to catch the ball
no, because he has left the ball from his hand
acceleration due to gravity acting on it, which causes it to increase in speed as it falls. The force of air resistance also acts on the ball, gradually slowing it down. Eventually, the ball reaches terminal velocity, where the force of gravity is equal to the force of air resistance and the ball falls at a constant speed.
Potential Energy.
It is because of the air friction. To make a ball swing one side is shined up and made smooth while the other side is left to be scuffed by the pitch and what not. When the ball travells through the air the shined side goes faster as there is less air resistance this causes the ball to swing to a side.
weight
Popup
no, because he has left the ball from his hand
Yes, when the ball flies through the air that is air resistance.
It could! Depends. It could make the ball fly higher.Since when hotair rises, it could take the ball with it(only for like 1 sec!)
a toss up is used when two players of the opposite tem grab the ball at the same time, the ref throws the ball in the air and the two players jump and try and grab the ball first. the game then continues from there
yes..."As a softball flies through the air, the air pushes back against it, resisting its motion and decreasing the distance the ball travels."...that is why
The Ball has energy in the form of potential energy as if it was released it would fall to the ground. The pitcher uses chemical energy to move his arm and give momentum to the ball. The ball's energy is now transformed to kinetic energy as it moves through the air.
plane
going to hit
Balls or hits that are spun in the air curve through the air depending on which way they are spun. In good table tennis, most shots will have various directions and elements of spin imparted to them, especially topspin. Spinning balls moving through the air curve as a result of what is called, "the magnus effect" - where, due to the clash of the air that hugs the ball as it spins and the oncoming air through which the ball is travelling, greater air pressure is built up on that side of the ball and a 'lift' is imparted to the ball that reults in a turning or curving path of the ball through the air. Ready examples of this are the "bending" of a soccer ball that is kicked so as to impart spin on the ball and the golf ball lift that allows the ball to travel further through the air as it is hit with underspin.
They are known as dimples, they make the ball aerodynamic so it can fly. While the make the ball aerodynamic they also give it a stylish design.
Blow inside the ball through the hole!