Gravity.
They will both hit the ground at the same time.
They will hit the ground simultaneously. Gravitational pull is the same on all matter.
they hit same time
Ignoring air resistance, the horizontal component of velocity has no connection with, and no effect on, the vertical component. Two bodies that leave the top of the building simultaneously with the same vertical velocity hit the ground at the same time, regardless of their horizontal velocities or their masses. That's the same as saying that a bullet fired horizontally from a gun and a bullet or a stone dropped from the gun's muzzle at the same instant hit the ground at the same instant. Strange but true.
They'll both hit the ground at the same time.
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 ground at the same time, Galileo dropped to balls with different masses and they both hit the ground at the exact same time.
They will both hit the ground at the same time.
The football will hit the ground and probably stay there. The cricket ball will be caught before it hits the ground and used enthusiastically by the grateful kiddies.
They will hit the ground simultaneously. Gravitational pull is the same on all matter.
they hit same time
They would hit the surface together, after a very long time. Gravity on Ceres is pretty light.
The volleyball will NOT hit the ground with greater anything. Assuming that the soccer ball is the same spherical diameter and greater mass than the volleyball it will hit the ground with greater velocity and greater impact.
Ignoring air resistance, the horizontal component of velocity has no connection with, and no effect on, the vertical component. Two bodies that leave the top of the building simultaneously with the same vertical velocity hit the ground at the same time, regardless of their horizontal velocities or their masses. That's the same as saying that a bullet fired horizontally from a gun and a bullet or a stone dropped from the gun's muzzle at the same instant hit the ground at the same instant. Strange but true.
Assuming that each object is held with its center of gravity at the same height, and that each is dropped cleanly, with no rotation induced, the one whose lowest part is closest to the ground when dropped will hit first.
How many inches of the ground can my car be if dropped
They'll both hit the ground at the same time.