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4 June, 21:54

A ball encounters no air resistance when thrown into the air with 100 J of kinetic energy, which is transformed to gravitational potential energy at the top of its trajectory. What is its kinetic energy when it returns to its original height

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  1. 4 June, 23:04
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    The kinetic energy when it returns to its original height is 100 J

    Explanation:

    The ball is thrown up with a Kinetic Energy K. E. = 0.5*m*v² = 100 J

    Therefore the final height is given by

    u² = v² - 2·g·s

    Where:

    u = final velocity = 0

    v = initial velocity

    s = final height

    Therefore v² = 2·g·s = 19.62·s

    P. E = Potential Energy = m·g·s

    Since v² = 2·g·s

    Substituting the value of v² in the kinetic energy formula, we obtain

    K. E. = 0.5*m*2·g·s = m·g·s = P. E. = 100 J

    When the ball returns to the original height, we have

    v² = u² + 2·g·s

    Since u = 0 = initial velocity in this case we have

    v² = 2·g·s and the Kinetic energy = 0.5·m·v²

    Since m and s are the same then 0.5·m·v² = 100 J.
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