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.
In a vacuum, a feather and a piece of paper would fall at the same rate due to gravity. However, in Earth's atmosphere, the feather would fall more slowly due to air resistance.
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 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.
In a vacuum, a feather and a quarter would fall at the same rate due to gravity's influence. However, in normal conditions with air resistance, the feather falls slower since it has a larger surface area, creating more air resistance.
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.
In a vacuum, a feather and a piece of paper would fall at the same rate due to gravity. However, in Earth's atmosphere, the feather would fall more slowly due to air resistance.
they will all fall
pretty much the same
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.
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.
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.
In a vacuum, a feather and a quarter would fall at the same rate due to gravity's influence. However, in normal conditions with air resistance, the feather falls slower since it has a larger surface area, creating more air resistance.
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.
A rock falls faster than a feather due to differences in their mass and air resistance. Air resistance affects the feather more than the rock due to its larger surface area and lighter mass, causing the feather to fall more slowly.
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.
A feather can fall more slowly than a marble in air due to differences in their size, shape, and air resistance. The greater surface area of a feather compared to a marble causes more air resistance, which slows down the feather's fall. A denser object like a marble will fall faster than a less dense object like a feather because it overcomes air resistance more effectively.