BIOE420 Bioimaging
(Fall 2016)
Name:_ UID: _
Homework #1 (Due: 9/20/2016 in class)
Note: In your solution, please be as detailed as possible. We will breakdown the points
for each step.
Question #1 (20%):
Suppose the point spread function of an optical im
BIOE 331
Biofluids
Fall 2013
Midterm 1; Part II: closed book and closed notes
Name:
1) [35 points]. Answer the following questions:
Consider the equation of conservation of momentum for a fluid with constant properties:
V~
+ V~ V~
t
=
1
p + ~g + 2 V~ ,
Midterm 2
BIOE 331
Fall 2013
Name:_
Problem 1) [25 points] For the given description below, appropriately simplify the NavierStokes equations, justifying your elimination of the various terms, and provide the appropriate
boundary and initial conditions. Y
BIOE331 BIOFLUIDS
Fall Semester
HW3 - 9/21/2015
Solutions
Wiley Plus Questions
Chapter 4, Problem 25
Water flows in a pipe so that its velocity triples every 20 s. At t = 0 it has u = 5 ft/s. That is, V = u(t)i = 5
(3t/20)i ft/s. Determine the acceleratio
BIOE331 BIOFLUIDS
Fall Semester
HW4 - 9/28/2015
Solutions
Wiley Plus Questions
Chapter 6, Problem 85
The two-dimensional velocity field for an incompressible Newtonian fluid is described by relationship
= (12 2 6 3 ) + (18 2 4 3 )
Where the velocity has
BIOE331 BIOFLUIDS
Fall Semester
HW2 - 9/14/2015
Solutions
Wiley Plus Questions
Concept Question 4.02.1
Consider the path of a football thrown by Brett Favre. Suppose that you are interested in the knowing
how far the ball goes. Then you are interested in
BIOE331 BIOFLUIDS
Fall Semester
HW1 - 9/7/2015
Solutions
Concept Question 1.01.1
The definition of a fluid is:
A. A substance in the liquid phase.
B. A substance that deforms continuously under the action of a shearing stress. < ANSWER
C. A substance that