The molality of a solution containing a certain solute, if there is a freezing point depression of 0.184 °C, is-

(K_f = 18.4)

1. 0.01 m

2. 10 m

3. 0.05 m

4. 100 m

The Van't Hoff factor for 0.1 M Ba(NO₃)₂ solution is 2.74. The degree of dissociation is -

1. 91.3 %

2. 87 %

3. 100 %

4. 74 %

The latent heat of vaporization of water is 540 cal g^-1 at 100 ^oC. K_b for water is:

1. \(0 . 562 K  m^{- 1}\)

2. \(1 . 86 K  m^{- 1}\)

3. \(0 . 515 K  m^{- 1}\)

4. \(5 . 12 K  m^{- 1}\)

A solution containing 3.3 g of a substance in 125 g of benzene (b.p. 80 °C) boils at 80.66 °C. If K_b for one litre of benzene is 3.28 °C m^-1, the molecular weight of the substance shall be -

1. 127.20 g mol^-1

2. 131.20 g mol^-1

3. 137.12 g mol^-1

4. 142.72 g mol^-1

Amount of oxalic acid $({\left(\mathrm{COOH}\right)}_2.2{\mathrm{H}}_2\mathrm{O})$ in grams that is required to obtain 250 ml of a semi-molar solution is - 

The boiling point of an azeotropic mixture of water and ethanol is less than that of water and ethanol individually. The mixture shows:

1. No deviation from Raoult's law

2. Positive deviation from Raoult's law

3. Negative deviation from Raoult's law

4. That the solution is unsaturated

A pair of  isotonic solutions, among the following, is (assuming temperature to be the same) :

1. 0.1 (M) urea and 0.1 (M) NaCl

2. 0.1 (M) urea and 0.2 (M) MgCl₂

3. 0.1 (M) NaCl and 0.1 (M) Na₂SO₄

4. 0.1 (M) Ca(NO₃)₂ and 0.1 (M) Na₂SO₄

Select the correct option based on statements below:

17.4 % (w/v) ${\mathrm{K}}_2{\mathrm{SO}}_4$ solution at 27 $°$C is isotonic to 5.85 % (w/V) NaCl solution at 27 $°$C. lf NaCl is 100 % ionised, the % ionisation of ${\mathrm{K}}_2{\mathrm{SO}}_4$ in aqueous solution is-

[At wt. of K = 39, Na = 23] :-

1. 25 %

2. 75 %

3. 50 %

4. None of the above

The correct statement regarding a solution of two components A and B exhibiting positive deviation from ideal behaviour is :