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The molar heat capacity of copper is adequately given by the equation Cp = 4.7310-5 * T3 (J/molK). What is the absolute entropy of copper at 20K?

a.) 2.410-6 J/molK
b.) 0.019 J/mol*K
c.) 0.13 J/mol*K
d.) 1.9 J/mol*K

User DoneForAiur
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1 Answer

27 votes
27 votes

The absolute entropy of copper at 20K can be calculated by integrating the molar heat capacity over the temperature range from 0K to 20K and dividing by the temperature.

The formula is:


S = integrate(Cp/T, T, 0, 20)

Using the given equation for Cp, we get:


S = integrate(4.73e-5 * T**3 / T, T, 0, 20)\\S = 4.73e-5 * integrate(T**2, T, 0, 20)\\S = 4.73e-5 * (T**3 / 3) | 0 to 20\\S = 4.73e-5 * (20**3 / 3 - 0**3 / 3)\\S = 4.73e-5 * (8000 / 3)S = 0.126 J/molK

Therefore, rounding up the absolute entropy of copper at 20K is 0.13 J/molK.

User Rajni Gujarati
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