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5 December, 05:03

A ball of mass 2.00-kg is dropped from a height of 1.5 m (from the ground) onto a massless spring (the spring has an equilibrium length of 0.50 m). The ball compresses the spring by an amount of 0.20 m by the time it comes to a stop. Calculate the spring constant of the spring.

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  1. 5 December, 08:03
    0
    653.3 N/m

    Explanation:

    From the question,

    Potential energy of the falling ball = elastic energy stored in the spring.

    mgh = 1/2ke² ... Equation 1

    Where m = mass of the ball, h = height from which the ball was dropped, g = acceleration due to gravity, k = spring constant, e = extension.

    make k the subject of the equation

    k = 2mgh/e² ... Equation 2

    Given: m = 2 kg, h = 1.5 m, g = 9.8 m/s², e = 0.5-0.2 = 0.3 m

    Substitute these values into equation 2

    k = 2 (2) (9.8) (1.5) / 0.3²

    k = 653.3 N/m
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Home » Physics » A ball of mass 2.00-kg is dropped from a height of 1.5 m (from the ground) onto a massless spring (the spring has an equilibrium length of 0.50 m). The ball compresses the spring by an amount of 0.20 m by the time it comes to a stop.
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