In a vacuum, both a ball and a piece of paper will fall at the same rate and hit the ground at the same time because they are subject to the same gravitational acceleration. However, in reality, the paper may experience more air resistance and fall more slowly than the ball.
the sheet of paper,because it has more surface area
A crumpled paper ball has a smaller surface area compared to a flat sheet of paper, which increases air resistance and slows down its fall. The crumpled ball also has more internal air resistance, which further hinders its fall speed.
Both the crumpled paper ball and the rectangular shape paper would reach the ground at the same time when dropped from the same height in a vacuum. This is because in the absence of air resistance, all objects fall at the same rate due to gravity.
Assuming the ball and paper clip are dropped from the same height and there is no air resistance, they will touch the ground at the same time because all objects fall at the same rate due to gravity. This is known as the principle of equivalence.
To make a piece of paper fall slowly, you can crumple it into a loose ball or create an air resistance barrier underneath it by placing a mesh or netting. This will increase the surface area and air resistance, slowing down its descent. You can also gently drop it from a height to further reduce its speed.
the sheet of paper,because it has more surface area
A crumpled paper ball has a smaller surface area compared to a flat sheet of paper, which increases air resistance and slows down its fall. The crumpled ball also has more internal air resistance, which further hinders its fall speed.
The crumbled. It's more like a ball, unlike the 2D paper. And since you can't keep the paper completely folded, It might as well be in 2nd place.
Both the crumpled paper ball and the rectangular shape paper would reach the ground at the same time when dropped from the same height in a vacuum. This is because in the absence of air resistance, all objects fall at the same rate due to gravity.
Assuming the ball and paper clip are dropped from the same height and there is no air resistance, they will touch the ground at the same time because all objects fall at the same rate due to gravity. This is known as the principle of equivalence.
Between rock and paper, paper is lighter. However if dropped from same height they do fall at the same speed.
Yes
To make a piece of paper fall slowly, you can crumple it into a loose ball or create an air resistance barrier underneath it by placing a mesh or netting. This will increase the surface area and air resistance, slowing down its descent. You can also gently drop it from a height to further reduce its speed.
Crumple the paper into a tight ball before dropping it. The increased surface area and air resistance of a flat sheet of paper slowed its fall, and crumpling it reduces both, allowing it to fall quicker.
If we are talking in vaccum then both will have same acceleration.But if there is no vaccum then paper crumbled into a ball will have greater acceleration because air resistance will be less for it.
Because when the sheet of paper is flat, it acts like a parachute, and collects much more air resistance. The balled-up piece of paper has much less surface area, so can collect much less air resistance, making it fall faster.
Yes, the height at which a ball is dropped can affect its bounce. The higher the drop height, the higher the bounce due to an increase in potential energy during the fall. However, factors like the ball material, surface it bounces on, and air resistance also play a role in determining the bounce height.