Applied force when the ball is hit, and air resistance on the ball going in the opposite direction.
The transfer of energy from your racket and the ground to the ball causes its particles to move faster, which causes heat.
inertia
the table tennis ball
Friction effects everything with everything. Air friction is the obvious one. Drag on the ball, causes it to move a lot, since it is relatively light. Another place is the paddle with the ball. When you hit the ball anyway but perfectly straight on, you put spin on it. Similarly, when the ball hits the table, any spin will cause it to ricochet in a non-tangential direction.
In tennis you hit the ball with a racket in football you kick the ball and are not aloud to pick the ball up in the match unless your a goalie.
Unbalanced forces are important in order to move anything. An object under balanced forces does not move. For example as you sit in your chair reading this, gravity is exerting a force on your body downwards but your chair balances this force by exerting a force upwards on you that is equal and opposite to the force of gravity. These two forces oppose each other and therefore you do not move. In tennis in order to change the direction of a tennis ball you need to exert a net force(an unbalanced force) in the direction you want the tennis ball to move. In tennis there are also unbalanced torques(a force acting at a distance from a pivot point) on the ball that cause the ball to spin. Hope that helps.
Earth's rotation causes the water to move in a curve; this is a manifestation of The Coriolis force.
When you hit the white ball, the kinetic energy created from moving the cue, is transferred to the white ball on contact. This causes the ball to move, and depending on how fast you move the cue, will cause the white ball to move at different velocities.
It's basically a 'ball and socket' joint. - think along the lines of holding a tennis ball in your hand. The shoulder joint itself is the socket and the end of the arm is the ball. Muscles hold the joint in place - while allowing it to move.
Tennis balls are lighter than cricket balls. Therefore less mass. If a tennis ball travels at the same speed its momentum (mass x velocity) is lower. Therefore less momentum an easier to stop. Short answer, less mass and same speed means less momentum
so you can get around a tennis ball... and go from side to side.. plus if its cold you NEED to keep moving your legs in order not to freeze and not be able to move....
An outside force causes an object to have more momentum. For example, if you push a ball, the ball would have more momentum and would therefore move. You pushing the ball would be the outside force.