Thermodynamics MCQs | Again 100 Questions | Class 11
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Thermodynamics MCQs with Answers – Part 2 (Class 11 Physics)

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111. Study the table and identify the row with the most accurate classification.
RowQuantityBest description
P\(Q\)Energy transfer due to temperature difference
Q\(Q\)State variable stored inside the system
R\(T\)Energy transfer measured in \(\text{J}\)
S\(U\)Heat crossing the boundary only
ⓐ. Row P
ⓑ. Row Q
ⓒ. Row R
ⓓ. Row S
112. Work \(W\) in thermodynamics is most directly associated with energy transfer caused by
ⓐ. equality of temperatures between two bodies only
ⓑ. chemical composition remaining unchanged
ⓒ. microscopic random motion with no boundary effect
ⓓ. macroscopic force and boundary displacement
113. A gas expands slowly against a movable piston. Under the usual school convention, the work done by the gas is
ⓐ. equal to temperature in \(\text{K}\)
ⓑ. positive during expansion of the gas
ⓒ. zero because the gas remains inside the cylinder
ⓓ. negative because the gas volume increases
114. A gas is compressed by pushing the piston inward. Under the convention that \(W\) means work done by the gas, \(W\) is
ⓐ. negative because work is done on the gas
ⓑ. positive because the external agent pushes
ⓒ. zero because pressure increases
ⓓ. equal to heat supplied in every compression
115. The same gas is compressed from volume \(V_1\) to \(V_2\) by two different paths on a \(P\)-\(V\) diagram. The final state is the same in both cases, but the areas under the curves differ. What can be concluded about work?
ⓐ. Work is the same because the final volume is the same.
ⓑ. Work is path-dependent for compression.
ⓒ. Work is fixed by the final volume alone.
ⓓ. Work is a state variable like \(P\) and \(T\).
116. In a piston-cylinder system, the gas pressure is \(2.0\times10^5\,\text{Pa}\), and the piston moves outward so that the volume increases by \(3.0\times10^{-4}\,\text{m}^3\) at approximately constant pressure. The work done by the gas is
ⓐ. \(-60\,\text{J}\)
ⓑ. \(0.60\,\text{J}\)
ⓒ. \(60\,\text{J}\)
ⓓ. \(6.0\times10^8\,\text{J}\)
117. A process takes a gas from state I to state II without any change in volume. What can be said about boundary work due to expansion or compression?
ⓐ. It is zero because \(\Delta V=0\).
ⓑ. It is equal to the temperature change in \(\text{K}\).
ⓒ. It is negative because the process occurs in a container.
ⓓ. It is positive because the gas has pressure.
118. Use the graph description below.
A \(P\)-\(V\) graph shows two expansion paths from the same initial volume to the same final volume. Path P lies above Path Q at every intermediate volume.
For the same volume limits, the work done by the gas is
ⓐ. zero along both paths because only volume changes
ⓑ. greater along Path Q because lower pressure always means more work
ⓒ. equal along both paths because endpoints are the same
ⓓ. greater along Path P because the area under the curve is larger
119. Consider the statements about work in thermodynamics. I. Work can be energy transfer through a moving boundary. II. Work done by a gas during expansion is usually taken as positive. III. Work is a state variable because it is measured in \(\text{J}\).
ⓐ. I, II, and III
ⓑ. II and III only
ⓒ. I and II only
ⓓ. I and III only
120. A gas expands from \(1.0\,\text{L}\) to \(4.0\,\text{L}\) against constant external pressure \(1.0\times10^5\,\text{Pa}\). What is the work done by the gas?
ⓐ. \(300\,\text{J}\)
ⓑ. \(30\,\text{J}\)
ⓒ. \(-300\,\text{J}\)
ⓓ. \(3.0\times10^5\,\text{J}\)
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