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Still accelerating til it hits earth.

======================================

The height from which she dropped the ball is irrelevant. In any case, the ball was

most likely moving at the greatest speed just as it hit the ground. The answer to

the question is: zero.

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Q: Rae dropped a bowling ball from a height of 8 meters. At which distance above the ground was the ball MOST likely moving at the greatest speed?

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Still accelerating til it hits earth. ====================================== The height from which she dropped the ball is irrelevant. In any case, the ball was most likely moving at the greatest speed just as it hit the ground. The answer to the question is: zero.

Assuming both were dropped from the same height above ground, in a vacuum both would hit the ground at the same time. In a significant atmosphere (e.g. average ground-level on Earch) the bowling ball would hit the ground first.

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Both the car and the bowling ball will hit the ground at the same time, assuming they are dropped from the same height in a vacuum. This is because all objects fall at the same rate of acceleration due to gravity, regardless of their mass.

A bowling ball and a soccer ball, dropped from the same height will hit the ground at exactly the same time.

If you drop an apple from your right hand and a bowling ball from your left off the roof of the bowling alley, they will hit the parking lot at the same time.

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No. The horizontal distance depends on how close the the ground the gun is. From the firing position, a bullet dropped to the ground will strike the ground in the same time as a bullet shot horizontally forward.

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No. They will hit the ground at the same time. The inertia for the heavier ball will be greater, but the acceleration for both will be the same, and both would (if the air resistance is the same for both) hit at the same time.

No. It is on even ground.