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14 November, 01:59

Swimmers at a water park have a choice of two frictionless water slides as shown in the figure. although both slides drop over the same height, h, slide 1 is straight while slide 2 is curved, dropping quickly at first and then leveling out. how does the speed v1 of a swimmer reaching the end of slide 1 compares with v2, the speed of a swimmer reaching the end of slide 2?

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  1. 14 November, 02:06
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    If swimmers had a choice of the water slides shown in this figure,

    they would all go home dry, since there is no figure. I'll have to try to

    answer this question based on only the words in the text, augmented

    only by my training, education, life experience, and human logic.

    - - Both slides are frictionless. So no energy is lost as a swimsuit

    scrapes along the track, and the swimmer's kinetic energy at the

    bottom is equal to the potential energy he had at the top.

    - - Both slides start from the same height. So the same swimmer

    has the same potential energy at the top of either one, and therefore

    the same kinetic energy at the bottom of either one.

    - - So the difference in the speeds of two different swimmers

    on the slides depends only on the difference in the swimmers'

    mass, and is not influenced by the shape or length of the slides

    (as long as the slides remain frictionless).

    If both swimmers have the same mass, then v₁ = v₂.
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