Chapter Solutions Test Paper – 1

Chapter Solutions Test Paper

Q 1. Concentrated nitric acid used in the laboratory work is 68% nitric acid by mass in an aqueous solution. What should be the molarity of such a sample of the acid if the density of the solution is 1.504 g mL^–1?
(A) 12.12 mol L^–1
(B) 20.12 mol L^–1
(C) 16.23 mol L^–1
(D) 34.78 mol L^–1

Q 2. A sample of drinking water was found to be severely contaminated with chloroform, CHCl₃, supposed to be a carcinogen. The level of contamination was 15 ppm (by mass). Determine the molality of chloroform in the water sample.
(A) 2.12 × 10^–4 mol kg^–1
(B) 1.26 × 10^–4 mol kg^–1
(C) 0.12 × 10^–4 mol kg^–1
(D) 5.34 × 10^–4 mol kg^–1

Q 3. An aqueous solution of hydrochloric acid-
(A) Obeys Raoult’s law.
(B) Shows negative deviations from Raoults’ law.
(C) Shows positive deviations from Raoults’ law.
(D) Obeys Henrys’ law at all compositions.

Q 4. The vapour pressure of a dilute aqueous solution of glucose (C₆H₁₂O₆) is p atm. at 373K. The mole fraction of the solvent is
(A) P atm.
(B) (P⁰ – P) atm.
(C) P⁰ atm.
(D) (P⁰ – P)/ P⁰ atm.

Q 5. The vapour pressure of pure toluene and n-heptane at 50°C are 92.6 mm Hg and 140.9mm Hg. The composition of the liquid mixture of toluene, A, and n-heptane, B at 50°C having P_A = P_B is
(A) 0.41-mole fraction of A
(B) 0.522-mole fraction of A
(C) 0.603-mole fraction of A
(D) 0.373-mole fraction of A

Q 6. Which of the following quantities is independent of temperature?
(A) Molarity
(B) Normality
(C) Molality
(D) Formality

Q 7. Which of the following colligative properties is associated with the concentration term ‘molarity’?
(A) Lowering of vapour pressure.
(B) Osmotic pressure.
(C) Depression in freezing point.
(D) Elevation in boiling point.

Q 8. The Vapour pressure of water at 293 K is 17.535 mm Hg. Calculate the vapour pressure of water at 293 K when 25g of glucose is dissolved in 450 g of water.
(A) 17.44 mm Hg
(B) 12.12 mm Hg
(C) 20.56 mm Hg
(D) 26.12 mm Hg

Q 9. The mole fraction of urea (Mol. wt. = 60)  in a 1.0 molal ethanolic solution of the compound is-
(A) 0.145
(B) 0.064
(C) 0.044
(D) 0.290

Q.10   The vapour pressure of  CHCl₃ and CCl₄ are 280 and 200mm Hg at 27°C. Calculate the mole fraction of each in the vapour phase when a mixture containing 2 moles of CHCl₃ and  8moles of CCl₄ is maintained at 27°C.
(A) 0.26, 0.741
(B) 0.31, 0.69
(C) 0.78, 0.22
(D) 0.5, 0.5

Q 11. A 5% solution (by mass) of cane sugar in water has a freezing point of 271 K. Calculate the freezing point of a 5 % glucose in water if the freezing point of pure water is 273.15 K.
(A) 269.07 K
(B) 230.27 K
(C) 290.78 K
(D) 302.02 K

Q 12. The osmotic pressure of equimolar solutions of BaCl₂, NaCl and glucose will be in the order –
(A)BaCl₂ > NaCl > glucose
(B) Glucose > NaCl > BaCl₂
(C) NaCl > BaCl₂ > Glucose
(D) NaCl > Glucose > BaCl₂   

Q 13. Which of the following aqueous solution has osmotic pressure nearest to that of an equimolar solution of K₄[Fe(CN)₆]?
(A) Na₂SO₄
(B) BaCl₂
(C) Al₂(SO₄)₃
(D) C₁₂H₂₂O₁₁

Q.14   Calculate the mass of a solvent in the mixture obtained by mixing 300 g of a 25% and 400 g of a 40% solution by mass.
(A) 66.4%
(B) 55.2%
(C) 72.1%
(D) 58.2%

Q 15. A 25 gm cube of ice at 0 ⁰C is added to 100 gm of liquid at 22.0 ⁰C in a thermally insulated container. The heat of fusion of ice is 6.01 KJ mol^–1 and the specific heat of liquid water is 4.18 J gm^{–1 0}C^–1. What is the temperature in the final condition?
(A) 1.625 ⁰C
(B) 0.625 ⁰C
(C) 3.125 ⁰C
(D) 2.635 ⁰C

Chapter Solutions Test Paper

Q 16. Acetone has a vapour pressure of 185.2 mm Hg and ether 443.5 mm Hg at 20ºC. For a liquid mixture of acetone and ether containing 0.457-mole fraction of acetone, the partial pressure of ether is
(A) 218.8 mm
(B) 240.8 mm
(C) 318.8 mm
(D) 381.8 mm

Q 17. A dilute solution may be defined as one in which
(A) The solvent obeys Raoult’s law.
(B) The solution has a higher boiling point than the pure solvent.
(C) The solution has a lower vapour pressure than the pure solvent.
(D) The solution has a lower freezing point.

Q 18. Which of these aqueous solutions would have the lowest freezing point?
(A) 1.0 molal glucose sugar
(B) 1.0 molal magnesium sulphate
(C) 1.0 molal caesium iodide
(D) 1.0 molal lithium sulphate

Q 19. The osmotic pressure of an aqueous solution of sucrose at 303 K is 2.47 atm, and the molar volume of water at this temperature is 18.10 cm³. Calculate the elevation of the boiling point of this solution DH vap = 539 cal gm^–1.
(A) 0.51 K
(B) 0.12 K
(C) 0.051 K
(D) 0.721 K

Q 20. Concentrated aqueous sulphuric acid is 98% H₂SO₄ by mass and has a density of 1.80 g /ml. The volume of acid required to make one litre of 0.1 M H₂SO₄ is
(A) 5.55 ml
(B) 11.10 ml
(C ) 16.65 ml
(D) 22.20 ml

Q 21. An aqueous solution is 1.00 molal in KI. Which change will cause the vapour pressure of the solution to increase?
(A) Addition of 1.00 molal KI
(B) Addition of water
(C) Addition of NaCl
(D) addition of Na₂SO₄

Q 22. 6% (W/V) solution of urea will be isotonic with:
(A) 18% (W/V) solution of glucose
(B) 0.5 M solution of NaCl
(C) 1 M solution of CH₃COOH
(D) 6% (W/V) solution of sucrose.

Q 23. The aqueous solution that has the lowest vapour pressure at a given temperature is:
(A) 0.1 molal sodium phosphate
(B) 0.1 molal barium chloride
(C) 0.1 molal sodium chloride
(D) 0.1 molal glucose

Q 24. The vapour pressure curves of a solute in a solvent are shown below. These are not only parallel but also do not intersect one another 

Which is the correct order of concentration of solutions here?
(a) 1 > 2 > 3
(b) 3 > 2 > 1
(c) 2 > 3 > 1
(d) 1 > 3 > 2

Chapter Solutions Test Paper