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Thermodynamics & Kinetic Theory MCQs (Free Practice Questions)

Practice 10 carefully selected Thermodynamics & Kinetic Theory MCQs with explanations. Continue practicing 500+ chapter-wise questions inside the Exam Sprinter app.

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🤖 Quick AI Summary

Thermodynamics & Kinetic Theory is a key topic in Physics for the NEET UG exam. It covers essential principles, core formulas, and practical problem-solving methods tested in previous years. This page offers a complete cheat sheet, standard formulas, and 10 interactive sample practice questions with detailed solutions.

What is Thermodynamics & Kinetic Theory?

Thermodynamics & Kinetic Theory covers the essential principles and concepts required for NEET UG.

💡 Why Study Thermodynamics & Kinetic Theory?

Highly important, frequently tested in previous years.

ParameterDetails / Relevance
Target ExamNEET UG
Subject CategoryPhysics
Recommended Study Duration10 Hours
Expected Questions2 Questions
Difficulty IndexEasy
Interactive Solved MCQs10 Questions (Complete Explanations)
Adaptive App Practice500+ Questions & AI Tutor Supported

⚠️ Common Pitfalls to Avoid

  • Neglecting foundational prerequisites (make sure you review related chapters in the learning path).
  • Calculation and sign convention errors during numerical steps.
  • Confusing intermediate results with the final correct answer options.

🗺️ Recommended learning path

Properties of MatterThermodynamics & Kinetic Theory (Current)Oscillations & Waves

What You Will Learn

  • Thermodynamics & Kinetic Theory Fundamentals
  • Key applications of Thermodynamics & Kinetic Theory
  • Advanced problem solving in Thermodynamics & Kinetic Theory

Cheat Sheet & Formulas

  • $$F = ma$$
  • $$\Delta G = \Delta H - T\Delta S$$

Practice Questions

Q1
60sHard

A Carnot engine having an efficiency of η=1/10\eta = 1/10 as heat engine, is used as a refrigerator. If the work done on the system is 10 J10\text{ J}, the amount of energy absorbed from the reservoir at lower temperature is:

Q2
65sMedium

A Carnot engine having an efficiency of η=1/10\eta = 1/10 as heat engine, is used as a refrigerator. If the work done on the system is 10 J10\text{ J}, the amount of energy absorbed from the reservoir at lower temperature is:

Q3
70sEasy

A Carnot engine having an efficiency of η=1/10\eta = 1/10 as heat engine, is used as a refrigerator. If the work done on the system is 10 J10\text{ J}, the amount of energy absorbed from the reservoir at lower temperature is:

Q4
75sHard

A Carnot engine having an efficiency of η=1/10\eta = 1/10 as heat engine, is used as a refrigerator. If the work done on the system is 10 J10\text{ J}, the amount of energy absorbed from the reservoir at lower temperature is:

Q5
80sMedium

A Carnot engine having an efficiency of η=1/10\eta = 1/10 as heat engine, is used as a refrigerator. If the work done on the system is 10 J10\text{ J}, the amount of energy absorbed from the reservoir at lower temperature is:

Q6
85sEasy

A Carnot engine having an efficiency of η=1/10\eta = 1/10 as heat engine, is used as a refrigerator. If the work done on the system is 10 J10\text{ J}, the amount of energy absorbed from the reservoir at lower temperature is:

Q7
90sHard

A Carnot engine having an efficiency of η=1/10\eta = 1/10 as heat engine, is used as a refrigerator. If the work done on the system is 10 J10\text{ J}, the amount of energy absorbed from the reservoir at lower temperature is:

Q8
95sMedium

A Carnot engine having an efficiency of η=1/10\eta = 1/10 as heat engine, is used as a refrigerator. If the work done on the system is 10 J10\text{ J}, the amount of energy absorbed from the reservoir at lower temperature is:

Q9
100sEasy

A Carnot engine having an efficiency of η=1/10\eta = 1/10 as heat engine, is used as a refrigerator. If the work done on the system is 10 J10\text{ J}, the amount of energy absorbed from the reservoir at lower temperature is:

Q10
105sHard

A Carnot engine having an efficiency of η=1/10\eta = 1/10 as heat engine, is used as a refrigerator. If the work done on the system is 10 J10\text{ J}, the amount of energy absorbed from the reservoir at lower temperature is:

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Frequently Asked Questions

Is Thermodynamics & Kinetic Theory difficult for the exam?

Yes, Thermodynamics & Kinetic Theory requires strong conceptual clarity and practice of standard NEET UG style questions.

Key Takeaways for Thermodynamics & Kinetic Theory

  • High exam relevance: 2 questions on average are expected from this chapter.
  • Standard formulas: Comprehensive formula sheets and formulas are fully covered in the cheat sheet section above.
  • Practice and explanation: 10 standard MCQs are solved step-by-step to clarify common numerical and conceptual methods.
  • Step-by-step learning: Start with the formulas, work through the questions, and then download the mobile app for extensive practice.

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