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Why does a sheet of paper fall slower than one that is crumpled into a ball?
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.
When dropped from the same height why does a flat sheet of paper fall slowly than the same sheet when it is tightly crumpled into a ball?
Because when the sheet of paper is flat, it acts like a parachute, and collects much more air resistance. The balled-up piece of paper has much less surface area, so can collect much less air resistance, making it fall faster.
What falls faster a crumpled ball of paper or a flat sheet of paper?
Assuming that both pieces of paper weigh the same, a crumpled piece falls faster in the presence of an atmosphere. In a vacuum, they would fall at the same speed due to the lack of wind resistence.
Will a flat sheet of paper dropped from a height of 2 m accelerate at the same rate as piece of paper crumpled into a ball Why or why not?
Yes, both the flat sheet of paper and the crumpled paper ball will accelerate at the same rate due to gravity, regardless of their shapes. The acceleration due to gravity is a constant value for all objects near the surface of Earth.
Why does a crumpled piece of paper fall faster than a flat piece of paper?
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.
Why does a sheet of paper fall slower than one that is crumpled into a ball?
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.
When dropped from the same height why does a flat sheet of paper fall slowly than the same sheet when it is tightly crumpled into a ball?
Because when the sheet of paper is flat, it acts like a parachute, and collects much more air resistance. The balled-up piece of paper has much less surface area, so can collect much less air resistance, making it fall faster.
What falls faster a crumpled ball of paper or a flat sheet of paper?
Assuming that both pieces of paper weigh the same, a crumpled piece falls faster in the presence of an atmosphere. In a vacuum, they would fall at the same speed due to the lack of wind resistence.
A sheet of paper is torn in half Another sheet is burned A third sheet of paper is crumpled into a ball What kind of change has each sheet of paper undergone?
Well, isn't that interesting! The first sheet of paper underwent a physical change when it was torn in half. The second sheet experienced a chemical change when it was burned. And the third sheet went through a physical change when it was crumpled into a ball. Each sheet transformed in its own unique way, just like how every brushstroke creates a beautiful painting.
Will a flat sheet of paper dropped from a height of 2 m accelerate at the same rate as piece of paper crumpled into a ball Why or why not?
Yes, both the flat sheet of paper and the crumpled paper ball will accelerate at the same rate due to gravity, regardless of their shapes. The acceleration due to gravity is a constant value for all objects near the surface of Earth.
Why does a crumbled piece of paper hit the ground before a flat piece of paper?
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.
Why does a crumpled piece of paper fall faster than a flat piece of paper?
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.
Can papper catch on fire in the microwave?
Yes, however it is difficult. It is unlikely that a single sheet of paper will catch fire, however, a stack of paper may. Also, a tightly, crumpled ball of a single sheet of paper can catch fire, whereas if it is loosely crumpled it is unlikely to catch fire. In the first case, a single sheet will not be able to capture enough microwave energy in order to heat, and also, it's very large surface area to weight ratio means that it will lose any heated gained very quickly to the cool outside. In the case of the crumpled ball, the three things that are necessary for fire to occur are a fuel, a source of ignition, and oxygen. When the ball is loosely crumpled the sheet may heat somewhat but it can't concentrate enough fuel in order to catch fire. However, if the ball is tightly crumpled the fuel can be concentrated and ignited.
What falls fastest a crumpled paper ball or folded paper?
crumbled
How do you use the word crumpled?
You can use the word crumpled to describe something that has been crushed or wrinkled into a disordered shape, often associated with paper or fabric. For example, "He crumpled the paper into a ball and threw it in the trash."
Will a flat sheet sheet of paper dropped from a height of 2 m accelerate at the same rate as a piece of paper crumbled into a ball Why or why not?
Yes, both the flat sheet of paper and the crumpled ball of paper will accelerate at the same rate when dropped from a height of 2 m. This is because acceleration due to gravity is constant regardless of the shape or size of the object. The air resistance may have a small effect, but in this scenario, the difference is negligible.
A student has two identical sheets of paper he crumbles one up into a small ball if he drops the sheet of paper and a ball wallpaper off a building at the same time which will reach the ground frirst?
Both the sheet of paper and the crumpled ball of paper will reach the ground at the same time. This is because the shape or size of an object does not affect the rate at which it falls in the absence of air resistance, as demonstrated by Galileo in his Leaning Tower of Pisa experiment.
