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Class 11 Thermodynamics MCQs with Answer

Class 11 chemistry MCQs with answers are provided here for Thermodynamics. These MCQs are based on CBSE board curriculum and correspond to the most recent Class 11 chemistry syllabus. By practicing these Class 11 Multiple choice questions, students will be able to quickly review all of the ideas covered in the chapter and prepare for the Class 11 Annual examinations Class 11 Chemistry MCQs.

Class 11 Chemistry Thermodynamics MCQs with Answer

Q1.

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Ans: 3. Thermally conducting walls

Q2. Two moles of an ideal gas is expanded isothermally and reversibly from 1L to 10L at 300K. The enthalpy change
(in kJ) for the process is:

  1. 11.4kJ
  2. -11.4kJ
  3. 0kJ
  4. 4.8kJ
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Q3.

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Q4

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Q5. What is the change in the energy of system if 500cal of heat energy are added to a system and system does
350cal of work on the surroundings?

  1. -150cal
  2. +150cal
  3. +850cal
  4. -850cal
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Ans: 2. +150cal

Q6. Which of the following are state functions?

  1. Enthalpy.
  2. Heat.
  3. Free energy.
  4. Work.
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Ans: 1. Enthalpy.

  1. Free energy.
    Explanation:
    Because these depend upon initial and final state and not on path.

Q7. Which of the following is an extensive property?

  1. Temperature.
  2. Density.
  3. Gibbs free energy.
  4. Molar volume.
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Ans: 3. Gibbs free energy.

Explanation:
Gibbs free energy is an extensive propety.

Q8. In the given reaction, Na(s) → Na(g)
The enthalpy of atomisation is same as the:

  1. Enthalpy of dissociation.
  2. Enthalpy of sublimation.
  3. Enthalpy of association.
  4. Enthalpy of vaporisation.
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Ans: 2. Enthalpy of sublimation.

Q9. The enthalpy of vapourisation of a liquid is 30kJ mol-1 and enthalpy of vapourisation is 75J mol-1 . The boiling
point of the liquid at 1atm is:

  1. 250K
  2. 400K
  3. 450K
  4. 600K
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Ans: 2. 400K

Q10. Lattice enthalpies are determined by:

  1. Born-Haber cycle.
  2. Hess’ law.
  3. Lattice cycle.
  4. None of these
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Ans: 1. Born-Haber cycle.

Q11. A reaction, A + B + C + D + q is found to have a positive entorpy change. The reaction will be:

  1. Possible at high temperature.
  2. Possible only at low temperature.
  3. Not possible at any temperature.
  4. Possible at any temperature.
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Ans: 4. Possible at any temperature.

Q12. The enthalpy change when one mole of solute dissolves in a specified amount of solvent is called:

  1. Enthalpy of dilution.
  2. Enthalpy of solution.
  3. Enthalpy of association.
  4. Enthalpy of dissociation.
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Ans: 2. Enthalpy of solution.
Explanation:
Enthalpy of solution is the enthalpy change when one mole of solute dissolved in a specified amount of solvent.

Q13. Entropy is:

  1. A thermodynamic concept.
  2. A state function.
  3. Independent of path.
  4. All of the above.
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Ans: 4. All of the above.

Q14. Enthalpy of sublimation of a substance is equal to,

  1. Enthalpy of fusion + enthalpy of vapourisatio.
  2. Enthalpy of fusion.
  3. Enthalpy of vapourisatio.
  4. Twice the enthalpy of vapourisation.
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Ans: 1. Enthalpy of fusion + enthalpy of vapourisation.
Explanation:
Enthalpy of sublimation of a substance is equal to enthalpy of fusion + enthalpy of vapourisation.
Sublimation is direct conversion of solid to vapour, i.e., solid → vapour.
Writing in two steps, we have solid → liquid → vapour.
Solid → liquid requires enthalpy of fusion.
Liquid → vapour requires enthalpy of vapourisation.

Q15. Hess’s law is based on:

  1. Law of conservation of mass.
  2. Law of conservation of energy.
  3. Law of active mass.
  4. Both (a) and (b).
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Ans: 2. Law of conservation of energy.
Explanation:
Hess’s law is based on law of conservation of energy

Q16. The volume of gas is reduced to half from its original volume. The specific heat will be __.

  1. Reduce to half.
  2. Be doubled.
  3. Remain constant.
  4. Increase four times.
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Ans: 3. Remain constant.


Explanation:
The specific heat of a substance is the heat required to raise the temperature of 1 gram of a substance by one degree (1K or 1°C). It is
an intensive property and is independent of the volume of the substance.

Q17. Which of the following properties is the measure of the degree of randomness or disorder in the system?

  1. Entropy.
  2. Enthalpy.
  3. Internal energy.
  4. None of these.
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Ans: 1. Entropy.

Q18. Choose the correct answer. A thermodynamic state function is a quantity:

  1. Used to determine heat changes.
  2. Whose value is independent of path.
  3. Used to determine pressure volume work.
  4. Whose value depends on temperature only.
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Ans: 2. Whose value is independent of path.

Q19. The enthalpies of elements in their standard states are taken as zero.The enthalpy of formation of a compound.

  1. Is always negative.
  2. Is always positive.
  3. May be positive or negative.
  4. Is never negative.
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Ans: 3. May be positive or negative.

Q20. The state of gas can be described by quoting the relationship between,

  1. Pressure, volume, temperature.
  2. Temperature, amount, pressure.
  3. Amount, volume, temperature.
  4. Pressure, volume, temperature, amount.
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Ans: 4. Pressure, volume, temperature, amount.

Explanation:
The state of a system can be described by state functions or state variables which are pressure, volume, temperature and amount of the
gas (PV = nRT)

Q21. Which of the following statements is correct?

  1. The presence of reacting species in a covered beaker is an example of open system.
  2. There is an exchange of energy as well as matter between the system and the surroundings in a closed
    system.
  3. The presence of reactants in a closed vessel made up of copper is an example of a closed system.
  4. The presence of reactants in a thermos flask or any other closed insulated vessel is an example of a closed
    system.
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Ans: 3. The presence of reactants in a closed vessel made up of copper is an example of a closed system.
Explanation:
If a closed reaction vessel is made of copper, it will work as closed system because in such system heat will be exchanged with the
surroundings but no matter will exchange.

Q22.

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Ans: 2. Zero.
Explanation:
The enthalpies of all elements in their standard states are zero.

Q23.

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Q24.

Q48. A gas is allowed to expand in a well-insulated container against a constant eternal pressure of 2.5atm from an
initial volume of 2.50L to a final volume of 4.50L The change in internal energy in Joule’s will he:

  1. -500J
  2. -506J
  3. +505J
  4. 1136.25J
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Q25.

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Ans: 4. Both (a) or (b)