Faster than on Earth? The reason it falls slowly on Earth is because of air resistance. You can also make it fall quickly on Earth if you make it fall within a vacuum chamber.
because of gravity. the paper will not actually fall onto the moon but rise up. earth has 10.0n of gravity and the moon has much less, so it wont fall but rise.
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.
Objects fall towards the ground due to gravity on both Earth and the moon. However, the acceleration due to gravity is higher on Earth than on the moon, so objects fall faster on Earth compared to the moon. Additionally, the lack of atmosphere on the moon affects the way objects fall by reducing air resistance.
no the moon is faster
If all wind was eliminated, they would both fall at the same time because gravity has a constant increasing rate of pull, not matter how heavy the object might be. Though, because paper is lighter than cloth, and is easily toiled by wind, cloth would fall faster than paper, because paper is affected by wind more than cloth is. The answer could either way.
you will fall faster on the earth because earth has a higher gravity
because of gravity. the paper will not actually fall onto the moon but rise up. earth has 10.0n of gravity and the moon has much less, so it wont fall but rise.
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 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.
Objects fall towards the ground due to gravity on both Earth and the moon. However, the acceleration due to gravity is higher on Earth than on the moon, so objects fall faster on Earth compared to the moon. Additionally, the lack of atmosphere on the moon affects the way objects fall by reducing air resistance.
On the earth because the earth has stronger gravity than the moon
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.
Yes, both the bowling ball and the paper will fall at the same rate near the surface of the moon due to the moon's weaker gravitational pull. In the absence of air resistance, all objects will fall at the same rate regardless of their mass.
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.
Crumpled paper falls faster than straight paper due to its increased aerodynamic drag caused by its irregular shape. The turbulent airflow around the crumpled paper creates more resistance, resulting in a faster descent compared to the smoother, more streamlined straight paper.
A paper clip will likely fall faster in the air due to its higher density compared to a rubber ball. Density affects the rate at which objects fall through the air, with denser objects falling faster than less dense objects.
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.