Question on entropy in adiabatic phase change

AI Thread Summary
In a closed, adiabatic system at equilibrium at its melting point, the entropy is at a maximum, as indicated by the second law of thermodynamics. The discussion clarifies that while the change in entropy over time is zero at equilibrium, this state represents the highest entropy achievable for the system. The participants agree that reactions tend to increase the entropy of the universe until equilibrium is reached, confirming that the system's entropy cannot increase further at this point. The confusion around the initial answer choice is resolved by understanding that equilibrium signifies maximum entropy, not minimum. Thus, the correct answer is A, as the system's entropy is indeed at a maximum.
RoboNerd
Messages
410
Reaction score
11

Homework Statement



Consider a closed, adiabatic system consisting of a mixture of liquid and solid substance Z at equilibrium at its melting point.

Z (solid) <---------> Z (liquid)

Which of the following statements is true regarding the system?

A) The entropy of the system is at a maximum
B) The entropy of the system is at a minimum
C) The entropy of the system will increase over time.
D) The entropy of the system is zero
E) the entropy of pure substances does not change if at a constant temperature.

Homework Equations



none

The Attempt at a Solution


[/B]
I put down my answer as being E. The entropy change for a reversible process is zero according to the second law of thermodynamics, so because my temperature is the same while melting, this answer choice makes sense.

However, my review book gave me A as being the correct explanation and then did not bother to explain this at all to me why the entropy of the system is at a maximum.

Could anyone please explain why this is the case and share their thoughts with me?

Thanks!
 
Physics news on Phys.org
You are correct that at equilibrium, the change in entropy over time is zero. From your knowledge of calculus, if dS/dt = 0, what does that tell you about the entropy (S) of the system?
 
Well it could be at a max or at a min. I could take the second derivative, but that is just complicating things.

So I can choose between A or B now. Thoughts?
 
What do the laws of thermodynamics say?
 
Entropy of universe always increases for a spontaneous process except for equilibrium. In that case delta S = 0.
 
Right, so if entropy always increases until the system reaches equilibrium, then equilibrium represents a...
 
Maximum. Right?
 
Yes. Reactions will always seek to increase the entropy of the universe until it reaches the point where the entropy is at its maximum and can't increase any more. At this point, the system is at equilibrium.
 
Aha that makes sense! Thanks!
 

Similar threads

Chemistry How to reason about Gibbs energy change due to entropy not enthalpy?
Replies
4
Views
1K
Chemistry Entropy in isolated composite system for irreversible process
Replies
3
Views
2K
Chemistry A calculation of enthalpy, entropy, and Gibbs energy of vaporization
Replies
1
Views
1K
Calculate Work and Entropy Change for an Ice Maker
Replies
1
Views
2K
Chemistry How does it work to mix two gases reversibly in this device?
Replies
1
Views
2K
Chemistry Show that book levitation by absorption of heat violates 2nd law
Replies
13
Views
2K
Maximizing Entropy in an Isolated System: Understanding the Role of Equilibrium
Replies
8
Views
3K
I Focus Problem for Entropy Change in Irreversible Adiabatic Process
2
Replies
60
Views
9K
I Irreversible adiabatic processes & entropy change (clarification needed)
Replies
22
Views
5K
Reversible, adiabatic expansion - Entropy Change
Replies
5
Views
717

Hot Threads

Recent Insights

Back
Top