Midterm question 8 [ENDORSED]
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Midterm question 8
On the midterm we were asked how entropy is different based on irreversible expansion or reversible expansion. Is it true that entropy is the same for both since it is a state function?
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Re: Midterm question 8 [ENDORSED]
In a reversible expansion change in entropy total = 0. Therefore - ΔS surroundings = ΔS system
In an irreversible free expansion ΔS surroundings = 0 and ΔS total = ΔS system
In an irreversible free expansion ΔS surroundings = 0 and ΔS total = ΔS system
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Re: Midterm question 8
Yes, because entropy is a state function, it does not matter for the change in entropy for the system if it underwent reversible or irreversible expansion. This is why for question 8 you know that for both a and b the change in entropy for the system is 0.910 J/K. The change in total entropy or change in entropy for the universe is not the same for the two reactions, however, as for reversible reactions S(uni)=0 while in irreversible it is >0.
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Re: Midterm question 8
For reversible reactions you know that the energy from the surroundings is equal to the negative of the energy of the system because there is no energy loss in the universe, so it must be equal.
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Re: Midterm question 8
In an isothermal reversible reaction, deltaS total is equal to 0. This means that deltaS surroundings=-deltaS system.
In an isothermal irreversible reaction, deltaS surroundings is equal to 0. This means that deltaS total=deltaS system.
Hope this helps!
In an isothermal irreversible reaction, deltaS surroundings is equal to 0. This means that deltaS total=deltaS system.
Hope this helps!
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Re: Midterm question 8
In an irreversible reaction, the total change in entropy will be equal to the change in entropy of the system. In a reversible expansion, the total will be equal to zero, which can also be interpretted as the entropy change of the system is equal to the entropy change of the system but in negative form (deltaSsystem= -deltaSsurr)
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