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7 September, 23:01

An elevator (mass 4100 kg) is to be designed so that the maximum acceleration is 0.0400g. what is the maximum force the motor should exert on the supporting cable? incorrect: your answer is incorrect. n what is the minimum force the motor should exert on the supporting cable?

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  1. 7 September, 23:04
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    The maximum force on the supporting cable is 80688 N.

    The minimum force on the supporting cable is - 164 N.

    Explanation:

    For maximum force movement of elevator is in upward direction. Thus, equation of motion is given by,

    ma = T - mg

    where m is the mass of elevator

    a is acceleration of elevator

    g is acceleration due to gravity

    T is the maximum tension in the supporting cable

    T = ma + mg

    T = m (a + g)

    T = 4100 (0.04g + 9.8)

    T = 80688 N

    This is the maximum force on the supporting cable.

    For minimum force movement of elevator is in downward direction. Thus, equation of motion is given by,

    ma = T - mg

    where m is the mass of elevator

    a = - 0.04g is acceleration of elevator because elevator is moving downward

    g is acceleration due to gravity

    T is the minimum tension in the supporting cable

    T = ma + mg

    T = m (a + g)

    T = 4100 (9.8 - 0.04g)

    T = - 164 N

    This is the minimum force on the supporting cable.
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