CEE 310 Fluid Mechanics
Spring 2002 Lab Session
Section:
301
Room:
2341 Engineering Hall
TA:
Edward SC Young
e-Mail:
yong@students.wisc.edu
Office:
1226 Engineering Hall
Office Hours :
Homepage: www.cae.wisc.edu/~chinwu/CEE310_Fluid_Mechanics/CEE310.html
Grading
Course
First Exam
Second Exam
Third Exam
Lab Session
25%
25%
25%
25%
Lab Session
Quiz
15%
Homework
5%
Lab Report
5%
Homework
Objective: Assist in understanding and applying the principals learned.
1. There will be homework each week, including exam weeks.
2. Each consists of 6 regular problems and some extra problems.
3. Each group turns in the homework solution on the next week.
4. Homework will be graded (on a scale of 1~5) mainly for your presentation of
logic and approach.
5. Late assignment will NOT be accepted.
Quiz:
Objective: Show how well the materials covered is understood.
1. There will be quiz almost each week, except for exam weeks. And they will be
conducted at the end of each discussion session for 30 min.
2. 2 to 3 problems each quiz. They will be directly related to the Examples in the
Textbook and homework problems assigned the previous week.
3. Working out Extra Problems can help boost bad quiz grades by :
Completed


Adjusted  Original  (100 – Origina l )  (0.25)  (
)
Extras Pr oblems 

4. You are not allowed to discuss quiz problems as other session might have not
taken the exam.
Lab Report
Objective: Implement the theories learned to actual conditions,
1. Experiments are conducted every other week at the end of each session.
2. Lab reports are due the following week in discussion.
3. Each person should turn in Lab reports individually.
4. Late report will NOT be accepted.
Topics of 1st Lab Session
CEE 310-Fluid Mechanics
Spring 2002
1. Review of Integrals and Differentials
Acircle  0 2r dr  R 2
R
Arec tan gle  0 Wdx  0 Ldy  L  W
L
w
2. Ideal Gas Law:
P   RT
where P is the absolute pressure;  is the density of the gas; R
constant; T is the absolute temperature.
3. Viscosity(  or  ):
Dynamic Viscosity

Kinematic Viscosity 
is defined as:   

du
dy


4. Bulk Modulus ( E ):
E 
dP
dP

dV V d 
5. Surface Tension (  ):
Intensity of molecular attraction per unit length along the surface.
is the gas