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When a bullet is fired upwards vertically, it gains potential energy as it rises due to the increase in its height above the ground. This potential energy is converted into kinetic energy as the bullet falls back to the ground. The total mechanical energy of the bullet remains constant neglecting air resistance.
When a bullet is fired from a gun, the energy stored in the gunpowder is converted into kinetic energy that propels the bullet forward. The bullet carries this kinetic energy as it travels through the air until it hits a target or loses its energy through friction and air resistance.
Yes, when a bullet is fired from a rifle, the bullet typically has greater momentum and kinetic energy compared to the rifle. This is due to the bullet's higher velocity and lower mass compared to the rifle.
A traveling bullet primarily carries kinetic energy due to its motion through the air. This kinetic energy is derived from the initial potential energy stored in the bullet when it was fired.
When a bullet is fired upwards vertically, it gains potential energy as it moves against gravity. This increase in potential energy comes at the expense of its initial kinetic energy. Eventually, the bullet will reach its maximum height and then begin to fall back towards the ground, converting its potential energy back into kinetic energy.
When a bullet is fired upwards vertically, it gains potential energy as it rises due to the increase in its height above the ground. This potential energy is converted into kinetic energy as the bullet falls back to the ground. The total mechanical energy of the bullet remains constant neglecting air resistance.
When a bullet is fired from a gun, the energy stored in the gunpowder is converted into kinetic energy that propels the bullet forward. The bullet carries this kinetic energy as it travels through the air until it hits a target or loses its energy through friction and air resistance.
When a bullet is fired into the sky, it will eventually stop becasue it has run out of energy and fall back to the ground.
Yes, when a bullet is fired from a rifle, the bullet typically has greater momentum and kinetic energy compared to the rifle. This is due to the bullet's higher velocity and lower mass compared to the rifle.
A traveling bullet primarily carries kinetic energy due to its motion through the air. This kinetic energy is derived from the initial potential energy stored in the bullet when it was fired.
When a bullet is fired upwards vertically, it gains potential energy as it moves against gravity. This increase in potential energy comes at the expense of its initial kinetic energy. Eventually, the bullet will reach its maximum height and then begin to fall back towards the ground, converting its potential energy back into kinetic energy.
When a bullet is fired upward vertically, it gains potential energy due to the increase in its height above the ground. As the bullet rises, its kinetic energy decreases and is converted into potential energy until it reaches its maximum height.
To determine the velocity of the bullet, we can use the formula for kinetic energy: KE = 0.5 * m * v^2, where KE is the kinetic energy, m is the mass, and v is the velocity. Given that the kinetic energy is 3150 joules and the mass is 60 grams (which is 0.06 kg), we can rearrange the formula to solve for v. Plugging in the values, we get 3150 = 0.5 * 0.06 * v^2. Solving for v, we find that the velocity of the bullet is approximately 250 meters per second.
The standard AK47 fires a 123 grain bullet at 2,400 feet per second. This produces 1,600 ft lbs of energy.
Simple answer, it makes a hole and the blood all comes out the hole. More detailed answer, a fired bullet carries a lot of energy, destroys tissues and structures along its path and causes traumatic injury.
It is KINETIC energy- mass in motion. Prior to being fired, the cartridge has POTENTIAL energy- stored, but not released (yet)
If you fired a bullet vertically upward, it would have kinetic energy at first, when it gets to the top of its travel this would all have been converted to potential energy.