Consider a person on the moon who launches herself into a standing broad jump at 45°. The average force generated during launching is, as stated in the text, F =2W, and the distance over which this force acts is 60 cm. The gravitational constant on the moon is 1/6 that on earth. Compute (a) the range of the jump; (b) the maximum height of the jump; (c) the duration of the jumn
Consider a person on the moon who launches herself into a standing broad jump at 45°. The average force generated during launching is, as stated in the text, F =2W, and the distance over which this force acts is 60 cm. The gravitational constant on the moon is 1/6 that on earth. Compute (a) the range of the jump; (b) the maximum height of the jump; (c) the duration of the jumn
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Consider a person on the moon who launches herself into a standing
broad jump at 45°. The average force generated during launching is, as
stated in the text, F=2W, and the distance over which this force acts
is 60 cm. The gravitational constant on the moon is 1/6 that on earth.
Compute (a) the range of the jump; (b) the maximum height of the jump;
(c) the duration of the jump.
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