a piece of pie
it would hit the ground if there was one to hit
weight doesnt matter, the bigger one, which has the higher resistance will fall a tiny bit slower
no?
Goalkeepers fall on the ball during a soccer match to prevent the opposing team from scoring a goal. By quickly getting to the ball and covering it with their body, goalkeepers can stop the ball from crossing the goal line and maintain possession for their team.
No, in the absence of air resistance, all objects fall at the same rate regardless of their weight due to the acceleration of gravity. This was famously demonstrated by Galileo with his experiments involving balls of different weights. Thus, a lighter ball will not fall faster than a heavier ball in a vacuum.
so you dont trip or fall while trying to handle the ball or run .
In the absence of air resistance, all objects fall at the same rate regardless of their mass or composition. This principle is known as the equivalence principle of gravity. So, a ball closer to the ground would not fall faster than one higher up.
if it is something simple like catch, yes. But if you are playing basketball or soccer then it will probably fall apart lol XD
Both will fall at the same time in vacuum because there is no resistance.
They would fall in same time in a vacuum, but if air is present the ball falls faster due to high air resistance on the leaf
A paper clip will likely fall faster in the air due to its higher density compared to a rubber ball. Density affects the rate at which objects fall through the air, with denser objects falling faster than less dense objects.
No, a bowling ball does not always fall faster than a feather just because it weighs more. In a vacuum where there is no air resistance, both objects fall at the same rate due to gravity. In the presence of air resistance, the shape and size of the objects will affect how quickly they fall.