Q2: The 0.5-kg cylinder A is released from rest from the position shown and drops the distance h, - 0.8 m. It then collides with the 0.4-kg block B; the coeffi- cient of restitution is e = 0.8. Determine the maxi- mum downward displacement h of block B. Neglect all friction and assume that block B is ini- tially held in place by a hidden mechanism until the collision begins. The two springs of modulus k = 400 N/m are initially unstretched, and the dis- tance d = 1.0 m. A B ww www d-
Q2: The 0.5-kg cylinder A is released from rest from the position shown and drops the distance h, - 0.8 m. It then collides with the 0.4-kg block B; the coeffi- cient of restitution is e = 0.8. Determine the maxi- mum downward displacement h of block B. Neglect all friction and assume that block B is ini- tially held in place by a hidden mechanism until the collision begins. The two springs of modulus k = 400 N/m are initially unstretched, and the dis- tance d = 1.0 m. A B ww www d-
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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Q2: The 0.5-kg cylinder A is released from rest from the position shown and drops the distance h; = 0.8 m. It then collides with the 0.4-kg block B; the coeffi- cient of restitution is e = 0.8. Determine the maxi- mum downward displacement ks of block B. Negleet all friction and assume that block B is ini- tially held in place by a hidden mechanism until the collision begins. The two springs of modulus % = 400 N/m are initially unstretched, and the dis- tanced = 1.0m.
Transcribed Image Text:Q2: The 0.5-kg cylinder A is released from rest from the
position shown and drops the distance h1 = 0.8 m.
It then collides with the 0.4-kg block B; the coeffi-
cient of restitution is e = 0.8. Determine the maxi-
mum downward displacement he of block B.
Neglect all friction and assume that block B is ini-
tially held in place by a hidden mechanism until
the collision begins. The two springs of modulus
k = 400 N/m are initially unstretched, and the dis-
tance d = 1.0 m.
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