Thermal Properties Of Matter MCQs | 100 Questions With Ans
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Class 11 Physics | Thermal Properties of Matter MCQs with Answers – Part 4

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301. A conduction experiment uses the same slab but reverses the two face temperatures. Initially, face \(P\) is at \(80^\circ\text{C}\) and face \(Q\) is at \(30^\circ\text{C}\). Later, face \(P\) is at \(30^\circ\text{C}\) and face \(Q\) is at \(80^\circ\text{C}\). What changes?
ⓐ. Thermal conductivity changes sign
ⓑ. same magnitude, but direction reverses
ⓒ. Magnitude becomes zero because the same temperatures are used
ⓓ. Heat current remains in the same direction always
302. A composite wall is made of two layers in series. Layer \(P\) and layer \(Q\) have the same area and the same thickness, but \(k_P=2k_Q\). In steady state, what is true about the heat current through the two layers?
ⓐ. Heat current through \(Q\) is twice that through \(P\)
ⓑ. Heat current is the same through both layers
ⓒ. Heat current is zero in the better conductor
ⓓ. Heat current through \(P\) is twice that through \(Q\)
303. Two conducting slabs \(P\) and \(Q\) are joined in series and have the same area. Their thermal resistances are \(R_P=\frac{L_P}{k_PA}\) and \(R_Q=\frac{L_Q}{k_QA}\). The equivalent thermal resistance is:
ⓐ. \(R_P+R_Q\)
ⓑ. \(R_P-R_Q\)
ⓒ. \(\frac{1}{R_P+R_Q}\)
ⓓ. \(\frac{R_PR_Q}{R_P+R_Q}\)
304. A slab has thermal resistance \(4\,\text{K W}^{-1}\). If a temperature difference of \(40\,\text{K}\) is maintained across it, the steady heat current is:
ⓐ. \(5\,\text{W}\)
ⓑ. \(40\,\text{W}\)
ⓒ. \(160\,\text{W}\)
ⓓ. \(10\,\text{W}\)
305. Study the table and identify the row that correctly describes the effect of changing a slab parameter in steady conduction.
RowChange madeEffect on heat current \(H\), other factors fixed
PArea \(A\) is doubled\(H\) doubles
QThickness \(L\) is doubled\(H\) doubles
RTemperature difference \(\Delta T\) is doubled\(H\) becomes half
SThermal conductivity \(k\) is doubled\(H\) becomes zero
ⓐ. Row S only
ⓑ. Row R only
ⓒ. Row Q only
ⓓ. Row P only
306. A room has a window made of glass of thickness \(4\,\text{mm}\). Replacing it with glass of thickness \(8\,\text{mm}\), while keeping the same area and temperature difference, reduces conductive heat loss because:
ⓐ. thermal resistance increases
ⓑ. temperature difference changes into heat capacity
ⓒ. thermal conductivity becomes infinite
ⓓ. area becomes zero
307. A copper rod and a wooden rod have the same length and area and are kept between the same two temperatures. The copper rod conducts more heat per second mainly because:
ⓐ. copper has smaller area than the wooden rod
ⓑ. copper has larger thermal conductivity
ⓒ. heat flows from cold to hot in copper
ⓓ. wood has no temperature
308. A composite slab has two layers of equal thickness and equal area. Layer \(P\) has thermal conductivity \(4k\), and layer \(Q\) has thermal conductivity \(k\). If the total temperature difference across the composite slab is \(50\,\text{K}\), what is the temperature drop across layer \(Q\) in steady state?
ⓐ. \(40\,\text{K}\)
ⓑ. \(50\,\text{K}\)
ⓒ. \(10\,\text{K}\)
ⓓ. \(20\,\text{K}\)
309. A cooking pot is heated from below. Water near the bottom becomes warmer and rises, while cooler water moves downward. This circulation is mainly:
ⓐ. conduction through vacuum
ⓑ. radiation alone
ⓒ. convection
ⓓ. sublimation
310. A room heater warms the air near it. The air rises and cooler air moves in near the floor. The repeated motion forms:
ⓐ. a conduction path through a solid
ⓑ. a convection current
ⓒ. a vacuum radiation shield
ⓓ. a latent heat plateau
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