If they don't have to plow through air on the way down, then yes.
If they don't fall with the same acceleration and hit bottom at the same speed
and the same time regardless of their weights, then it was air that interfered.
The acceleration and speed of a body falling only under the effect of gravity that is in the case of free fall is independent of the mass of the object as seen by the equation
mg=ma
a=g
where a denotes the acceleration and is independent of mass
SO , all the objects fall at the same speed irrespective of their masses
They will hit the ground at the same time, since there is no wind resistance in a vacuum
No,because the weight of a heavy ball is more than the light ball, obviously, the heavy ball will drop into the floor first.(wrong)
they will hit the ground at the same time
The heavy object will reach the ground at the exact same time as the lighter object (if they were dropped at the same time).
See linked question below.
No, the mass is what matters
the light one
cause the two have lost their weight
When you include the effects of friction, it takes less force to move a light-weight object. If you can get the objects into a frictionless environment, then any force, no matter how small, can move any object, no matter how heavy.
-- Because that's the way gravity behaves. -- Because is would be ridiculous to think that heavy objects fall faster. Here's why: ==> Let's say that heavy objects fall faster and light objects fall slower. ==> Take a piece of sticky tape and stick a light object onto the back of a heavy object. Then drop them together off of a roof. ==> The light object tries to fall slower and holds back, and the heavy object tries to fall faster and pulls forward. So when they're stuck together, they fall at some in-between speed. ==> But wait! When they're stuck together they weigh more than the heavy object alone. So how can a stuck-together object that's heavier than the heavy object alone fall at a speed that's slower than the heavy object alone ? ! ? Isn't that ridiculous ? There's no way that heavy objects can fall faster than light objects.
No, they fall at the same time.
A light object has less momentum than a heavy object. A light object would stop first.
drop a heavy object and a light object from the same height at the same time. time it with a stopwatch, or just watch them.
-- A paper weight on a piece of paper. -- A car on an ant
the light one
cause the two have lost their weight
When you include the effects of friction, it takes less force to move a light-weight object. If you can get the objects into a frictionless environment, then any force, no matter how small, can move any object, no matter how heavy.
I would say that we can't weight light because whether heavy or light. if we weight any substance,if we pass light on that object the mass of that object will be constant so we cant measure light
both light stays low and heavy low.
inertia: the tendency of an object to resist a change in its motion If a light rock is being thrown at a heavy rock the light rock would probably crack or get deflected from the heavy rock, but if a heavy rock is being thrown at a light rock the light rock would most likely shatter. A: The heavy rock has more inertia
No. It means its less dense than water.
-- Because that's the way gravity behaves. -- Because is would be ridiculous to think that heavy objects fall faster. Here's why: ==> Let's say that heavy objects fall faster and light objects fall slower. ==> Take a piece of sticky tape and stick a light object onto the back of a heavy object. Then drop them together off of a roof. ==> The light object tries to fall slower and holds back, and the heavy object tries to fall faster and pulls forward. So when they're stuck together, they fall at some in-between speed. ==> But wait! When they're stuck together they weigh more than the heavy object alone. So how can a stuck-together object that's heavier than the heavy object alone fall at a speed that's slower than the heavy object alone ? ! ? Isn't that ridiculous ? There's no way that heavy objects can fall faster than light objects.
No, they fall at the same time.