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8 February, 09:06

A spring has a force constant of 310.0 N/m. (a) Determine the potential energy stored in the spring when the spring is stretched 4.11 cm from equilibrium. J (b) Determine the potential energy stored in the spring when the spring is stretched 3.17 cm from equilibrium. J (c) Determine the potential energy stored in the spring when the spring is unstretched. J

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  1. 8 February, 09:54
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    (a) 0.2618 J

    (b) 0.1558 J

    (c) 0 J

    Explanation:

    from Hook's Law,

    The energy stored in a stretched spring = 1/2ke²

    Ep = 1/2ke² ... Equation 1

    Where k = spring constant, e = extension, E p = potential energy stored in the spring.

    (a) When The spring is stretched to 4.11 cm,

    Given: k = 310 N/m, e = 4.11 cm = 0.0411 m

    Substituting these values into equation 1

    Ep = 1/2 (310) (0.0411) ²

    Ep = 155 (0.0016892)

    Ep = 155*0.0016892

    Ep = 0.2618 J.

    (b) When the spring is stretched 3.17 cm

    e = 3.17 cm = 0.0317 m.

    Ep = 1/2 (310) (0.0317) ²

    Ep = 155 (0.0317) ²

    Ep = 155 (0.0010049)

    Ep = 0.155758 J

    Ep ≈ 0.1558 J.

    (c) When the spring is unstretched,

    e = 0 m, k = 310 N/m

    Ep = 1/2 (310) (0) ²

    Ep = 0 J.
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