Just as it leaves the bat after being struck. From then on it will gradually slow down as the friction of the air around it slows it down.
Alternatively, it may have the most kinetic energy as it leave the hand of the pitcher when he is throwing a fast-ball or when leaves the hand of a fielder when he is throwing it to another player. It depends on what part of the game you are talking about.
When it is fastest.
Kinetic friction is associated with thermal energy (and sound or light).
because there is kinetic energy.
No, the mind does not possess kinetic energy. Kinetic energy is energy that is created by a force or motion.
It has kinetic energy because it is moving. Just because it is in the air doesn't mean that it can't have kinetic energy.
Kinetic energy is energy that is posessed by a moving mass.
The kinetic energy comes from potential energy, which he got from ATP energy, which is produced through food. Potential energy is converted to kinetic energy after the muscles contract and relax. Sources: School science
Kinetic and/or mechanical ((think outside the box))
Most of the kinetic energy will have turned into potential energy - all of it, if there is no friction.Most of the kinetic energy will have turned into potential energy - all of it, if there is no friction.Most of the kinetic energy will have turned into potential energy - all of it, if there is no friction.Most of the kinetic energy will have turned into potential energy - all of it, if there is no friction.
yes, it does
Joe was using kinetic energy when he was playing baseball.
Hit a baseball.
If it is still it has potential energy if it is moving it has kinetic energy.
kinetic energy
There are many different forms of kinetic energy, but there are three that are most common. Linear Kinetic Energy (straight line motion) Rotational Kinetic Energy (Like a spinning top) Spring Kinetic Energy (A spring oscillating back and forth)
Gaseous State
Sitting on the table the stone has potential energy, relative to the ground, of weight times height, mgh. It has zero kinetic energy so its total energy is E = 0 + mgh. When it begins falling it loses potential energy (as it loses height) and gains kinetic energy ( as it picks up speed) so the sum stays the same as initially E = KE + PE = mgh. Just before it hits the ground all of its potential energy is gone and has been transformed into kinetic energy. So the kinetic energy at the bottom (1/2)mv^2 will equal the potential energy at the top.
Its called kinetic energy. Most energy that involves movement is kinetic energy.