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25 September, 09:16

A 2.5 kg, 20-cm-diameter turntable rotates at 70 rpm on frictionless bearings. Two 480 g blocks fall from above, hit the turntable simultaneously at opposite ends of a diameter, and stick.

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  1. 25 September, 12:41
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    Question: What is the turntable's angular velocity, in rpm, just after this event?

    A: 39.6 rpm

    Explanation:

    Assuming that no external torques act on the system (turntable + blocks) during the collision, total angular momentum must be conserved.

    Just before that the two blocks fell down on the turntable, the angular momentum is as follows:

    L = I * ω

    For a solid disk, the moment of inertia is mr²/2, so we can write I as follows:

    I = (2.5 * ((0.2) ²/4)) kg. m² = 0.0125 kg. m²

    Taking ω as 70 rpm, we get the value of the initial L as follows:

    L = 0.0125 kg. m² * 70 rpm = 0.875 kg. m²*rpm

    After the collision, the system has a new moment of inertia, that can be expressed as follows:

    If = 0.0125 kg. m² + (2*0.48 kg * ((0.2) ² / 4)) = 0.0221 kg. m²

    As the total angular momentum must be conserved, we can write the following equation:

    L = If * ωf

    Solving for ωf:

    ⇒ ωf = L/If = 0.875 kg. m². rpm / 0.0221 kg. m² = 39.6 rpm
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