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7 March, 06:57

A juggler throws a bowling pin straight up with an initial speed of 7.70m/s. How much time elapses until the bowling pin returns to the juggler's hand?

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  1. 7 March, 07:30
    0
    1.57 s

    Explanation:

    From Newton's equation of motion.

    v = u + gt ... Equation 1

    Where v = final velocity, u = initial velocity, g = acceleration due to gravity, t = time taken for the bowling pin to reach the maximum height.

    Given: v = 0 m/s (The pin is being thrown up), u = 7.7 m/s, g = - 9.81 m/s² (against air resistant)

    Substituting into equation 1

    0 = - 7.7 + (-9.81t)

    9.81t = 7.7

    t = 7.7/9.81

    t = 0.785 s.

    Note:Time taken for the pin to return to the juggler's hand is doubled the time taken to reach the maximum height

    T = 2t

    T = 2 (0.785)

    T = 1.57 s.

    Hence the time taken for the pin to returns to the juggler's hand = 1.57 s
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