A 3-kg collar can slide without friction on a verticai rod and is resting in equilibrium on a spring. It is pushed down, compressing the spring 150 mm, and released. Knowing that the spring constant is k = 2.6 kN/m, determine 1) the maximum height h reached by the collar above its equilibrium position, >) the maximum velocity of the collar assuming that the collar is attached to he spring.
A 3-kg collar can slide without friction on a verticai rod and is resting in equilibrium on a spring. It is pushed down, compressing the spring 150 mm, and released. Knowing that the spring constant is k = 2.6 kN/m, determine 1) the maximum height h reached by the collar above its equilibrium position, >) the maximum velocity of the collar assuming that the collar is attached to he spring.
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 3-kg collar can slide without friction on a verticai rod and is resting in
equilibrium on a spring. It is pushed down, compressing the spring 150 mm,
and released. Knowing that the spring constant is k = 2.6 kN/m, determine
1) the maximum height h reached by the collar above its equilibrium position,
>) the maximum velocity of the collar assuming that the collar is attached to
he spring.
h
33
CREMONES
k = 2.6 kN/m
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