Practice Gases MCQs for AKU Entry Test Chemistry — topic-wise sets with solved answers.
Q1. At standard temperature and pressure, the molar volume of an ideal gas is
Answer: 22.4 dm³
Explanation: Molar volume at STP is 22.4 dm³; option B is correct. Option D is at 25°C and 1 atm.
Q2. The rate of diffusion of a gas is inversely proportional to the square root of its
Answer: molecular mass
Explanation: Graham's law states rate ∝ 1/√M; molecular mass is correct. Density is related but not directly used.
Q3. A real gas behaves most like an ideal gas at
Answer: low pressure and high temperature
Explanation: Low pressure and high temperature minimize intermolecular forces, making a real gas behave like an ideal gas.
Q4. The partial pressure of a gas in a mixture is
Answer: the pressure exerted by the gas if it alone occupied the total volume
Explanation: Partial pressure is the pressure a gas would exert if it alone occupied the total volume; Dalton's Law.
Q5. The kinetic molecular theory assumes that gas molecules
Answer: are in constant random motion
Explanation: Kinetic theory assumes gas molecules are in constant random motion; option C is correct. Option D is incorrect because kinetic energy is directly related to temperature.
Q6. The critical temperature of a gas is the temperature
Answer: above which it cannot be liquefied
Explanation: Critical temperature is the maximum temperature at which a gas can be liquefied; above it, liquefaction is impossible.
Q7. A gas deviates from ideal behavior because its molecules
Answer: have intermolecular forces
Explanation: Real gases deviate from ideal behavior due to intermolecular forces; option C is correct. Options A, B, and D are assumptions of ideal gas behavior.
Q8. The vapor pressure of a liquid is the pressure exerted by the vapor
Answer: when the rate of evaporation equals the rate of condensation
Explanation: Vapor pressure is the pressure exerted when evaporation and condensation rates are equal; equilibrium condition.
Q9. The boiling point of a liquid is the temperature at which its vapor pressure
Answer: equals the atmospheric pressure
Explanation: Boiling occurs when vapor pressure equals atmospheric pressure; option A is correct.
Q10. At constant temperature, the volume of a given mass of an ideal gas is
Answer: inversely proportional to its pressure
Explanation: Boyle's Law states V ∝ 1/P at constant T; option B is correct.
Q11. The density of a gas is directly proportional to its
Answer: molecular mass
Explanation: Density = mass/volume; for a given volume, density ∝ molecular mass at constant T and P.
Q12. The effusion rate of a gas through a small orifice is inversely proportional to the square root of its
Answer: molecular mass
Explanation: Graham's law applies to effusion; rate ∝ 1/√M, so molecular mass is correct.
Q13. A mixture of gases can be separated by
Answer: all the above methods
Explanation: Gases can be separated by diffusion (Graham's law), adsorption, or fractional distillation; all are valid methods.
Q14. The pressure exerted by a gas is due to
Answer: the collisions of its molecules with the container walls
Explanation: Pressure is due to collisions of gas molecules with container walls; kinetic molecular theory.
Q15. The absolute zero on the Celsius scale is
Answer: -273.15°C
Explanation: Absolute zero is 0 K, which is -273.15°C; option A is correct.
Q16. A real gas behaves like an ideal gas at
Answer: high temperature and low pressure
Explanation: High temperature and low pressure minimize intermolecular forces, making real gases behave ideally.
Q17. The ratio of the rates of diffusion of two gases is 2:1. The ratio of their molecular masses is
Answer: 1:4
Explanation: According to Graham's law, rate ∝ 1/√M; so M1/M2 = (rate2/rate1)² = (1/2)² = 1/4.
Q18. The temperature at which the vapor pressure of a liquid equals the external pressure is its
Answer: boiling point
Explanation: Boiling point is defined as the temperature where vapor pressure equals external pressure; option A is correct.
Q19. The van der Waals equation corrects the ideal gas law for
Answer: the volume occupied by gas molecules and intermolecular forces
Explanation: Van der Waals equation corrects for molecular volume (b) and intermolecular forces (a); option A is correct.
Q20. The average kinetic energy of gas molecules is directly proportional to the
Answer: temperature of the gas
Explanation: Kinetic energy is directly proportional to temperature; from kinetic molecular theory, KE ∝ T.
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