They will hit the ground simultaneously. Gravitational pull is the same on all matter.
they hit same time
The acceleration is the same, which is the acceleration due to gravity. About 10m/s^2
You can usually expect the larger ball to have more air resistance.
Gravity, air resistance, the material of the ball, and the height from which it was dropped initially.
Gravity.
Without air resistance? All three will hit the ground at the same time.
they hit same time
The acceleration is the same, which is the acceleration due to gravity. About 10m/s^2
You can usually expect the larger ball to have more air resistance.
At the point of highest resistance.
Gravity, air resistance, the material of the ball, and the height from which it was dropped initially.
as done in Galileo's experiment when he dropped a large rock and a feather from a tall tower both hit the ground at the same moment when dropped from the same height.
they would hit the surface at the same time, same as on earth.
Gravity.
If they are dropped from the same height, they will fall at equal velocities because there is no air resistance and their accelerations by gravity are equal.
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.
Thanks for the Hairbrush.