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7 November, 03:35

Starting from rest, a 2.3x10-4 kg flea springs straight upward. While the flea is pushing off from the ground, the ground exerts an average upward force of 0.49 N on it. This force does 3.6x10-4 J of work on the flea. (a) What is the flea's speed when it leaves the ground

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  1. 7 November, 03:42
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    3.13 m/s

    Explanation:

    From the question,

    Since the flea spring started from rest,

    Ek = W ... Equation 1

    Where Ek = Kinetic Energy of the flea spring, W = work done on the flea spring.

    But,

    Ek = 1/2mv² ... Equation 2

    Where m = mass of the flea spring, v = flea's speed when it leaves the ground.

    substitute equation 2 into equation 1

    1/2mv² = W ... Equation 3

    make v the subject of the equation

    v = √ (2W/m) ... Equation 4

    Given: W = 3.6*10⁻⁴ J, m = 2.3*10⁻⁴ kg

    Substitute into equation 4

    v = √[2*3.6*10⁻⁴) / 2.3*10⁻⁴]

    v = 7.2/2.3

    v = 3.13 m/s

    Hence the flea's speed when it leaves the ground = 3.13 m/s
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