1.Calculate the maximum force that the vertical cylinder can generate during extension and retraction based on a system pressure of 500 psi. 2.Calculate the speed of the vertical cylinder rod during extension based upon the observed flow rate. 3.How does the calculated speed of the vertical cylinder based upon measured flow rate compare to your measurement of extension time over the stroke length? If different, then why?
1.Calculate the maximum force that the vertical cylinder can generate during extension and retraction based on a system pressure of 500 psi. 2.Calculate the speed of the vertical cylinder rod during extension based upon the observed flow rate. 3.How does the calculated speed of the vertical cylinder based upon measured flow rate compare to your measurement of extension time over the stroke length? If different, then why?
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
Related questions
Question
1.Calculate the maximum force that the vertical cylinder can generate during extension and retraction based on a system pressure of 500 psi.
2.Calculate the speed of the vertical cylinder rod during extension based upon the observed flow rate.
3.How does the calculated speed of the vertical cylinder based upon measured flow rate compare to your measurement of extension time over the stroke length? If different, then why?
Transcribed Image Text:During Extension
of vertical
cylinder
At Extension
(when cylinder is
stopped)
Pressure Reading
PSI
140
500
Flow Meter Reading
GPM
2.8
0
Time to Extend
1.03
N/A
Based on the part number of the vertical cylinder, look up the manufacturer's data
sheet to determine:
a. Piston diameter →1.50 inches
b. Rod diameter → 0.625 inches
c. Stroke length →6.000 inches
Q1.
Calculate the maximum force that the vertical cylinder can generate during extension
and retraction based on a system pressure of 500 psi.
Calculate the speed of the vertical cylinder rod during extension based upon the
Q2.observed flow rate.
How does the calculated speed of the vertical cylinder based upon measured flow rate
Q3.compare to your measurement of extension time over the stroke length? If different,
then why?
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