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Yes all objects fall at the same speed but there are objects that are aided by the air that don't fall to the ground at the same speed. For example, a feather and a brick. A feather is a object that is aided by air. A brick is a object that wind cannot blow away. If I drop both of them down with the same time down a 100 feet building, then definitely the brick will totally reach the ground first ............ well and it will get crushed into pieces while the feather might be blown away into a different place and reach the ground last.:) :):):):):):):):):)
leaf
Air drag. They would fall at the same speed in a vacuum.
In vacuum they reach ground exactly at the same time. In a medium other than vacuum the ball will reach ground first.
A hammer would hit the ground first because a hammer is heavier
Yes all objects fall at the same speed but there are objects that are aided by the air that don't fall to the ground at the same speed. For example, a feather and a brick. A feather is a object that is aided by air. A brick is a object that wind cannot blow away. If I drop both of them down with the same time down a 100 feet building, then definitely the brick will totally reach the ground first ............ well and it will get crushed into pieces while the feather might be blown away into a different place and reach the ground last.:) :):):):):):):):):)
leaf
drop a brick and a feather at the same time.. u tell me
Air drag. They would fall at the same speed in a vacuum.
In vacuum they reach ground exactly at the same time. In a medium other than vacuum the ball will reach ground first.
A hammer would hit the ground first because a hammer is heavier
both reaches the ground at the same time because in the moon there occurs free fall.
The mass is irrelevant, the only factor that effects how fast anything falls on earth is air resistance. The feathers obviously have more air resistance than the rocks and so the rocks will fall faster. If this was done in a vacuum however one gram of feathers would fall at the same rate as a tone of rocks.
In a vacuum they would reach the ground at the same time (assuming they are released at the same time and from the same height). When not in a vacuum, however, air resistance is acting on both items - and so the paperclip would touch the ground first.
In the absence of an atmosphere it wouldn't. Even with an atmosphere any air resistance would be negligible.
The first Lego brick was a 4x2 white Lego!
Because that's exactly what 'weight' is ... It's the force of attraction between you and the Earth, or whatever planet you happen to be on at the moment. And the origin of that force is gravity.