Class 11 Kinetic Theory MCQs | 100 Questions With Answers
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Kinetic Theory MCQs with Answers – Part 2 (Class 11 Physics)

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111. The relation \(R=N_Ak_B\) is needed because
ⓐ. \(R\) and \(k_B\) both describe the same gas scale
ⓑ. \(R\) is per mole, while \(k_B\) is per molecule
ⓒ. \(R\) is used only for liquids, while \(k_B\) is used only for solids
ⓓ. \(N_A\) converts pressure into volume
112. A graph is drawn for a fixed amount of ideal gas with \(PV\) on the vertical axis and \(T\) on the horizontal axis. The straight-line slope represents
ⓐ. \(\frac{R}{n}\)
ⓑ. \(nT\)
ⓒ. \(nR\)
ⓓ. \(\frac{P}{V}\)
113. For a fixed amount of ideal gas, the product \(PV\) is doubled. The absolute temperature must have
ⓐ. become half
ⓑ. remained unchanged
ⓒ. doubled
ⓓ. become four times
114. A gas sample changes from state \(1\) to state \(2\), with the amount of gas fixed. The data are \(P_1=2.0\times10^5\,\text{Pa}\), \(V_1=3.0\times10^{-3}\,\text{m}^3\), \(T_1=300\,\text{K}\), \(P_2=1.5\times10^5\,\text{Pa}\), and \(T_2=450\,\text{K}\). The final volume is
ⓐ. \(2.0\times10^{-3}\,\text{m}^3\)
ⓑ. \(3.0\times10^{-3}\,\text{m}^3\)
ⓒ. \(6.0\times10^{-3}\,\text{m}^3\)
ⓓ. \(9.0\times10^{-3}\,\text{m}^3\)
115. An ideal gas is best described as a gas whose molecules have
ⓐ. large volume and strong attraction at all separations
ⓑ. point molecules with forces only in collisions
ⓒ. no mass and no kinetic energy
ⓓ. fixed positions inside the container
116. A real gas is expected to behave most nearly like an ideal gas when it is at
ⓐ. high pressure and low temperature
ⓑ. high pressure and high density only
ⓒ. low temperature and very small volume
ⓓ. low pressure and high temperature
117. A gas is compressed to a very high pressure at a low temperature. The ideal-gas equation becomes less reliable mainly because
ⓐ. molecules stop having mass
ⓑ. pressure and volume cannot be measured
ⓒ. temperature no longer has any unit
ⓓ. molecular size and attraction matter
118. Study the table and identify the rows with correct expected behaviours for ideal-gas and real-gas limits.
RowConditionExpected behaviour
PLow pressure, high temperatureClose to ideal-gas behaviour
QHigh pressure, low temperatureStrong deviation may occur
RVery high densityMolecular volume becomes more important
SLow temperature near liquefactionIntermolecular attraction can be ignored perfectly
ⓐ. Rows P, Q, and R
ⓑ. Rows P, Q, and S
ⓒ. Rows P, R, and S
ⓓ. Rows Q, R, and S
119. A real gas occupies a small vessel at high pressure. A statement says, “The volume of the molecules can still always be ignored.” The best evaluation is that
ⓐ. the statement is always valid for every real gas
ⓑ. molecular volume may become important at high pressure
ⓒ. the statement is valid only because \(PV=nRT\) contains no molecular size
ⓓ. the statement fails because molecules have no motion at high pressure
120. A sealed container has a gas that is far from liquefaction and at low density. In applying the ideal-gas equation, the most reasonable assumption is that
ⓐ. intermolecular forces are negligible between collisions
ⓑ. the gas molecules are fixed in a lattice
ⓒ. all molecules have exactly zero speed
ⓓ. the pressure is caused only by the weight of the top layer
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