2.33
Situation:
Velocity distribution of crude oil between two walls.
= 8 105 lbf s/ ft2 , B = 0.1 ft.
u = 100y(0.1 y) ft/ s, T = 100 F.
Find:
Shear stress at walls.
SOLUTION
Velocity distribution
u = 100y(0.1 y) = 10y 100y 2
dV /dy = derivative of the e

CIE 327: Fluid Mechanics
Fall 2016
Lab 3: Fluid Mechanics Writing Assignment (50 points)
Assignment Due: Tuesday, November 8 (in class, hard copy printed double-sided)
Find a news article that mentions a fluid mechanics concept that we have discussed

CIE 327: Principles of Fluid Mechanics
Fall 2016
Lab 1: Fluid properties
Report Due: At the start of lecture Tuesday, September 13
This lab consists of three short exercises intended to familiarize you with several basic fluid
properties.
A.

CIE 327: Fluid Mechanics
Fall 2016
Lab
4: Fluid
Mechanics
Lab 4 (50 points)
Practice
Problems
on Pipe Flows
Assignment Due: Thursday December 1 (in class, hard copy printed double-sided)
pipe_24
You
purchase a cottage at a lake and need to install a

CIE 327: Principles of Fluid Mechanics
Fall 2016
Lab 2: Forces on submerged panels and the Bernoulli Equation
Report Due: At the start of lecture Tuesday, October 18
This lab consists of two short exercises intended to demonstrate concepts relat

3.6: PROBLEM DEFINITION
Situation:
A hydraulic machine is used to provide a mechanical advantage.
m1 = 0.025 kg, m2 = 7500 kg.
Find:
(a) Derive an algebraic equation for the mechanical advantage.
(b) Calculate D1 and D2 so the mouse can support the elepha