n a laboratory experiment a 0.20 kilogram hanging mass is attached via string to a pulley with outter radius .3 m. When released from rest the mass is observed to fall .80 m to the floor at which time it is traveling 1.3 m/s A. Find moment of inertia of the pulley using energy conservation b. How do the following change if the mass were attached the pulleys inner radius (.15 m ) instead? -acceleration - angular acceleration -tension -torque -time for mass to fall -moment of inertia of the pulley Answer with one of these words - same, increase, decrease.
n a laboratory experiment a 0.20 kilogram hanging mass is attached via string to a pulley with outter radius .3 m. When released from rest the mass is observed to fall .80 m to the floor at which time it is traveling 1.3 m/s A. Find moment of inertia of the pulley using energy conservation b. How do the following change if the mass were attached the pulleys inner radius (.15 m ) instead? -acceleration - angular acceleration -tension -torque -time for mass to fall -moment of inertia of the pulley Answer with one of these words - same, increase, decrease.
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In a laboratory experiment a 0.20 kilogram hanging mass is attached via string to a pulley with outter radius .3 m. When released from rest the mass is observed to fall .80 m to the floor at which time it is traveling 1.3 m/s
A. Find moment of inertia of the pulley using energy conservation
b. How do the following change if the mass were attached the pulleys inner radius (.15 m ) instead?
-acceleration
-
-tension
-torque
-time for mass to fall
-moment of inertia of the pulley
Answer with one of these words - same, increase, decrease.
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