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A daydreaming soccer player takes a 0.42 kg ball to the face experiencing an impact force of 1215.4 N. If the ball hit the players face with a speed of 13.8 m/s and bounces off in the opposite direction with the same speed, calculate the time of impact. Note: The time of impact will be a fraction of a second so answer with at least 5 decimal places.

User Jon Harding
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1 Answer

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7 votes

Given data

*The given mass of the ball is m = 0.42 kg

*The given impact force is F = 1215.4 N

*The given initial speed is u = 13.8 m/s

*The ball bounces off in the same direction is v = -13.8 m/s

The formula for the time of impact is calculated by the Impulse-momentum theorem as


\begin{gathered} F\Delta t=m\Delta v \\ \Delta t=(m\Delta v)/(F) \end{gathered}

Substitute the known values in the above expression as


\begin{gathered} \Delta t=(0.42*(13.8-(-13.8)))/((1215.4)) \\ =0.00953\text{ s} \end{gathered}

Hence, the time of impact is 0.00953 s

User Moth
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