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A bucket for collecting water from a well is suspended by a rope which is wound around a pulley. The empty bucket has a mass of 2.0 kg, and the pulley is essentially a uniform cylinder of mass 3.0 kg on a frictionless axle. Suppose a person drops the bucket (from rest) into the well.

    Part A

    What is the bucket's acceleration as it falls?

    Solution

    We will consider two different methods to obtain the solution.

      Systems:

      The pulley and the bucket are treated as separate objects. The bucket can be treated as a point particle, but the pulley must be treated as a rigid body.

      Interactions:

      The pulley and the bucket are each subject to external influences from the rope and from gravitys. The pulley is also subject to a force from the axle.

      Model:

      Rotation and Translation of a Rigid Body and Point Particle Dynamics

      Approach:

      Interactions:

      The system is subject to external forces from the earth acting on the bucket and the pulley and from the normal force acting on the pulley.

      Model:

      1-D Angular Momentum and Torque

      Approach:

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      Part B

      What is the bucket's speed after falling 5.0 m down the well?

      Solution

      Again, we will use two methods.

        Method 1

        System:

        Bucket as point particle.

        Interactins:

        External influences from the earth (gravity) and the rope (tension).

        Model:

        One-Dimensional Motion with Constant Acceleration.

        Approach:

        Method 2

        System:

        Treat the bucket, pulley and the earth as a single system.

        Interactions:

        Internal interactions of gravity (conservative) and tension from the rope (non-conservative) plus an external influence from the normal force on the pulley (non-conservative).

        Model:

        Mechanical Energy and Non-Conservative Work.

        Approach:

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