We know that S=ut+.5gt*t
here s=84m
g=9.8m/s*s
u=0
hence time is 4.14secs.
It would create a mini nuclear explosion.
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.
no because the ball is round and it would make no difference in what side you put it on because it has no sides
9.8 meters per seconds squared in the downward direction.
The stone would fall straight down from the release point, it would fall with steadily increasing speed, and when it hit the ground, it would stop falling. The rate at which its speed increased during the fall would be 32.2 feet per second faster every second.
6 feet
There is no reason for the object to change.
No
Meters.
it would hit the ground, even if it hit some one the terminal velocity of a coin is not enough to kill them, it would just hurt like hell.
Yes or in yards
D = 1/2 g T2T = sqrt(2D/g) = sqrt( 109.2 / 9.8 ) = 3.335 seconds(rounded)
Because you ran out of yards?
let's test it.
It would create a mini nuclear explosion.
Metres (American spelling = meters), unit symbol "m", would be the most appropriate metric unit to measure the height of a 32-story building.
Yes it's 95% out of 100% it would break