velocity
Kinetic energy is equal to (1/2)mv2, where m is mass and v is velocity. Higher velocities contribute even more to higher kinetic energies than higher masses since velocity is squared in the equation.
For comparison, a 6.35 kg Bowling ball moving at 7.6 m/s will have a kinetic energy of 183.4 Joules. A 0.02 kg bullet moving at 200 m/s will have a kinetic energy of 400 Joules. (Increase that to 300 m/s, and the kinetic energy moves up to 900 Joules.)
Kinetic energy is energy due to motion. The faster something is moving the more kinetic energy it has. Kinetic energy also increases as the mass of the moving object increases (assuming it is not a rest, in which case it has a kinetic energy of zero.)
K=(1/2)mv2
No, the bullet loss its' energy through air friction in contact. The speed of a bullet decrease with distance.
Kinetic energy.
yes
Kinetic energy and sound energy.
The bullet has a great deal of kinetic energy, because of its high speed. It also has a little bit of potential energy relative to the ground, because of its height above the ground.
Kinetic energy.
it has a kinetic energy
Foodstuff contains chemical energy.
While it is moving, it has kinetic energy. Before it is shot, it has chemical energy - that's what causes the explosion.
Chemical energy.
The kinetic energy of the speeding bullet is converted to heat and sound energy.
Kinetic energy and sound energy.
radiant energy
potential energy.
protein
Renewable energy
Kinetic energy is the type of energy that depends on how fast the molecules in a substance are moving.
The bullet has a great deal of kinetic energy, because of its high speed. It also has a little bit of potential energy relative to the ground, because of its height above the ground.
Kinetic energy.
it has a kinetic energy