When you crumple a paper you are decreasing the surface area. The less surface area, the less the wind can stop the paper. it also works because you are putting more weight on one area.
A flat piece of paper has a larger surface area, creating friction with the air, or more air resistance. There is more air surrounding the piece of paper, and this slows it down. A crumpled piece of paper has less surface area to create friction, meaning less air resistance. This causes it to fall faster.
The ball presents less Surface Area to the air than a flat sheet. So, there is less air resistance when a thin piece of paper is crumpled into a ball.
It accelerates faster because it has less air resistance.
This is because the flat piece of paper has a greater surface area, thus creating more friction between the air and itself, (this is also known as air resistance). The crumpled ball however, has a smaller surface area, creating less air resistance. The shape is different, meaning that the amount of force it gets is also different.
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 a flat piece of paper has a larger surface area and therefore more wind resistance. But in a crumbled piece of paper the wind resistance is less.
A flat piece of paper has a larger surface area, creating friction with the air, or more air resistance. There is more air surrounding the piece of paper, and this slows it down. A crumpled piece of paper has less surface area to create friction, meaning less air resistance. This causes it to fall faster.
Because the crumbled up bit will have less surface area, and with that less air drag. Less drag allows it to reach a higher speed.
Because there is less surface area on the crumbled piece of paper, there is less area upon which the force of friction (air resistance) may act. There is more surface area on the normal piece of paper, which allows friction to act over a greater area on the paper. More air resistance causes the flat piece to fall slower.
Less air resistance.
The ball presents less Surface Area to the air than a flat sheet. So, there is less air resistance when a thin piece of paper is crumpled into a ball.
It accelerates faster because it has less air resistance.
The flat paper has more surface area, allowing it to catch more air and float. The crumpled paper on the other hand, does not, because it doesn't have as much surface area to spread the air out.
This is because the flat piece of paper has a greater surface area, thus creating more friction between the air and itself, (this is also known as air resistance). The crumpled ball however, has a smaller surface area, creating less air resistance. The shape is different, meaning that the amount of force it gets is also different.
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.
False, the gravity on the sheet of paper is the same regardless of its shape. However the crumpled sheet has less air resistance than the flat sheet allowing it to fall faster.
In a vacuum, there is no drag, i.e. air resistance, so the coin and the piece of paper will fall the same way in a vacuum, whereas in air, the paper will flutter down while the coin will have minimal impediment due to its drag coefficient being far less than that of paper.