it has both potential and kinetic energies as when it is going upwards, the potential energy increases while the kinetic energy decreases until it reaches the top, and then the kinetic energy is zero and the potential energy is maximum.
The momenta of the rifle and the bullet are equal and opposite. The bullet has greater kinetic energy than the rifle.
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 and sound energy.
When a bullet is fired upwards vertically it gains kinetic energy.
it has both potential and kinetic energies as when it is going upwards, the potential energy increases while the kinetic energy decreases until it reaches the top, and then the kinetic energy is zero and the potential energy is maximum.
The bullet itself is capable of traveling over 4 kilometres.
The bullet itself is capable of traveling over 4 kilometres.
65 FPS
120000 km pH
The momenta of the rifle and the bullet are equal and opposite. The bullet has greater kinetic energy than the rifle.
The kinetic energy of the speeding bullet is converted to heat and sound energy.
A 3.0-g bullet traveling at 350 m/s hits atree and penetrates a distance of 12 cm. What was the average force exerted on the bullet in bringing it to rest?
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 and sound energy.
No. The bullet will actually travel much slower due to wind resistance.
The speed that a bullet travels depends on the weight of the bullet. For example a bullet for a Magnum .357 made by Federal's American Eagle with a 158gr JSP load can travel at a speed of 1351 km/h.