Two blocks of mass ma=5.7kg and mg=6.2kg are attached to the ends of a massless string which passes through a pulley of radius R=33cm and mass M=3.2 kg. If the coefficient of the kinetic friction between the table and ma is Hk=0.35 and mB was at an initial height of h=2m when the system was released from rest, determine the speed of mg right before it hits the ground.Express your answer using Sl units with one decimal place. Take g=9.8 m/s and assume that the pulley is in the shape of a disk with l=MR/2. MA
Two blocks of mass ma=5.7kg and mg=6.2kg are attached to the ends of a massless string which passes through a pulley of radius R=33cm and mass M=3.2 kg. If the coefficient of the kinetic friction between the table and ma is Hk=0.35 and mB was at an initial height of h=2m when the system was released from rest, determine the speed of mg right before it hits the ground.Express your answer using Sl units with one decimal place. Take g=9.8 m/s and assume that the pulley is in the shape of a disk with l=MR/2. MA
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Transcribed Image Text:Two blocks of mass ma=5.7kg and mp=6.2kg are attached to the ends of a massless string which passes through a pulley of radius R=33cm and mass
M=3.2 kg. If the coefficient of the kinetic friction between the table and ma is uk=0.35 and mg was at an initial height of h=2m when the system was
released from rest, determine the speed of mg right before it hits the ground.Express your answer using SI units with one decimal place. Take g=9.8
m/s? and assume that the pulley is in the shape of a disk with 1=MR?/2.
MA
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