A bumper, consisting of a nest of three springs, is used to arrest the horizontal motion of a large mass which is traveling at 33 m/s as it contacts the bumper. The two outer springs cause a deceleration proportional to the spring deformation. The center spring increases the deceleration rate when the compression exceeds 0.8 m as shown on the graph. Determine the maximum compression xof the outer springs. Deceleration m/s? 3060 2040 1020 x, m 0.8 1.6 33 m/s Answer:x-
A bumper, consisting of a nest of three springs, is used to arrest the horizontal motion of a large mass which is traveling at 33 m/s as it contacts the bumper. The two outer springs cause a deceleration proportional to the spring deformation. The center spring increases the deceleration rate when the compression exceeds 0.8 m as shown on the graph. Determine the maximum compression xof the outer springs. Deceleration m/s? 3060 2040 1020 x, m 0.8 1.6 33 m/s Answer:x-
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
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Transcribed Image Text:A bumper, consisting of a nest of three springs, is used to arrest the horizontal motion of a large mass which is traveling at 33 m/s as it
contacts the bumper. The two outer springs cause a deceleration proportional to the spring deformation. The center spring increases
the deceleration rate when the compression exceeds 0.8 mas shown on the graph. Determine the maximum compression x of the
outer springs.
Deceleration
m/s?
3060
2040
1020
x, m
0.8
1.6
33 m/s
Answer:x- i
m
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