Problem An electric motor provides a constant torque of 12 N.m on a pivoting flywheel which has an inertia around the shaft of 3 kg.m2 and a friction constant of 3 kg.m2 / s. Motor it starts with silence. Zero tolerance is expressed in 2% to face value. 1. Calculate the total work done by the torque from rest until equilibrium is reached angular velocity! 2. Calculate kinetic energy when angular velocity equilibrium is reached! 3. Calculate the average power given by the motor from idle until it is reached equilibrium!
Problem An electric motor provides a constant torque of 12 N.m on a pivoting flywheel which has an inertia around the shaft of 3 kg.m2 and a friction constant of 3 kg.m2 / s. Motor it starts with silence. Zero tolerance is expressed in 2% to face value. 1. Calculate the total work done by the torque from rest until equilibrium is reached angular velocity! 2. Calculate kinetic energy when angular velocity equilibrium is reached! 3. Calculate the average power given by the motor from idle until it is reached equilibrium!
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Transcribed Image Text:Problem
An electric motor provides a constant torque of 12 N.m on a pivoting flywheel
which has an inertia around the shaft of 3 kg.m2 and a friction constant of 3 kg.m2 / s. Motor
it starts with silence. Zero tolerance is expressed in 2% to face value.
1. Calculate the total work done by the torque from rest until equilibrium is reached
angular velocity!
2. Calculate kinetic energy when angular velocity equilibrium is reached!
3. Calculate the average power given by the motor from idle until it is reached
equilibrium!
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