A horizontal conveyor belt moving at a uniform velocity of 1m/s transports load at the rate of 50,000 kg/hour. The belt is 180m long and is driven by a 960 rev/min motor. Determine the equivalent rotational inertia at the motor shaft. Calculate the required braking torque at the motor shaft to stop the belt at a uniform rate in 10 seconds.

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A horizontal conveyor belt moving at a uniform velocity of 1m/s transports load at the rate of 50,000 kg/hour. The belt is 180m long and is driven by a 960 rev/min motor.

  1. Determine the equivalent rotational inertia at the motor shaft.
  2. Calculate the required braking torque at the motor shaft to stop the belt at a uniform rate in 10 seconds.
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