In the figure shown below a mass m = 0.1 kg travelling at 10 m/s hits the stationary rod with mass M = 1 kg and length L = 1m, after which "m" rebounds back with a velocity of 5m/s. (a) What is the angular velocity (wo) of the rod of mass M, just after "m" rebounds? (b) What is the maximum deflection (0) of the rod? NOTE: To find wo please note that the collision is NOT perfectly elastic and the hing is capable of applying a force but NOT a moment. This guides the choice of the correct conservation of law. L=1m Wo Wo VI= 10m/s 化

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
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In the figure shown below a mass m = 0.1 kg travelling at 10 m/s hits the stationary rod
with mass M = 1 kg and length L = 1m, after which "m" rebounds back with a velocity of
5m/s.
(a) What is the angular velocity (wo) of the rod of mass M, just after "m" rebounds?
(b) What is the maximum deflection (0) of the rod?
NOTE: To find wo please note that the collision is NOT perfectly elastic and the hinge
is capable of applying a force but NOT a moment. This guides the choice of the
correct conservation of law.
L=1m
Wo
Wo
V = 10mls
%3D
V2 = Smls
Transcribed Image Text:In the figure shown below a mass m = 0.1 kg travelling at 10 m/s hits the stationary rod with mass M = 1 kg and length L = 1m, after which "m" rebounds back with a velocity of 5m/s. (a) What is the angular velocity (wo) of the rod of mass M, just after "m" rebounds? (b) What is the maximum deflection (0) of the rod? NOTE: To find wo please note that the collision is NOT perfectly elastic and the hinge is capable of applying a force but NOT a moment. This guides the choice of the correct conservation of law. L=1m Wo Wo V = 10mls %3D V2 = Smls
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