ES 201 Conservation & Accounting Principles
Fall Quarter 2019-2020
|
Class |
Date |
Day |
Topics |
Assignment Due |
|
Lecture
1 |
5
Sep |
R |
Working with the accounting
principles through simple examples |
|
|
Lecture
2 |
6
Sep |
F |
Terminology, extensive
versus intensive properties, unit conversion |
|
|
Lecture
3 |
9
Sep |
M |
Conservation of mass: accumulation term |
HW
1 |
|
Lecture
4 |
10
Sep |
T |
Conservation
of mass: open versus closed systems, transfer term |
|
|
Lecture
5 |
12
Sep |
R |
Conservation of mass: mass transfer rate at a
moving/oblique boundary |
HW
2 & 3 |
|
Lecture
6 |
13
Sep |
F |
Conservation of mass: variable velocity profile |
|
|
Lecture
7 |
16
Sep |
M |
Conservation of mass: system with a moving boundary,
compare against static boundary |
HW
4 & 5 |
|
Lecture
8 |
17
Sep |
T |
Conservation of mass: various applications |
|
|
Lecture 9 |
19 Sep |
R |
Conservation of linear momentum: accumulation term |
HW
6 & 7 |
|
Lecture
10 |
20
Sep |
F |
Skills
Assessment Test 1 Conservation of linear momentum: mass transfer term |
|
|
Lecture
11 |
23
Sep |
M |
Conservation of linear momentum: relative motion |
HW
8 & 9 |
|
Lecture
12 |
24
Sep |
T |
Conservation of linear momentum: inertial frame, use of
absolute and relative velocities in COLM |
|
|
Lecture
13 |
26
Sep |
R |
Conservation of linear momentum: pressure (absolute versus
gage), friction (static versus kinetic) |
HW
10 & 11 |
|
Lecture
14 |
27
Sep |
F |
Conservation of linear momentum: more on friction |
|
|
Lecture
15 |
30
Sep |
M |
Conservation of linear momentum: finite-time form |
HW
12 & 13 |
|
Lecture 16 |
1 Oct |
T |
Skills
Assessment Test 2 Conservation of linear momentum: more on finite-time form |
|
|
Lecture
17 |
3
Oct |
R |
Conservation of angular momentum: review of cross-product
of vectors |
HW
14 & 15 |
|
Lecture
18 |
4
Oct |
F |
Conservation of angular momentum: accumulation term |
|
|
Lecture
19 |
7
Oct |
M |
Conservation of angular momentum: mass & moment
transfer terms |
HW
16 & 17 |
|
Lecture 20 |
8 Oct |
T |
Integration
Exam 1 |
|
|
Fall Break |
||||
|
Lecture 21 |
14 Oct |
M |
Conservation of linear & angular momentum: the tipping
criterion (Mid-Term Progress Report Due) |
HW 18 & 19 |
|
Lecture 22 |
15 Oct |
T |
Conservation of linear & angular momentum: tipping in
multiple-body problems |
|
|
Lecture 23 |
17 Oct |
R |
Conservation of energy: various types of energy (thermal &
mechanical) |
HW 21 |
|
Lecture 24 |
18 Oct |
F |
Skills
Assessment Test 3 Conservation of energy: non-flow work (compression/expansion work,
shaft work, electrical work) |
|
|
Lecture 25 |
21 Oct |
M |
Conservation of energy: flow work |
HW 22 & 23 |
|
Lecture 26 |
22 Oct |
T |
Conservation of energy: substance models |
|
|
Lecture 27 |
24 Oct |
R |
Conservation of energy: more examples with substance models |
HW 24 & 25 |
|
Lecture 28 |
25 Oct |
F |
Skills
Assessment Test 4 Conservation of energy: steady-state devices |
|
|
Lecture 29 |
28 Oct |
M |
Conservation of energy: more examples |
HW 26 & 27 |
|
Lecture 30 |
29 Oct |
T |
Conservation of energy: mechanical energy balance |
|
|
Lecture 31 |
31 Oct |
R |
Conservation of energy: examples with mechanical energy balance |
HW 28 & 29 |
|
Lecture 32 |
1 Nov |
F |
Skills
Assessment Test 5 Conservation of energy: more examples with mechanical energy balance (Final
day to drop a course without penalty) |
|
|
Lecture 33 |
4 Nov |
M |
Conservation of energy: thermodynamic cycles (power cycle) |
HW 30 & 31 |
|
Lecture 34 |
5 Nov |
T |
Conservation of energy: thermodynamic cycles (refrigeration/heat pump) |
|
|
Lecture 35 |
7 Nov |
R |
Accounting of entropy: concepts |
HW 32 & 33 |
|
Lecture 36 |
8 Nov |
F |
Integration Exam 2 |
|
|
Lecture 37 |
11 Nov |
M |
Accounting of entropy: effect of entropy generation on cycle
performance |
HW 34 & 35 |
|
Lecture 38 |
12 Nov |
T |
Accounting of entropy: substance models |
|
|
Lecture 39 |
14 Nov |
R |
Accounting of entropy: examples |
HW 37 |
|
Lecture 40 |
15 Nov |
F |
Course wrap-up, evaluations |
|
|
Last
modified: Septermber 4, 2 |