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1 February, 13:26

A bowling ball is launched off the top of a 240-foot tall building. The height of the bowling ball above the ground t seconds after being launched is s (t) = - 16t 2 + 32t + 240 feet above the ground. What is the velocity of the ball as it hits the ground?

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  1. 1 February, 14:21
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    V = (-32t + 32) ft/s

    The velocity of the bowling ball after t seconds is the time derivative of the position function s (t). To obtain the velocity from s (t) we simply differentiate s (t) with respect to t. That is

    V = ds (t) / dt = - 16*2t + 32*1 = - 32t + 32.

    When differentiating, you multiply the coefficient of each term in the equation with the power of the variable and then reduce the power by 1 just like above.
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