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How do a feather and hammer hit the ground at the same time?
In a vacuum, where there is no air resistance, both a feather and a hammer would fall and hit the ground at the same time due to gravity affecting them equally. However, in the presence of air, the feather experiences more air resistance than the hammer, causing it to fall slower.
If the gravitational force between the earth and object always causes the same acceleration why does a feather fall more slowly than a hammer does?
The feather falls more slowly than the hammer due to air resistance. The feather has a larger surface area-to-mass ratio, which causes more air resistance compared to the hammer, falling at a slower speed. Without air resistance, both objects would fall at the same rate due to experiencing the same gravitational force.
Where on earth can a hammer and feather drop at the same speed?
Inside a safe dropped from a plane.If there were a very good vacuum to drop them in, it would be close. The air resistance of a feather limits its falling velocity more than the resistance on the hammer. When the drag caused by friction equals the weight of the object, it cannot continue to accelerate and falls at a speed called its terminal velocity.
Why a hammer falls faster than a feather if you drop them on earth?
A hammer falls faster than a feather when dropped on Earth because of gravity. Gravity pulls objects with mass towards the Earth at a constant rate of acceleration, regardless of their size or shape. Since the feather has more surface area and air resistance, it falls slower than the hammer, which is more dense and streamlined.
Why does a coin and a feather fall with different accelerations in the presence of air?
The structure of the feather makes it catch the air and fall more slowly than the coin. Refer to the related link for the Apollo 15 mission to the moon, which has no atmosphere, in which an astronaut drops a hammer and a feather at the same time.
Why does the feather fall more slowly than a hammer do?
On Earth, a feather falls more slowly than a hammer due to air resistance. The feather is impeded more by the air than the bowling ball is. In a vacuum, such as outer space, there is no air and thus no air resistance. In this environment, all objects fall at the same rate, regardless of their shape or mass.
Why did the hammer and the feather fall at the same rate on the moon but o earth?
The hammer and the feather fell at the same rate on the Moon because there is no significant air resistance to slow down the feather, unlike on Earth where air creates drag. On Earth, the feather's lightweight and shape cause it to be affected more by air resistance compared to the hammer. This difference in air resistance leads to the hammer falling faster than the feather on Earth, while on the Moon, both objects fall at the same rate due to the lack of atmosphere.
How do a feather and hammer hit the ground at the same time?
In a vacuum, where there is no air resistance, both a feather and a hammer would fall and hit the ground at the same time due to gravity affecting them equally. However, in the presence of air, the feather experiences more air resistance than the hammer, causing it to fall slower.
Why did the feather and the hammer land the same time on the moon and different times on the earth?
The Earth has an atmosphere and the moon doesn't, so a falling feather on Earth runs into quite a bit of air resistance which slows it down much more than a hammer. On the moon, there is no air resistance.
If the gravitational force between the earth and object always causes the same acceleration why does a feather fall more slowly than a hammer does?
The feather falls more slowly than the hammer due to air resistance. The feather has a larger surface area-to-mass ratio, which causes more air resistance compared to the hammer, falling at a slower speed. Without air resistance, both objects would fall at the same rate due to experiencing the same gravitational force.
Which has more air resistance a feather or marble?
a feather has
What force that makes a feather drop slower than a hammer on earth?
Air resistance.
Where on earth can a hammer and feather drop at the same speed?
Inside a safe dropped from a plane.If there were a very good vacuum to drop them in, it would be close. The air resistance of a feather limits its falling velocity more than the resistance on the hammer. When the drag caused by friction equals the weight of the object, it cannot continue to accelerate and falls at a speed called its terminal velocity.
Why did the hammer land at the same time as the feather on the moon?
No air resistance. No air resistance. Because falling bodies accellerate at the same rate regardless of mass
Why a hammer falls faster than a feather if you drop them on earth?
A hammer falls faster than a feather when dropped on Earth because of gravity. Gravity pulls objects with mass towards the Earth at a constant rate of acceleration, regardless of their size or shape. Since the feather has more surface area and air resistance, it falls slower than the hammer, which is more dense and streamlined.
What should happen if you dropped a hammer and a feather on the moon?
If you dropped a hammer and a feather on the moon, both would fall at the same rate due to the moon's lack of atmosphere, which eliminates air resistance. This means they would hit the lunar surface simultaneously, demonstrating Galileo's principle of falling bodies. This phenomenon contrasts sharply with what happens on Earth, where the feather would fall much more slowly due to air resistance.
Why does a coin and a feather fall with different accelerations in the presence of air?
The structure of the feather makes it catch the air and fall more slowly than the coin. Refer to the related link for the Apollo 15 mission to the moon, which has no atmosphere, in which an astronaut drops a hammer and a feather at the same time.
