Difference between revisions of "PChem312 f20 w13"

From MC Chem Wiki
Jump to navigation Jump to search
Line 82: Line 82:
 
===Thursday, Nov 12, 2020===
 
===Thursday, Nov 12, 2020===
 
[https://flowcharts.llnl.gov/ LLNL Energy Flow Diagrams website]
 
[https://flowcharts.llnl.gov/ LLNL Energy Flow Diagrams website]
 +
:''Exam III question: In addition to having to "retrieve" some basic numerical values from these diagrams, you will be asked to write a small paragraph (~1/2 page of text) contrasting some aspect of these diagrams between two or more years. Your paragraph must contain some numerical values and the best answer will include multiple years and an Excel plot representing the data being discussed.''
  
Cutting Paper
+
'''Cutting Paper'''
 
:[https://youtu.be/4WVLg1tUiKs Stepping Stairs]
 
:[https://youtu.be/4WVLg1tUiKs Stepping Stairs]
 
:[https://youtu.be/Jx-y3PZjm9Y 3D words]
 
:[https://youtu.be/Jx-y3PZjm9Y 3D words]

Revision as of 14:16, 13 November 2020

...return to Chem 312 - home

Join Zoom Lecture Meeting
Join ZOOM Lab Meeting

Monday, Nov 9, 2020

We will now highlight how to calculate entropy (ΔS) for four processes involving ideal gases:

Screen Shot 2020-11-09 at 8.42.24 AM.png
1) Reversible Isothermal Expansion or Compression
ViTi --> VfTi
Screen Shot 2020-11-11 at 7.31.58 AM.png
2) Constant P, V temperature change
ViTi --> ViTf
PiTi --> PiTf
Screen Shot 2020-11-11 at 7.37.17 AM.png
3) Changes in both V and T, constant P
ViTi -->V fTf
Screen Shot 2020-11-11 at 7.40.27 AM.png
4) Changes in both P and T, constant V
ViTi -->V fTf
Screen Shot 2020-11-11 at 7.47.04 AM.png

Example Problem 1

(Please write out your complete solution and email to bes by next class period)

Consider a gas undergoing the following change under constant pressure (1.00 bar) conditions; calculate the change in entropy (ΔS): Vi = 10.0 L; Ti = 298 K; Tf = 398 K

Example Problem 2

(Please write out your complete solution and email to bes by next class period)

Consider a gas undergoing the following change under constant volume (10.0 L) conditions; calculate the change in entropy (ΔS): Pi = 1.00 bar; Ti = 298 K; Tf = 398 K

Wednesday, Nov 11, 2020

Review contributions to ΔS due to ΔT, ΔV, ΔP for ideal gas/closed system.
Entropy of Phase Changes...

...continuing numbering from above...

5) Solid --> Liquid phase change (fusion/melting/freezing)
- under constant pressure (ΔH)
- under constant volume (ΔU)
For processes involving solids and liquids, ΔH ~ ΔU, hence ΔS is the same for both constant P and constant V.
Screen Shot 2020-11-13 at 7.55.16 AM.png
6) Liquid --> gas phase change (vaporization/boiling/condensation)
- under constant pressure (ΔH)
- under constant volume (ΔU)
For processes involving gases, ΔH ≠ ΔU, hence ΔS is not the same for constant P and constant V processes.
At constant P;
Screen Shot 2020-11-13 at 7.58.25 AM.png
At constant V;
Screen Shot 2020-11-13 at 8.05.55 AM.png
where,
Screen Shot 2020-11-13 at 8.06.56 AM.png
and Δn is the change in moles of gas (Products - reactants; ie. increase in the number of moles of gas)

Example Problem 3

(Please write out your complete solution and email to bes by next class period) Poly aromatic hydrocarbons (<-- wiki link here) represent and interesting set of compounds.

PAH.PNG

Calculate the entropy of fusion for 5 PAHs.

Example Problem 4

(Please write out your complete solution and email to bes by next class period) Calculate the entropy of vaporization for methanol, ethanol, and propanol under both constant pressure and constant volume conditions.

Thursday, Nov 12, 2020

LLNL Energy Flow Diagrams website

Exam III question: In addition to having to "retrieve" some basic numerical values from these diagrams, you will be asked to write a small paragraph (~1/2 page of text) contrasting some aspect of these diagrams between two or more years. Your paragraph must contain some numerical values and the best answer will include multiple years and an Excel plot representing the data being discussed.

Cutting Paper

Stepping Stairs
3D words
Folding an Xmas tree
fancy ornament

Friday, Nov 13, 2020