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.
A feather falls slower than a marble due to air resistance or drag. The light and flat shape of the feather encounters more air resistance, which slows down its fall compared to the denser and more compact marble that falls faster.
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.
A coin falls faster than a feather because of a difference in their air resistance. The feather experiences more air resistance due to its larger surface area compared to the coin, causing it to fall slower. The coin's smaller surface area allows it to overcome air resistance more easily and fall at a faster rate.
The difference is in the air resistance. Without air resistance, both will accelerate at the same rate. If there is air, in the case of the stone the ratio of surface area / weight is less than that of a feather. As a result, the stone will slow down less than the feather, and fall faster.
A leaf falls faster than a feather because it has more surface area and encounters more air resistance. The shape of a leaf also allows it to catch more wind, causing it to fall faster than a feather, which has less surface area and is more affected by air resistance.
A feather falls slower than a marble due to air resistance or drag. The light and flat shape of the feather encounters more air resistance, which slows down its fall compared to the denser and more compact marble that falls faster.
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.
A feather would fall faster on Earth than on the Moon due to Earth's stronger gravitational pull. The Moon has less gravity than Earth, so objects fall more slowly on the Moon.
A coin falls faster than a feather because of a difference in their air resistance. The feather experiences more air resistance due to its larger surface area compared to the coin, causing it to fall slower. The coin's smaller surface area allows it to overcome air resistance more easily and fall at a faster rate.
The difference is in the air resistance. Without air resistance, both will accelerate at the same rate. If there is air, in the case of the stone the ratio of surface area / weight is less than that of a feather. As a result, the stone will slow down less than the feather, and fall faster.
A leaf falls faster than a feather because it has more surface area and encounters more air resistance. The shape of a leaf also allows it to catch more wind, causing it to fall faster than a feather, which has less surface area and is more affected by air resistance.
No. Both will accelerate at about 1.6 meters per second square.
The penny will drop faster than the feather due to the difference in mass and air resistance. The feather experiences more air resistance, which slows down its fall compared to the penny.
No, a bowling ball does not always fall faster than a feather just because it weighs more. In a vacuum where there is no air resistance, both objects fall at the same rate due to gravity. In the presence of air resistance, the shape and size of the objects will affect how quickly they fall.
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.
Newton's First Law (law of inertia) and Second Law (F=ma) apply when the coin hits the ground faster than a feather. The coin's greater mass means it requires more force to overcome inertia and fall faster than the feather. The acceleration of the coin is greater due to the larger force acting on it compared to the feather.
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