {{474} \over {1250}} \times 100$$

$$ = 37.92$$

(ii) Mole fraction of $$N{a_2}{S_2}{O_3} = {{Moles\,of\,N{a_2}{S_2}{O_3}} \over {Moles\,of\,N{a_2}{S_2}{O_3} + Moles\,of\,{H_2}O}}$$

$$ = {3 \over {3 + {{776} \over {18}}}}$$

$$ = 0.065$$

(iii) Molality of solution (m) $$ = {{Moles\,of\,solute} \over {Weight\,of\,solvent\,in\,kg}}$$

$$\therefore$$ $$m = {3 \over {{{776} \over {1000}}}}$$

$$ = 3.865$$

$$N{a_2}{S_2}{O_3}\buildrel {} \over \longrightarrow 2N{a^ + } + {S_2}O_3^{ - 2}$$

$$\therefore$$ Molality of $$N{a^ + } = 2 \times 3.865 = 7.732$$

and Molality of $${S_2}O_3^{ - 2} = 3.865$$

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