A large ball of mass M = 0.96 kg and initial velocity v (m-s-1) collides plastically with a small ball of mass m = 0.13 kg in the flat segment of the frictioness rolling track in Figure Q17. Determine the minimum initial velocity v (m-s-1) of the large ball such that the collided balls overcome the two hills/bumps of the track (after the collision) if the highest point of the track is at height h = 0.56 m from the horizontal plane. Provide only the numerical value in metres per second to one decimal place (e.g. 5.1) and do not include the units in the answer box. > ↑ M A h Figure Q17: Plastic collision in frictionless rolling track
A large ball of mass M = 0.96 kg and initial velocity v (m-s-1) collides plastically with a small ball of mass m = 0.13 kg in the flat segment of the frictioness rolling track in Figure Q17. Determine the minimum initial velocity v (m-s-1) of the large ball such that the collided balls overcome the two hills/bumps of the track (after the collision) if the highest point of the track is at height h = 0.56 m from the horizontal plane. Provide only the numerical value in metres per second to one decimal place (e.g. 5.1) and do not include the units in the answer box. > ↑ M A h Figure Q17: Plastic collision in frictionless rolling track
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:QUESTION 17
A large ball of mass M = 0.96 kg and initial velocity v (m-s-1) collides plastically with a small ball of mass
m = 0.13 kg in the flat segment of the frictioness rolling track in Figure Q17. Determine the minimum
initial velocity v (m-s-1) of the large ball such that the collided balls overcome the two hills/bumps of the
track (after the collision) if the highest point of the track is at height h = 0.56 m from the horizontal plane.
Provide only the numerical value in metres per second to one decimal place (e.g. 5.1) and do not
include the units in the answer box.
M
m
ла
Figure Q17: Plastic collision in frictionless rolling track
h
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