Yes. All objects fall at the same rate, but the rate varies depending on the force of gravity.
In a vacuum chamber. C. On the moon.
In a vacuum chamber. C. On the moon.
on the moon, which object would fall with the same acceleration
all three.
they would each hit at precisly the same time because there is no gravity on the moon, therefore, nothing would bring down the objects according to weight.
No, Unless you put force behind them, neither. The lower gravity would cause them to just sit there were you let go of them. But if you did put force behind them; the bowling ball would hit the ground first, solely because of its weight and momentum.
yes as their is less gravity on the moon the balls would be lighter and float away like a balloon, so they would behave like a balloon instead of a ball.
In a vacuum chamber. C. On the moon.
In a vacuum chamber. C. On the moon.
In a vacuum chamber. C. On the moon.
Some toys could not be used on the moon because the moon's gravity is much smaller. Toys that would fall in this category would be bouncie balls, pogo sticks, and various balls like basketballs, volleyballs, and baseballs.
If you stand at the top of the bowling alley with a feather in one hand and a bowling ball in the other and drop them at the same time, the bowling ball will hit the parking lot first because wind currents will cause the feather to drift slowly.
on the moon, which object would fall with the same acceleration
nutsacks and suck my balls
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all three.
Any two objects that you drop while you're on the moon will fall to the moon's surface, and they'll hit it at the same exact time. The moon is a particularly good place to demonstrate this principle, because there's no air there to spoil it. On the moon, you could drop a bowling ball and a sheet of kleenex, and watch in amazement as they hit the ground between your feet at the same exact instant.