This is a classic question.
In a vacuum, both the the coin and the crumpled paper fall at the same rate due to the absence of air resistance.(Their acceleration being the same)
However, in air, the relative air resistance on the paper is greater than on the coin.(relative, because the coin and the paper do not have the same mass, so the proportion of air resistance as compared to weight is the one relevant) So the acceleration of the paper decreases to zero more rapidly than the coin.(it will decrease to zero provided the objects are released from a sufficiently high point from the earth's surface).
Thus, the coin will fall faster in air.
A coin will typically fall faster than a crumpled paper due to its greater density and streamlined shape. The higher air resistance faced by the paper slows down its fall compared to the denser and more compact coin.
Aerodynamics
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 paper falls faster than an uncrumpled paper due to the increased air resistance and drag acting on the flat surface of the uncrumpled paper. The crumpled paper has a smaller surface area exposed to the air, which reduces air resistance, 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.
A crumpled ball of paper falls faster than a flat sheet of paper because the crumpled ball has a smaller surface area and less air resistance, allowing it to accelerate more quickly towards the ground under the force of gravity.
Aerodynamics
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 paper falls faster than an uncrumpled paper due to the increased air resistance and drag acting on the flat surface of the uncrumpled paper. The crumpled paper has a smaller surface area exposed to the air, which reduces air resistance, 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.
A crumpled ball of paper falls faster than a flat sheet of paper because the crumpled ball has a smaller surface area and less air resistance, allowing it to accelerate more quickly towards the ground under the force of gravity.
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.
False. Both a crumpled piece of paper and a flat piece of paper fall at the same rate due to gravity acting on them. The shape of the paper does not affect the rate at which it falls.
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 crushed paper falls faster than a plain paper because the crushed paper has less air resistance due to its folded and crumpled shape. This reduces the surface area exposed to air resistance, allowing it to fall more quickly.
In a vacuum, both a flat sheet of paper and a crumpled paper would accelerate at the same rate due to gravity. However, air resistance may affect the acceleration of a crumpled paper more than a flat sheet due to differences in surface area and shape, causing the crumpled paper to fall slower.
A coin falls faster than paper due to differences in density and aerodynamics. Coins are denser and have less surface area compared to paper, allowing them to overcome air resistance more easily and accelerate faster towards the ground.
A crumpled ball of paper has less air resistance acting on it compared to a flat sheet of paper. The flat sheet has a larger surface area, causing more air to push against it, resulting in slower falling. The crumpled ball has a more compact shape, reducing the air resistance and allowing it to fall faster.