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Question

A solid cylinder of radius R made of a material of thermal conductivity K1 is surrounded by a cylindrical shell of inner radius R and outer radius 2R made of a material of thermal conductivity K2. The two ends of the combined system are maintained at two different temperatures. If there is no loss of heat across the cylindrical surface and the system is in steady state, the effective thermal conductivity of the system is:

A
4K1+3K24
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B
3K1+4K24
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C
3K1+K24
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D
K1+3K24
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Solution

The correct option is D K1+3K24
Let temperature difference between the two ends be Δθ and length of the cylinder be L.
Let dq1 and dq2 be the heat transferred by inner cylinder and outer shell in time dt.
Heat transferred by inner cylinder in this time is
dq1=K1πR2ΔθL×dt
Heat transferred by outer shell in this time is
dq2=K2π((2R)2R2)(Δθ)L×dt
dq2=K2(3πR2)(Δθ)dtL

Total heat transferred is dq=dq1+dq2
dq=(K1+3K2)πR2(Δθ)dtL
Now, total radius of the system R=2R
Hence, we can write
dq=(K1+3K2)π(2R)2(Δθ)dt4L
dq=(K1+3K2)4π(R)2(Δθ)dtL
[since R=2R]
dq=Keqπ(R)2Δθ dtL
where equivalent conductivity Keq=K1+3K24
Therefore, option (d) is correct.

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