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Heat Capacity

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Question

For a perfectly crystalline solid $C_{p . m} = a T^{3},$ where a is constant. If $C_{p . m}$ is 0.42 $J / K m o l$ at $10 K$ , molar entropy at $10 K$ is :

0.42 J/Kmol

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0.14 J/Kmol

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4.2 J/Kmol

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zero

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Solution

The correct option is B 0.14 J/Kmol
We are given the relation
$C_{p . m} = a T^{3},$
given that $C_{p . m}$ is 0.42 J/Kmol at 10 K
putting values we get,
$0.42 = a (10)^{3} \Rightarrow a = 0.42 \times 10^{- 3}$

Molar entropy, $S_{m}$ at 10 K will be $S_{m} = \int_{0}^{10} \frac{C_{p . m}}{T} d T = \int_{0}^{10} a T^{2} putting the value of a, we get = \frac{a}{3} [10^{3} - 0] = \frac{0.42}{3} = 0.14 J / K m o l$

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Heat Capacity

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For a perfectly crystalline solid Cp.m=aT3, where a is constant. If Cp.m is 0.42 J/Kmol at 10 K, molar entropy at 10 K is :

The correct option is B 0.14 J/KmolWe are given the relation Cp.m=aT3, given that Cp.m is 0.42 J/Kmol at 10 K putting values we get, 0.42=a(10)3⇒a=0.42×10−3 Molar entropy, Sm at 10 K will be Sm=∫100Cp.mTdT=∫100aT2putting the value of a, we get=a3[103−0]=0.423=0.14 J/Kmol

For a perfectly crystalline solid $C_{p . m} = a T^{3},$ where a is constant. If $C_{p . m}$ is 0.42 $J / K m o l$ at $10 K$ , molar entropy at $10 K$ is :