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    2. Classical Mechanics
    3. Conservation Laws
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    5. 155536

    translational speed of bowling ball at the top of the rise

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    A bowling ball encounters a 0.760 m verticle rise on the way back to ball rack. Ignore frictional losses and assume that the speed of the ball is 3.50 m/s at the bottom of the rise. .

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    https://brainmass.com/physics/conservation-of-energy/translational-speed-of-bowling-ball-at-the-top-of-the-rise-155536

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    The solution shows how to apply conservation of energy to calculate the translational speed of the bowling ball at the top of the vertical rise

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