Kinetic Theory of Gases – Ideal Gas Equation, Gas Laws
Physics · Grade 11 · Week 33 · 25 questions
In Grade 11 physics, Kinetic Theory of Gases introduces you to Ideal Gas Equation and Gas Laws. These concepts reappear throughout Grade 12 and in competitive exams like JEE and NEET.
What you'll practise
- State and apply Ideal Gas Equation
- State and apply Gas Laws
- Apply kinetic theory of gases concepts to NCERT exercise and exemplar problems
All 25 questions in this Kinetic Theory of Gases – Ideal Gas Equation, Gas Laws quiz
Grade 11 Physics — Kinetic Theory of Gases – Ideal Gas Equation, Gas Laws: 25 practice questions with instant scoring and explanations.
- Ideal gas equation:
- Universal gas constant R value:
- Boltzmann constant k_B:
- Avogadro's number N_A:
- R = :
- Boyle's law: at constant T:
- Charles's law: at constant P:
- Gay-Lussac's law: at constant V:
- Avogadro's law: at same P and T, equal volumes of gases contain:
- Dalton's law of partial pressures:
- At STP, 1 mole of ideal gas occupies:
- At STP, T and P are:
- PV = nRT, T is in:
- For real gases, ideal gas law holds best at:
- Van der Waals equation corrects for:
- Van der Waals equation: (P + a/V²)(V - b) = :
- Gas at constant V: if T doubles, P:
- Gas at constant P: if T doubles, V:
- Gas at constant T: if V doubles, P:
- n in PV=nRT stands for:
- PV = Nk_B T where N is:
- Number density n = N/V; then P = :
- Ideal gas molecules exert no force on each other except during:
- Gas laws imply that at T=0 K:
- Molar mass M is related by: PV = (m/M)RT, where m is:
Question 1 of 250 correct so far