Changes in both volume and temp  [ENDORSED]

Volume:
Temperature:

Moderators: Chem_Mod, Chem_Admin

Maddy_Larson_2J
Posts: 23
Joined: Wed Sep 21, 2016 2:59 pm

Changes in both volume and temp

Postby Maddy_Larson_2J » Sat Feb 11, 2017 7:06 pm

If we are given a problem that provides us with both an initial volume and temp and a final volume and temp do we have to calculate deltaS for both of these or will 1 calculation of deltaS suffice? I am confused on if we do both S=nCln(T2/T1) and S=nCln(V2/V1)? Thank you very much in advance

Chem_Mod
Posts: 17695
Joined: Thu Aug 04, 2011 1:53 pm
Has upvoted: 404 times

Re: Changes in both volume and temp  [ENDORSED]

Postby Chem_Mod » Sat Feb 11, 2017 7:25 pm

One is enough. You can do the other to double check your work as the value should be the same.

The mathematical rationale behind this is based on the ideal gas law: PV = nRT from which you can see that volume and temperature are directly proportional, so the ratios should be the same.

Michael_Johanis_2K
Posts: 26
Joined: Thu Jul 28, 2016 3:00 am
Been upvoted: 1 time

Re: Changes in both volume and temp

Postby Michael_Johanis_2K » Tue Feb 14, 2017 5:52 pm

I am confused by Chem_Mod's answer. I have been under the impression that we need to use BOTH DeltaS = nClnT2/T1 AND DeltaS = nRlnV2/V1 if both the temperature and volume change.

For example, if initial temperature = 10 K, initial volume = 5 L, final temperature = 20 K, and final volume = 40 L, then:

Step 1 = At 10K, the volume changes from 5 L to 40 L.
Step 2 = At 40 L, the temperature changes from 10K to 20K.

In Midterm 2015, 4B does what I stated above.

Can someone correct me on why I disagree with Chem_Mod?

Chem_Mod
Posts: 17695
Joined: Thu Aug 04, 2011 1:53 pm
Has upvoted: 404 times

Re: Changes in both volume and temp

Postby Chem_Mod » Tue Feb 14, 2017 6:41 pm

The assumption for the first question was that it was at constant pressure, in which case all three methods work:
is the same as when pressure is constant (also assuming ideal gas), and since , this is the same as . If pressure is not constant, the process must be broken up into two steps, one at constant volume using , and the other at constant temperature using .

Ashley Curtis 2O
Posts: 21
Joined: Wed Sep 21, 2016 2:59 pm

Re: Changes in both volume and temp

Postby Ashley Curtis 2O » Wed Feb 15, 2017 5:24 pm

How would you be able to tell whether or not a reaction occurs at a constsnt temperature?

Wenqian_Deng_1L
Posts: 23
Joined: Wed Sep 21, 2016 3:00 pm

Re: Changes in both volume and temp

Postby Wenqian_Deng_1L » Sun Feb 26, 2017 10:31 pm

I think the problem would state that the reaction will occur at constant temperature so that we know which equation to use.


Return to “Entropy Changes Due to Changes in Volume and Temperature”

Who is online

Users browsing this forum: No registered users and 0 guests