If you drop a feather and a rock on the moon why do they fall at the same rate?

Answer 1

On the earth, there's air resistance that acts on the feather to keep it from reaching the ground as fast as a rock. On the moon, there's no such force, hence both bodies fall at exactly the same rate -- no matter how high up, no matter how much mass the bodies have, if they are released with the same force, they'll keep travelling at the same rate.

Answer 2

On Earth too - if the objects are massive enough, and don't fall to far, so that air resistance can be ignored.

One way to visualize this is that if object "B" has twice the mass of object "A", it will be attracted with twice the force. However, it will also have twice the inertia.

In a vacuum (on the moon) the objects do not have to have the same mass.

Answer 3

Yes, because that's the way the force of gravity behaves. Acceleration due to gravity is not dependent on mass of the object that is dropped. The air, which the object is falling through, creates a force against the direction of motion. The 'air drag' is dependent on the shape and size of the object. On the surface of the moon, there is no air to provide resistance to motion.

This air resistance effect is used effectively by parachutes (which therefore wouldn't work on the moon).

Answer 4

Because that's the way gravity works.

The force between the earth and every object is proportional to the product of the

earth's mass times the object's mass. Since the earth's mass doesn't change, that's

the same as saying that the force of gravity on different objects is proportional to

their different masses.

But an object's acceleration is proportional to the force on it, and inversely proportional

to its mass. So the mass neatly cancels out of this pair of equations, and we're left with

one equation that says that every mass falls to earth with the same acceleration.

I'll have to admit, this would be a lot easier to put across for you if we could do it with

a chalk and a blackboard.

Answer 5

Atmosphere on earth causes friction, which causes drag, which makes objects fall at different rates. Because there is no atmosphere to slow things down on the moon, all objects on the moon fall at the same rate of speed.

Answer 6

The acceleration due to gravity on the moon is weaker than on Earth, so both the feather and the rock experience the same gravitational force and fall at the same rate. This is because there is no air resistance on the moon to affect their fall.

Answer 7

In a vacuum there is no air so there is no air resistance that affects the object. Outside of a vacuum, the feather has a greater air resistance than a rock so it'll fall at a slower rate

Answer 8

there is no air resistance in a vacuum, so both will fall at 9.8m/s

Answer 9

Air resistance. If you were in a perfect vacuum, they would both land at the same time.