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How does the mass of an object affect the rate of its fall?
It won't affect the rate of fall, which is 9.8m/s2. If you drop a bowling ball and a crumpled ball of paper from the same height, they will land at the same time. The earth's gravity determines the rate of fall. During the Apollo 15 moon landing, a feather and a hammer were dropped from the same height and they landed at the same time. The moon's gravity determined their rate of fall. Refer to the related link to see the demonstration.
What would fall faster on the moon a object with more mass or an object with less mass?
In the absence of air resistance, all objects fall at the same rate regardless of their mass, as demonstrated by Galileo's experiment on Earth. Therefore, on the moon, an object with more mass would not fall faster than an object with less mass.
Why does a heavy object fall at the same rate as a light object in a vacuum?
In a vacuum, there is no air resistance to affect the rate at which objects fall. The acceleration due to gravity is the same for all objects regardless of their mass. Therefore, both a heavy object and a light object will fall at the same rate in a vacuum.
How does mass effect the time of a falling object?
The mass of an object does not affect the time it takes to fall to the ground in the absence of air resistance. In a vacuum, all objects fall at the same rate regardless of their mass, following Galileo's principle of free fall. However, in the presence of air resistance, the mass of the object can influence the time it takes to reach the ground.
What is the relationship between the mass of an object and its rate of fall in a vacuum?
In a vacuum, all objects fall at the same rate regardless of their mass. This is because in the absence of air resistance, the only force acting on the object is gravity, which causes all objects to accelerate at the same rate due to the gravitational force pulling them downward.
How does the mass of an object affect the rate of its fall?
It won't affect the rate of fall, which is 9.8m/s2. If you drop a bowling ball and a crumpled ball of paper from the same height, they will land at the same time. The earth's gravity determines the rate of fall. During the Apollo 15 moon landing, a feather and a hammer were dropped from the same height and they landed at the same time. The moon's gravity determined their rate of fall. Refer to the related link to see the demonstration.
What would fall faster on the moon a object with more mass or an object with less mass?
In the absence of air resistance, all objects fall at the same rate regardless of their mass, as demonstrated by Galileo's experiment on Earth. Therefore, on the moon, an object with more mass would not fall faster than an object with less mass.
Why does a heavy object fall at the same rate as a light object in a vacuum?
In a vacuum, there is no air resistance to affect the rate at which objects fall. The acceleration due to gravity is the same for all objects regardless of their mass. Therefore, both a heavy object and a light object will fall at the same rate in a vacuum.
How does mass effect the time of a falling object?
The mass of an object does not affect the time it takes to fall to the ground in the absence of air resistance. In a vacuum, all objects fall at the same rate regardless of their mass, following Galileo's principle of free fall. However, in the presence of air resistance, the mass of the object can influence the time it takes to reach the ground.
What is the relationship between the mass of an object and its rate of fall in a vacuum?
In a vacuum, all objects fall at the same rate regardless of their mass. This is because in the absence of air resistance, the only force acting on the object is gravity, which causes all objects to accelerate at the same rate due to the gravitational force pulling them downward.
Do the object of the same shape but different mass fall at the same rate?
in a vacuum, yes, all objects would fall at the same rate, but otherwise no due to air friction
How does mass affect a falling object?
Mass does not affect the rate at which objects fall in a vacuum - they all fall at the same rate, regardless of their mass. However, in the presence of air resistance, objects with larger mass may experience slightly slower acceleration due to the resistance force acting on them.
Why do two objects with different mass will fall at the same time?
-- It takes more force to accelerate an object with more mass. ... Gravity exerts more force on an object with more mass. -- It takes less force to accelerate an object with less mass. ... Gravity exerts less force on an object with less mass. Whatever the mass of the object happens to be, gravity always exerts just the right amount of force to accelerate it at always the same rate ... 9.8 meters per second2.
What is the rate of acceleration an object encounters in free fall?
In free fall, objects experience an acceleration of approximately 9.8 m/s^2, due to the force of gravity pulling them downward. This rate of acceleration is constant and independent of the mass of the object.
Do objects with the same mass but a different density fall at the same rate?
Yes, objects with the same mass but different densities will fall at the same rate in a vacuum. This is because in a vacuum, there is no air resistance affecting their motion, so only their mass will determine how fast they fall.
Determines how hard it would be to stop an object in motion.?
The equation is F = M A, where F is the Force required to stop the object, M is the object's Mass, and A is its Acceleration. Note that its acceleration in this case is the rate at which you are DE-ACCELERATING the object to stop it.
What determines how hard it would be to stop object in motion?
The equation is F = M A, where F is the Force required to stop the object, M is the object's Mass, and A is its Acceleration. Note that its acceleration in this case is the rate at which you are DE-ACCELERATING the object to stop it.
