The ball which you drop from 5 feet will reach the ground first.
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.
Drop two balls with different weights and observe which ball hits the ground first.
iron bar first
No. What counts in this case is the vertical component of the velocity, and the initial vertical velocity is zero, one way or another.
Galileo was the first to discover that, when released at the same time, objects with different weights will reach the ground at the same time. This is true because the Earth's gravitation pull is constant. Generally speaking, the velocity of an object will initially be low (zero) and will, given time and distance, increase to reach its terminal velocity. Mass, on the other hand, will remain constant.
tHE BALL OF PAPER WOULD REACH THE GROUND FIRST. tHE RECTANGLE SHAPE WILL REACH LATER DUE TO THE AIR FOIL EFFECT(float down). iN A VACUUM THEY WOULD DROP THE SAME. Gravity is 9.8 m/s2.
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.
Whichever you drop first will fall first and hit the ground first.If you drop them at exactly the same time from the sameplace, they fall together and hit the ground together.
It depends on what height you drop it from.
Please describe how you drop something 'horizontally'
Matters how high you drop it from.
Drop two balls with different weights and observe which ball hits the ground first.
Once the ball is past first or third base, the ONLY consideration is where the BALL is located -- fair or foul -- when it FIRST comes in contact with either the ground or a player. If the player is almost entirely in fair territory when he first grabs the ball, but the glove that touches the ball is in foul territory, then it's a foul ball. "If the ball touches a fielder in-flight, the judgment is made at where the ball was when it was touched, NOT from where it may land after a miss, or drop of the ball, by a fielder. The position of the fielder is irrelevant."
iron bar first
You drop it once, if it comes to rest on the path, you drop it again, on the second drop if it comes to rest on the path you place it where the ball touched the grass first on the second drop.
If you drop it and it rolls back into the water, you take another free drop, if this rolls back into the water you place the ball where it touched the ground on the second drop. Remember, no nearer the hole.
if you don't take air resistance into account then they both will hit at the same time. P.S. which not witch