depends on what is done with the long balloon, more itracate balloon animals will deflate faster than a simple balloon animal
It depends how far they're falling. Given enough height - they'll both hit the ground at the same time !
They will both hit the ground at the same time.
1.56 seconds
All objects will reach the ground when dropped or when they fall at approximately the exact same time except for paper.
In vacuum they reach ground exactly at the same time. In a medium other than vacuum the ball will reach ground first.
On Earth, no. Air resistance would slow the feather way down. However, dropped on somewhere without an atmosphere (like the moon), they would reach the ground at the same time.
Depends on which one is dropped first. If they are both dropped at the same time, they will both reach the ground at the same time.
They will both hit the ground at the same time.
1.56 seconds
All objects will reach the ground when dropped or when they fall at approximately the exact same time except for paper.
The ball which you drop from 5 feet will reach the ground first.
In vacuum they reach ground exactly at the same time. In a medium other than vacuum the ball will reach ground first.
On Earth, no. Air resistance would slow the feather way down. However, dropped on somewhere without an atmosphere (like the moon), they would reach the ground at the same time.
Because the earth is bigger than both so they get pulled down with gravity at the same time
They should reach the ground together, since their initial vertical speed is the same, namely zero.
If dropped from the same height (a few meters), they would appear to hit the ground at the same time, according to the experiments of Galileo. However, this neglects air resistance on the basketball, which will slow it down more and cause it to hit the ground later (very slightly later). The baseball, which has a smaller area and therefore less air resistance, will hit the ground first.
Because of gravity, objects fall at 9.7m/s making them reach the ground at the same time. This does not apply to objects like paper or feathers due to the fluid friction in the air.
Both will reach the ground at the same time if they were dropped at the same time in a vacuum. This is a well proven fact that the mass has no effect on the acceleration of an object in a free fall in a vacuum.