Transmission Of Heat Question 99
Question: A cylinder of radius R made of a material of thermal conductivity $ K _{1} $ is surrounded by a cylindrical shell of inner radius R and outer radius 2R made of material of thermal conductivity$ K _{2} $ . The two ends of the combined system are maintained at two different temperatures. 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
[IIT 1988; MP PMT 1994, 97; SCRA 1998]
Options:
A) $ K _{1}+K _{2} $
B) $ \frac{K _{1}K _{2}}{K _{1}+K _{2}} $
C) $ \frac{K _{1}+3K _{2}}{4} $
D) $ \frac{3K _{1}+K _{2}}{4} $
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Answer:
Correct Answer: C
Solution:
Both the cylinders are in parallel, for the heat flow from one end as shown. Hence $ K _{eq}=\frac{K _{1}A _{1}+K _{2}A _{2}}{A _{1}+A _{2}} $ ; where A1 = Area of cross-section of inner cylinder = pR2 and $ A _{2}= $ Area of cross-section of cylindrical shell $ =\pi {{{(2R)}^{2}}-{{(R)}^{2}}}=3\pi R^{2} $
Therefore $ K _{eq}=\frac{K _{1}(\pi R^{2})+K _{2}(3\pi R^{2})}{\pi R^{2}+3\pi R^{2}}=\frac{K _{1}+3K _{2}}{4} $
BETA
