A crumpled piece of paper has a larger surface area, which increases air resistance and slows down its fall. The increased air resistance counteracts the force of gravity acting on the paper, causing it to fall slower than a flat piece of paper, which has less air resistance due to its smaller surface area.
A crumpled piece of paper falls faster than a flat piece due to air resistance. The crumpled paper has a smaller surface area exposed to air compared to the flat paper, reducing the force of air resistance acting on it. This allows the crumpled paper to accelerate faster towards the ground.
Decreasing the surface area of a piece of paper reduces the drag force acting on it as it falls through the air. This is because there is less area for air molecules to interact with the paper, resulting in lower air resistance. As a result, the paper falls faster with less air resistance when its surface area is decreased.
A crumpled piece of paper falls faster than an uncrumpled paper due to its shape. The crumpled paper has more air resistance, meaning it will accelerate faster towards the ground compared to the flat paper. The crumpled paper falls in a more streamlined and compact manner, reducing air resistance and allowing it to fall faster.
A piece of paper falls faster than a feather due to differences in their shape, density, and air resistance. The paper has a larger surface area and less air resistance compared to a feather, which slows down the feather's descent. The feather also experiences more air resistance due to its light weight and fluffy texture.
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 crumpled piece of paper has a larger surface area, which increases air resistance and slows down its fall. The increased air resistance counteracts the force of gravity acting on the paper, causing it to fall slower than a flat piece of paper, which has less air resistance due to its smaller surface area.
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.
A crumpled piece of paper falls faster than a flat piece due to air resistance. The crumpled paper has a smaller surface area exposed to air compared to the flat paper, reducing the force of air resistance acting on it. This allows the crumpled paper to accelerate faster towards the ground.
Decreasing the surface area of a piece of paper reduces the drag force acting on it as it falls through the air. This is because there is less area for air molecules to interact with the paper, resulting in lower air resistance. As a result, the paper falls faster with less air resistance when its surface area is decreased.
A crumpled piece of paper falls faster than an uncrumpled paper due to its shape. The crumpled paper has more air resistance, meaning it will accelerate faster towards the ground compared to the flat paper. The crumpled paper falls in a more streamlined and compact manner, reducing air resistance and allowing it to fall faster.
A piece of paper falls faster than a feather due to differences in their shape, density, and air resistance. The paper has a larger surface area and less air resistance compared to a feather, which slows down the feather's descent. The feather also experiences more air resistance due to its light weight and fluffy texture.
When a piece of paper is flat, air resistance acts on a larger surface area, slowing down its fall compared to when it's rolled up with less surface area exposed to air resistance. The rolled-up paper offers less resistance to air flow, causing it to fall faster.
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.
A crumpled piece of paper has a larger surface area than a flat piece of paper, which increases air resistance and slows down its fall. The crumpled paper also has irregular shapes and edges that disrupt the airflow around it, causing it to fall more slowly than a flat paper.