The force of gravity pulls it back down to Earth.
As the ball moves upward, its speed decreases due to the opposing force of gravity acting against its motion. Gravity slows down the ball until it reaches the peak of its trajectory, where its speed momentarily becomes zero before it starts descending back down.
The ball will go up, reach its maximum height, then start to fall back down due to gravity. It will eventually land back on the ground.
That action is called bouncing a ball up and down.
The speed of a ball thrown up decreases because of gravity acting against the initial velocity. As the ball goes up, gravity pulls it back down, causing its speed to decrease until it reaches its peak height and momentarily stops before falling back down.
No, the small rubber ball will not land back in your hand while standing still. After being thrown up, the ball will follow a parabolic trajectory and fall back down due to gravity. The position of your hand will remain stationary unless you move it to catch the ball.
because of gravity and force. what goes up must go down. it also depends on how hard you throw the ball.
a ball of cause
You must throw the ball upward because of gravity, you have gravity forcing the ball downward as you push the ball with force upward, and as they say what goes up must come down, which in the end results to the ball coming down towards you.
Throw the ball straight up in the air. or Throw the ball against the wind.
Only if you close your mouth and swallow it goes back down
You throw a ball up in the air. The ball comes down instead of floating in the air.
rubber bouncy ball? -TmB
that is actually not that hard. you first weaken it down to red and the throw nothing but great balls at it. it you throw any other kind of poke-ball it will mess it up and you will be impossible
ITS A BALL, RIGHT!?! NO a sprout in a lift
yes, if a pitch is goes anywhere that's not in the strike zone its a ball. for example the pitcher could throw it straight up in the air and it would be a ball
If you throw a ball into the air it goes up reaches a peak then comes back down. The amount of time to reach the peak is exaclty the same amount of time for the ball to fall back down from the peak. So half of the total time of flight is where it peaks at max height. This is due to the uniform acceleration from gravity that slows the ball down on the way up to the peak at exactly the same rate that it speeds up on the way back down.
As the ball moves upward, its speed decreases due to the opposing force of gravity acting against its motion. Gravity slows down the ball until it reaches the peak of its trajectory, where its speed momentarily becomes zero before it starts descending back down.