Understanding Entropy: Drawing Temperature Entropy Graphs

AI Thread Summary
To draw a temperature-entropy graph accurately, understanding the relationship between temperature, volume, and entropy is essential, particularly for ideal gas transformations. The equation for entropy change indicates that during adiabatic compression, while temperature changes, entropy remains constant, resulting in a straight line on the graph. The discussion highlights the importance of the specific heat capacity (C_v) and the gas constant (R) in determining the effects of temperature changes on entropy. Guidelines for graphing include recognizing that the curvature may vary based on the values of C_v and R, influencing how pronounced the changes in entropy appear. Overall, a clear grasp of these principles is crucial for accurately representing temperature-entropy relationships in various thermodynamic processes.
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Homework Statement


Hi all,

Is there anyway, meaning by use of equation to determine how we should draw a temperature entropy graph?

I understand that is the equation for entropy for ideal gas transformation:

\del S = nC_vln(\frac{T_f}{T_i}) + nRln(\frac{V_f}{V_i})

But i don't seem to be able to apply it very well.

For example, in a adiabatic compression, the entropy doesn't change but temperature does (appears as straight line on graph). Yet, the equation tells me that there should be change in entropy. That is, if i understanding is not wrong.

So it there any generally guidelines to drawing the graph, and whether the curve is concave or convex.
 
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I’m not familiar with this, but if Cv was small and Rl was large then entropy wouldn't change (much) if T did. You are taking the natural log of T so a change would have little effect, and if the right side of the + was a large number then a small change on the left side of the + would not make much difference to entropy.
 
How about, say a isobaric heating, how would one then determine the curvature of its temperature entropy curve?

Any help from anyone will be greatly appreciated.
 
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