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A scene in a movie has a stuntman falling through a floor onto a bed in the room below. The plan is to have the actor fall on his back, but a researcher has been hired to investigate the safety of this stunt. When the researcher examines the mattress, she sees that it effectively has a spring constant of 65144 N/m for the area likely to be impacted by the stuntman, but it cannot depress more than 11.79 cm without injuring him. To approach this problem, consider a simplified version of the situation. A mass falls through a height of 3.12 m before landing on a spring of force constant 65144 N/m. Calculate the maximum mass that can fall on the mattress without exceeding the maximum compression distance.

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  1. Today, 00:47
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    14.27 kg

    Explanation:

    Potential energy of the body falling from the height = mg (h + e) where m is the mass of the body in kg, g is acceleration due to gravity in m/s² and h is height in m

    energy conserved in the mattress by the body falling on it = 0.5 k e² where e is the compression of the mattress and k is the force constant

    Potential energy = work done in compressing the mattress to 11.79 cm

    m g (h+e) = 0.5 k e²

    m = 0.5 k e² / g (h+e) = (0.5 * 65144N/m * (0.1179 m) ²) / (9.8 m/s² * (3.12m + 0.1179m) = 14.27 kg
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