A basketball player makes a 3-point shot from 23.0 ft from the hoop. The ball (R = 0.394 ft) is in the air for 1 s, and the player imparts the typical 2 rev/s backspin to the ball. The density of air is 0.0024 slug/ft3. Ignore drag. Calculate the horizontal component of the ball’s velocity at the peak of its trajectory. Round the final answer to the nearest whole number. Determine the magnitude of the Magnus force at the peak of the ball’s trajectory. Round the final answer to two decimal places.
A basketball player makes a 3-point shot from 23.0 ft from the hoop. The ball (R = 0.394 ft) is in the air for 1 s, and the player imparts the typical 2 rev/s backspin to the ball. The density of air is 0.0024 slug/ft3. Ignore drag. Calculate the horizontal component of the ball’s velocity at the peak of its trajectory. Round the final answer to the nearest whole number. Determine the magnitude of the Magnus force at the peak of the ball’s trajectory. Round the final answer to two decimal places.
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A basketball player makes a 3-point shot from 23.0 ft from the hoop. The ball (R = 0.394 ft) is in the air for 1 s, and the player imparts the typical 2 rev/s backspin to the ball. The density of air is 0.0024 slug/ft3. Ignore drag.
Calculate the horizontal component of the ball’s velocity at the peak of its trajectory. Round the final answer to the nearest whole number.
Determine the magnitude of the Magnus force at the peak of the ball’s trajectory. Round the final answer to two decimal places.
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