The 14.2-in. spring is compressed to a 6.9-in. length, where it is released from rest and accelerates the sliding block A. The acceleration has an initial value of 250 ft/sec² and then decreases linearly with the x-movement of the block, reaching zero when the spring regains its original 14.2-in. length. Calculate the time t for the block to go (a) 3.65 in. and (b) 7.3 in.
The 14.2-in. spring is compressed to a 6.9-in. length, where it is released from rest and accelerates the sliding block A. The acceleration has an initial value of 250 ft/sec² and then decreases linearly with the x-movement of the block, reaching zero when the spring regains its original 14.2-in. length. Calculate the time t for the block to go (a) 3.65 in. and (b) 7.3 in.
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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The 14.2-in. spring is compressed to a 6.9-in. length, where it is released from rest and accelerates the sliding block A. The acceleration
has an initial value of 250 ft/sec² and then decreases linearly with the x-movement of the block, reaching zero when the spring regains
its original 14.2-in. length. Calculate the time t for the block to go (a) 3.65 in. and (b) 7.3 in.
6.9"
-14.2"
wwwwww
Answers:
To go 3.65 in., t= i
To go 7.3 in.,
t = i
111x
0.05366
0.0882
sec
sec
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