Use this schedule to plan your reading and studying. The topic sequence is
good, but the actual dates will change based on our progress.
| May 31 (1) |
Administrivia |
|
| |
Thermodynamics: Introduction |
Text p. 14 |
| |
Definitions |
Text pp. 14-18 |
| May 31 (2) |
Definitions |
Text pp. 14-18 |
| |
Problem Solving |
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| June 1(1) |
Concept Review - Moles |
Text pp. 19-20 |
| |
Concept Review -- Force |
Text pp. 20 |
| |
Pressure |
Text pp. 25-31 |
| June 1(2) |
Pressure |
Text pp. 25-31 |
| June 2(1) |
Energy |
Text pp. 21-23 |
| |
Temperature |
Text pp. 32-33 |
| June 2(2) |
Phase Behavior |
Text pp. 44-51 |
| Jun 3(1) |
Phase Behavior |
Text pp. 44-51 |
| |
Thermodynamic Tables |
Text pp. 51-59; SBV5 pp. 52-56 |
| Jun 3(2) |
Thermodynamic Tables |
Text pp. 51-59; SBV5 pp. 52-56 |
| Jun 6(1) |
Equations of State |
Text pp. 61-69; SBV5 pp. 46-51 |
| Jun 6(2) |
Quiz 1 |
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| Jun 7(1) |
Real Gases |
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| Jun 7(2) |
Work |
Text pp. 84-99 |
| Jun 8(1) |
Heat |
Text pp. 100-01; SBV5 pp. 82-86 |
| |
Heat Transfer |
Text pp. 101-03; SBV5 pp. 84-85 |
| Jun 8(2) |
First Law Analysis (Closed Systems) |
Text pp. 116-24, 141-43; SBV5 pp 96-101, 120-21 |
| |
Internal Energy |
Text pp. 124-26; SBV5 pp. 101-03 |
| |
Enthalpy |
Text pp. 130-33 |
| Jun 9(1) |
Examples |
|
| Jun 9(2) |
Specific Heat |
Text pp. 133-35; SBV5 pp. 111-13 |
| |
Thermodynamic Properties of Ideal Gases |
Text pp. 135-41; SBV5 pp. 113-20 |
| |
Thermodynamic Properties of Solids & Liquids |
|
| Jun 10(1) |
Examples |
|
| |
Solving Thermo Problems |
Text pp. 126-30 |
| Jun 10(2) |
Conservation of Mass |
Text pp. 143-44, 162-65; SBV5 pp. 121-22, 140-43 |
| |
First Law Analysis: Open Systems |
Text pp. 165-67; SBV5 pp. 143-45 |
| |
Steady-State/Steady Flow Processes |
Text pp. 167-69; SBV5 pp. 145-47 |
| Jun 13(1) |
Steady-State/Steady Flow Processes |
Text pp. 167-69; SBV5 pp. 145-47 |
| Jun 13(2) |
Quiz 2 |
|
| Jun 14(1) |
Common Steady Flow Devices |
Text pp. 169-83; SBV5 pp. 147-63 |
| |
Common Steady Flow Devices |
Text pp. 169-83; SBV5 pp. 147-63 |
| Jun 15(1) |
Uniform State/Uniform Flow Processes |
Text pp. 183-93 |
| Jun 15(2) |
Uniform State/Uniform Flow Processes |
Text pp. 183-93 |
| Jun 16(1) |
Heat Engines |
Text pp. 214-20 |
| Jun 16(2) |
Heat Engines |
Text pp. 214-20 |
| |
Thermal Efficiency |
Text pp. 214-20 |
| Jun 17(1) |
2nd Law of Thermodynamics |
Text pp. 220-23 |
| |
Reversibility |
Text pp. 223-27; SBV5 pp. 198-201 |
| |
Carnot Cycle |
Text pp. 227-33, 236-39 |
| Jun 17(2) |
Carnot Cycle |
Text pp. 227-33, 236-39 |
| |
Entropy |
Text pp. 251-57; SBV5 pp. 223-29 |
| Jun 20(1) |
Entropy |
Text pp. 251-57; SBV5 pp. 223-29 |
| |
Entropy Data |
Text pp. 257-59; SBV5 pp. 229-31 |
| |
Calculating Entropy Changes for Reversible Processes |
Text pp. 259-64; SBV5 pp. 231-35 |
| Jun 20(2) |
Test 3 |
|
| Jun 21(1) |
Calculating Entropy Changes for Closed Irreversible Processes |
Text pp. 264-66; SBV5 pp. 236-38 |
| |
Entropy Generation & Increase |
Text pp. 266-72; SBV5 pp. 238-44 |
| Jun 21(2) |
Entropy Generation & Increase |
Text pp. 266-72; SBV5 pp. 238-44 |
| |
Process Entropy Changes |
Text pp. 272-82; SBV5 pp. 244-54 |
| Jun 22(1)
| 2nd Law Analysis of Open Systems |
Text pp. 282, 302-3, 316-17; SBV5 pp. 272-73, 284-85 |
| Jun 22(2) |
2nd Law Analysis of Flow Systems |
Text pp. 304-16; SBV5 pp. 274-84 |
| Jun 23(1) |
Mechanical Energy Balance |
Text pp. 304-16 |
| |
Efficiency |
Text pp. 317-23; SBV5 pp. 285-91 |
| Jun 23(2) |
Power & Refrigeration Cycles |
Text pp. 382-84; SBV5 pp. 346-8 |
| |
Rankine Cycle |
Text pp. 384-93, 403-09; SBV5 pp. 348-56, 365-71 |
| Jun 24(1) |
Rankine Cycle |
Text pp. 384-93, 403-09; SBV5 pp. 348-56, 365-71 |
| Jun 24(2) |
Rankine Cycle: Reheat & Regeneration |
Text pp. 393-403; SBV5 pp. 356-65 |
| Mon Jun 27 8:00 am |
Final Exam |
|