Gravity is the force that makes a thrown ball fall back to the ground. It pulls objects towards the center of the Earth.
The acceleration of a ball after it has been thrown into the air is due to gravity acting on it. While the ball is in free fall, it experiences a constant acceleration of 9.81 m/s^2 downward (assuming no air resistance).
The initial velocity of the ball is 16 feet per second when thrown upward. The velocity decreases as the ball travels upward due to gravity until it reaches its peak and starts to fall back down.
The force of gravity acts downward on the ball, causing it to slow down and eventually fall back to the ground.
When a ball is thrown upward, it experiences a brief period of acceleration while moving against the force of gravity. Once the ball reaches its peak height, it begins to fall back down due to gravity.
Gravity is the force that makes a thrown ball fall back to the ground. It pulls objects towards the center of the Earth.
Naturally the ball in space will travel the longest distance as long as it does not bump into something along the way. Gravity on earth will cause the ball thrown to fall back to earth.
travel horizontally
If the ball was thrown-in by a teammate, no. If the ball was thrown-in by an opponent, yes.
t matters how much mass the ball has
The acceleration of a ball after it has been thrown into the air is due to gravity acting on it. While the ball is in free fall, it experiences a constant acceleration of 9.81 m/s^2 downward (assuming no air resistance).
The initial velocity of the ball is 16 feet per second when thrown upward. The velocity decreases as the ball travels upward due to gravity until it reaches its peak and starts to fall back down.
The force of gravity acts downward on the ball, causing it to slow down and eventually fall back to the ground.
When a ball is thrown upward, it experiences a brief period of acceleration while moving against the force of gravity. Once the ball reaches its peak height, it begins to fall back down due to gravity.
The ball is thrown with an initial velocity, and gravity slows it down as it rises. At its peak, the ball's velocity is zero before it begins to fall back to the ground. This is due to the balance between the initial force and gravity acting on the ball.
If there was no gravity, the ball would not fall back down to the ground after being thrown. It would continue in a straight line with the same speed and direction it was thrown with until it was affected by another force.
The main force causing a ball to fall after being thrown into the air is gravity. Although air resistance, a form of frictional force, does play a role in slowing down the ball's motion, it is not the primary reason the ball falls back to the ground. Gravity pulls the ball downward, causing it to accelerate towards the Earth.