Assuming its not slipping, its kinetic, though its in two parts (to be added together):
1 . KE due to mass alone = 0.5 * mass * v2
2 . KE due to rotation = 0.5 * I * ((radians / second)2),
where I is the baseballs mass moment of inertia.
That is potential energy. It is equal to theweight of the ball times the height
Yes, because potential energy is energy stored but kinetic is energy in motion.
The same as it's potential energy
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 potential energy are types of mechanical energy.
Yes. Mechanical energy is the sum of potential energy and kinetic energy; this includes gravitational potential energy.
It has kinetic energy.
kinetic energy
No, it's potential energy turning into kinetic energy.
Yes, because potential energy is energy stored but kinetic is energy in motion.
The act of rolling is showing kinetic energy because it is movement, but we should always look at energy change. As you go down hill, potential energy is converted to kinetic energy.
A rock on top of a hill has potential energy, not kinetic energy. If it starts rolling down the hill then the potential energy transforms to kinetic energy.
Chemical energy - A battery (Converting chemical energy to electrical energy) Kinetic energy - A ball rolling on the floor Heat - When you rub your hands together (kinetic-->heat) Potential energy - a skateboarder on top of a hill (potential-->kinetic when rolling downhill)
If it is still it has potential energy if it is moving it has kinetic energy.
kinetic energy
The same as it's potential energy
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
sliding to rolling