Paper falls more slowly then a stone because paper weighs less then stones.
A piece of paper falls slowly to the ground because of air resistance. The large surface area of the paper interacts with air molecules, creating a force that opposes its downward motion, causing it to fall more slowly than heavier objects with less surface area.
A crumpled paper has a larger surface area and more air resistance compared to a flat sheet, which results in it falling more slowly. Air resistance acts against gravity, slowing down the descent of the paper.
When an object falls through air, it experiences air resistance. This air resistance is a force that opposes the object's motion. The amount of air resistance an object experiences depends on the object's shape, size, and speed. A man using a parachute falls slowly because the parachute creates a large amount of air resistance. A stone falls very fast because it has a small amount of air resistance.
Paper falls slowly due to its low mass and surface area-to-mass ratio. Air resistance plays a significant role in slowing down the fall of paper, as it pushes against the paper and counteracts the force of gravity. This results in a slower descent compared to denser and more aerodynamic objects.
A sheet of paper sinks more slowly than a crumpled paper because the crumpled paper contains more air pockets, providing buoyancy. As a result, the crumpled paper has a lower overall density than the flat sheet of paper, causing it to sink more slowly.
It falls slowly because it is light, but also because the rough, flexible paper has more drag than stiffer writing paper.
A piece of paper falls slowly to the ground because of air resistance. The large surface area of the paper interacts with air molecules, creating a force that opposes its downward motion, causing it to fall more slowly than heavier objects with less surface area.
A crumpled paper has a larger surface area and more air resistance compared to a flat sheet, which results in it falling more slowly. Air resistance acts against gravity, slowing down the descent of the paper.
When an object falls through air, it experiences air resistance. This air resistance is a force that opposes the object's motion. The amount of air resistance an object experiences depends on the object's shape, size, and speed. A man using a parachute falls slowly because the parachute creates a large amount of air resistance. A stone falls very fast because it has a small amount of air resistance.
Paper falls slowly due to its low mass and surface area-to-mass ratio. Air resistance plays a significant role in slowing down the fall of paper, as it pushes against the paper and counteracts the force of gravity. This results in a slower descent compared to denser and more aerodynamic objects.
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A sheet of paper sinks more slowly than a crumpled paper because the crumpled paper contains more air pockets, providing buoyancy. As a result, the crumpled paper has a lower overall density than the flat sheet of paper, causing it to sink more slowly.
Dawn A. Stone has written: 'Paridonquay Falls'
A parachute descends slowly due to its large surface area, which creates significant air resistance (drag) as it falls, allowing it to slow down and reach a stable descent speed. In contrast, a stone has a much smaller surface area relative to its weight, resulting in less air resistance. Therefore, the stone accelerates rapidly due to gravity until it reaches its terminal velocity, which is much higher than that of the parachute. This difference in drag effects explains the contrasting descent speeds.
When a paper is crumbled, the air resistance it experiences increases due to the irregular shape, causing it to fall more slowly than a flat piece of paper. The increased air resistance creates more drag, slowing down the crumpled paper's descent compared to when it's flat.
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