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Why would a crumpled piece of paper hit the ground before a flat piece of paper?
Wiki User
∙ 10y ago
Because a flat piece of paper has a larger surface area and therefore more wind resistance. But in a crumbled piece of paper the wind resistance is less.
Wiki User
∙ 10y ago
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How do you use crumpled in a sentence?
She found a crumpled piece of paper in her pocket.
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 crumpled piece of paper land before a flat piece of paper?
A crumpled piece of paper has irregular shapes and edges that can create turbulence or air resistance, slowing down its fall and causing it to land first compared to a flat piece of paper that falls more uniformly without as much resistance. The crumpled paper also experiences changes in its center of mass as it falls, affecting its trajectory.
Is it true or false when a crumpled piece of paper falls to the ground more quickly than a flat piece of paper becauseof gravity?
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.
Why does a crumpled piece of paper hit the ground before a flat piece of paper?
A crumpled piece of paper has a larger surface area than a flat piece of paper, which increases air resistance and slows down its fall. The crumpled paper also has irregular shapes and edges that disrupt the airflow around it, causing it to fall more slowly than a flat paper.
Why does a crampled piece of paper fall faster than a uncrampled paper?
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.
Why did a crushed piece of paper reached the ground first than a piece of paper?
When a piece of paper is crumpled, it creates more air resistance due to its irregular shape. This increased air resistance slows down the descent of the crumpled paper compared to the flat piece, causing it to reach the ground later.
Why does a crumpled piece of paper land before a flat sheet of paperAsk us anything?
A crumpled piece of paper has irregular air pockets and less surface area, causing it to fall faster due to reduced air resistance compared to a flat sheet of paper. The crumpled paper also experiences irregular air flow, creating more turbulence that helps it descend faster.
Is the force of gravity stronger on a crumpled piece of paper than on an identical piece of paper which has not been crumpled?
No, the force of gravity is the same for both the crumpled and non-crumpled pieces of paper. Gravity acts on all objects the same way, regardless of their shape or condition. The only factor that affects the force of gravity is the mass of the object.
Why a crumpled paper can throw further than a flat piece of paper?
Less air resistance.
Why a flat piece of paper is affected more by air resistance than a crumpled up one?
A flat piece of paper has a larger surface area exposed to the air, creating more air resistance compared to a crumpled piece that has a smaller surface area. This increased air resistance slows down the flat paper's motion more than the crumpled paper.
What is a structural analogy for ribosomes?
Ribosomes can be compared to factories because they are responsible for assembling proteins, much like how factories assemble products. Just as different workers in a factory have specific roles, ribosomes have specific subunits that work together to synthesize proteins. Additionally, like a factory, ribosomes require raw materials (amino acids) and energy (ATP) to carry out their function.
