they would hit the surface at the same time, same as on earth.
If you dropped a hammer and a feather on the moon, both would fall at the same rate due to the moon's lack of atmosphere, which eliminates air resistance. This means they would hit the lunar surface simultaneously, demonstrating Galileo's principle of falling bodies. This phenomenon contrasts sharply with what happens on Earth, where the feather would fall much more slowly due to air resistance.
The balloon would get larger as the air pressure outside it dropped. At some height, the balloon would get large enough to burst.
They would both float if you had no gravity.
If you dropped a stone on the moon, it would fall towards the surface due to the moon's gravity. However, since the moon has a weaker gravitational pull than Earth, the stone would fall more slowly than it would on Earth. Additionally, the lack of atmosphere on the moon means there is no air resistance to slow down the stone's descent.
If there was no gravity, the ball would not fall back down to the ground after being thrown. It would continue in a straight line with the same speed and direction it was thrown with until it was affected by another force.
If you dropped a hamster on its back it would go into shock.
The Ice Would Be Crushed
It would divide
If you dropped a hammer and a feather on the moon, both would fall at the same rate due to the moon's lack of atmosphere, which eliminates air resistance. This means they would hit the lunar surface simultaneously, demonstrating Galileo's principle of falling bodies. This phenomenon contrasts sharply with what happens on Earth, where the feather would fall much more slowly due to air resistance.
they get dryno weathering
Big boom!!
They would hit the ground at the same time, Galileo dropped to balls with different masses and they both hit the ground at the exact same time.
The ocean floor is mainly basalt. Closer to the poles you would occassionally find a glacial erratic, dropped from a melting iceberg.
THEY BURST
Our beaches would be full of rocks..
Aristotle believed that two balls of different masses would fall at different speeds when dropped from the same height.
The ball would roll downhill.