Grades 2: Updated
Date |
Lecture notes |
Homework Assigned |
HW due |
Reading Assigned (quiz in next lecture) |
1) Tu 9-5 |
Chapter 1.1-4 |
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2) Chapter 1: 5,7,8 |
2) Th 9-7 |
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3) Tu 9-12 |
Chapter 2.1-3 (Joule notes) |
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4) Chapter 2: 10,11,14 |
4) Th 9-14 |
Chapter 2.4-5 |
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5) Th 9-21 |
Chapter 3.1-2 |
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6) Chapter 3: 6,8,9 |
6) Tu 9-26 |
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Study for Midterm 1 |
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7) Th 9-28 |
Study for Midterm 1 |
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Th 9-21 |
8) Tu 10-3 |
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Tu 9-26 |
9) Chapter 5: 11,12,13 |
9) Th 10-5 |
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Th 9-28 |
10) Chapter 6: 2,3,6 |
10) Tu 10-10 |
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Tu 10-3 |
11) Chapter 6: 7,8,10 |
11) Th 10-12 |
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Th 10-5 |
12) Chapter 7: 1,3,5 |
12) Tu 10-19 |
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Tu 10-10 |
13) Th 10-24 |
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Th 10-12 |
Review Chapters 4-6 |
Study for Midterm 2 |
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Tu 10-17 |
A) Presentation Abstracts |
A) Th 10-26 |
Study for Midterm 2 |
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Th 10-19 |
14) Chapter 8: 1,4,8 |
14) Tu 10-31 |
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Tu 10-24 |
15) Chapter 8: 9,15,17 |
15) Th 11-2 |
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Th 10-26 |
16) Tu 11-7 |
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Tu 10-31 |
17) Tu 11-14 |
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Th 11-2 |
18) Chapter 10: 5,6,8 |
18) Th 11-16 |
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Tu 11-7 |
get ready for Midterm 3 |
Study for Midterm 3 |
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Th 11-9 |
19) Stat. Mech. HW (TBA) |
19) Th 11-30 |
Handout (Stat. Mech.) |
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Tu 11-14 |
20) Stat. Mech. HW (TBA) |
20) Th 11-30 |
Handout (Stat. Mech.) |
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Th 11-16 |
B1) Finalize Presentations 1 |
B1) Tu 11-21 |
Handout (Thermo Applications) |
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Tu 11-21 |
B2) Finalize Presentations 2 |
B2) Tu 11-28 |
Chapters 1-6 |
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Tu 11-28 |
C) Presentation Write-up |
C) Mo 12-4 |
Chapters 7-10 |
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Th 11-30 |
Review Chapters 1-10 |
get ready for Final |
Chapters 1-10 |
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Mo 12-4 |
Final Exam 9AM |
Sample Midterm 1 . . . Sample Midterm 1 solutions
Statistical Mechanics : Part 1a
Statistical Mechanics : Part 1b
Statistical Mechanics : Part 1c
Statistical Mechanics : Part 1d
Statistical Mechanics : Part 2a
Statistical Mechanics : Part 2b
Statistical Mechanics : Part 3a
Statistical Mechanics : Part 3b
Statistical Mechanics : Part 4a
Statistical Mechanics : Part 4b
Derivation: work for a reversible expansion
Derivation: Adiabatic expansion
Derivation: Clausius inequality
Derivation: Using the fundemental equation of thermodynamics to find Maxwell relations
Derivation: Entropy as a function of T and V
Derivation: Entropy as a function of T and P
Derivation: Entropy of mixing (macroscopic derivation)
Derivation: Entropy of mixing (microscopic derivation)
Derivation: Free energy as a function of T
Derivation: Addendum to Free energy as a function of T
Derivation: Entropy production in X going to Y
Derivation: Henry's Law constant
How to print out the lecture notes.
Thermodynamic Octahedron, Octahedron cutout , cutout (pdf) , and Thermodynamic Cube