It will fall just as fast as an object of any other mass - assuming that air resistance is negligible. That is to say, if an object has a lot of surface area, it will fall slower due to air resistance.
After the 7th bounce, the ball will reach a height of 1 meter. This is because after each bounce, the ball reaches half of its previous height. So, after 1 bounce it reaches 64 meters, after 2 bounces it reaches 32 meters, after 3 bounces it reaches 16 meters, and so on, until it reaches 1 meter after the 7th bounce.
Assuming no air resistance, it would take about 4.5 seconds for the ball to hit the ground when dropped from 84 meters high. This time can be calculated using the formula for free fall: time = sqrt(2h/g), where h is the height (84m) and g is the acceleration due to gravity (9.81 m/s^2).
In 4 seconds of free fall, an object would fall approximately 78.4 meters, assuming no air resistance. This calculation is based on the acceleration due to gravity being approximately 9.81 m/s^2.
A handball court is typically about 40 meters long and 20 meters wide, with a goal in the center of each short end. The goals are 3 meters wide and 2 meters high. The court is divided into various zones, including the goal area and penalty area, each with specific measurements.
Assuming there is no air resistance, we can calculate the height the ball reached using the equation ( h = \frac{1}{2} g t^2 ), where ( h ) is the height, ( g ) is the acceleration due to gravity (approximately 9.81 m/s²), and ( t ) is the time the ball stays in the air. Plugging in ( t = 6 , \text{s} ), we find that the ball reached a height of approximately 176.58 meters (579.5 feet) assuming ideal conditions.
it depends on how high you are
2.43 meters for men's competition, 2.24 meters for women's competition
3 ft
64 METERSA+
You'd be a high-level college athlete to run that fast.
Depends. If its travel ball then most of the time its all year. If its middle school ball it is in fall. High school ball is in the spring. Normal little league/senior league is played in the spring/summer. And fall ball is of course is played in the fall.
Yes
They would fall in same time in a vacuum, but if air is present the ball falls faster due to high air resistance on the leaf
Due to the force of gravity. The gravitational attraction between the Earth and the ball is what causes the ball to drop.
15meters
176.4 meters
64 metersIf a ball is thrown horizontally at 20 m/s from the top of a cliff that is 50 meters high, the ball will strike the ground 64 m from the base of the cliff (20m/s x 3.2 s).