Because the earth is bigger than both so they get pulled down with gravity at the same time
All three reach the ground at the same time
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.
Yes... Its not the weight but the force of gravity
Yes
They would hit the surface together, after a very long time. Gravity on Ceres is pretty light.
as done in Galileo's experiment when he dropped a large rock and a feather from a tall tower both hit the ground at the same moment when dropped from the same height.
Ignoring the effects of air resistance, the velocity of any object dropped near the surface of the Earth is 29.42 meters (96.53 feet) per second, directed downward, after it has fallen 3 meters. If you're working with situations and asking questions like this one, then you're supposed to know by now that the mass or weight of the object makes no difference. If you can eliminate air resistance, then the answer is the same for a feather, a bowling ball, and a battleship.
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 Earth, no. Air resistance would slow the feather way down. However, dropped on somewhere without an atmosphere (like the moon), they would reach the ground at the same time.
A bowling ball and a soccer ball, dropped from the same height will hit the ground at exactly the same time.
In a vacuum, both will hit at the same time. The bowling ball will do so in normal atmosphere due to the friction of the air.
both reaches the ground at the same time because in the moon there occurs free fall.
So the ball can pick up more speed. For example, if you drop a feather on the ground, it takes a longer time to fall than a heavier object, such as a notepad. A bowling ball is heavier to gain speed faster.