In this experiment, a ball rolls down a hill and hits a cup at the bottom. The hypothesis predicted if a ball with higher mass is used, that ball's kinetic energy at the bottom of the hill will be %0D%0A as compared to the kinetic energy of the ball with the lower mass. The kinetic energy of each ball was used to %0D%0A. The data showed that the ball with lower mass would move the cup at the bottom of the ramp a distance of %0D%0A. The data showed that the ball with a higher mass would move the cup at the bottom of the ramp a distance of %0D%0A. This means using a ball with an increased mass will result in %0D%0A in kinetic energy. The hypothesis was %0D%0A.

Question

In this experiment, a ball rolls down a hill and hits a cup at the bottom.  The hypothesis predicted if a ball with higher mass is used, that ball's kinetic energy at the bottom of the hill will be %0D%0A as compared to the kinetic energy of the ball with the lower mass.  The kinetic energy of each ball was used to %0D%0A.  The data showed that the ball with lower mass would move the cup at the bottom of the ramp a distance of %0D%0A.  The data showed that the ball with a higher mass would move the cup at the bottom of the ramp a distance of  %0D%0A. This means using a ball with an increased mass will result in %0D%0A in kinetic energy.  The hypothesis was %0D%0A.

GPT 3.5 · Answer

In this experiment, a ball rolls down a hill and hits a cup at the bottom. The hypothesis predicted if a ball with higher mass is used, that ball's kinetic energy at the bottom of the hill will be greater compared to the kinetic energy of the ball with the lower mass. The kinetic energy of each ball was measured. The data showed that the ball with lower mass would move the cup at the bottom of the ramp a shorter distance. The data showed that the ball with a higher mass would move the cup at the bottom of the ramp a longer distance. This means using a ball with an increased mass will result in more kinetic energy. The hypothesis was supported.

Answer

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