Two masses ma=1kg and mp=5.4kg are connected by a rope that hangs over a pulley as shown in the figure. The pulley is a uniform cylinder of radius R=0.62m and mass M=15kg. The system is released from rest. Just before mp hits the ground, calculate the speed of the pulley. Take h=8,5m, g=10 m/s?. Round your answer to one decimal place. Sinder -MR? %3D Note: CM , assume the rope is massless and does not slide over the pulley.
Two masses ma=1kg and mp=5.4kg are connected by a rope that hangs over a pulley as shown in the figure. The pulley is a uniform cylinder of radius R=0.62m and mass M=15kg. The system is released from rest. Just before mp hits the ground, calculate the speed of the pulley. Take h=8,5m, g=10 m/s?. Round your answer to one decimal place. Sinder -MR? %3D Note: CM , assume the rope is massless and does not slide over the pulley.
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Transcribed Image Text:Two masses ma=1kg and mp=5.4kg are connected by a rope that hangs over a pulley as shown in the figure. The pulley is a uniform cylinder of
radius R=0.62m and mass M=15kg. The system is released from rest. Just before mp hits the ground, calculate the speed of the pulley. Take
h=8,5m, g=10 m/s?, Round your answer to one decimal place.
inder =MR?
Note:
%3D
assume the rope is massless and does not slide over the pulley.
CM
me
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