Pellet Kinetic Energy Calculator

The calculator can be used to solve for mass or velocity given the other two.

Pellet kinetic energy calculator.

Velocity from muzzle energy. Bullet kinetic energy calculator. Muzzle energy is the energy calculated right when the projectile just leaves the gun barrel at the muzzle. Foot pounds of energy fpe joules.

Mass units in metric and imperial units. Use the calculator below to calculate the kinetic energy of a bullet. It is calculated from mass velocity and weight of the bullet. Added ability to enter weight to hundredth for better use with air pellets.

Muzzle energy is the kinetic energy of a pellet or bb as it is expelled from the muzzle of a air gun. You may add items to the list on the right in order to create a bar graph comparing the different items. Muzzle energy will be higher when bullet is heavier and moves out faster from the muzzle. Measured and indicated by foot pounds of energy or fpe or joules internationally muzzle energy tends to be a more accurate representation of the power of an air gun.

The square root of that number is your velocity. What is muzzle energy. Let s find the velocity of an 8 grain pellet that generates 11 37 foot pounds of energy. Supports multiple metrics like meters per second m s km per hour miles per hour yards and feet per second.

Take the energy times the constant 450240 and divide by the weight of the pellet in grains. Kinetic energy is the energy an object has owing to its motion. In classical mechanics kinetic energy ke is equal to half of an object s mass 1 2 m multiplied by the velocity squared. Calculate kinetic energy for bullets arrows or air pellets.

Free online kinetic energy calculator with which you can calculate the energy of an object or body in motion given its mass and velocity. Use this online calculator and find the muzzle energy in foot pounds and joules. This is the formula for kinetic moving energy and is calculated as k e. Then hit the square root key on your calculator.

Find the foot pounts of energy of the exiting pellet. For example if a an object with a mass of 10 kg m 10 kg is moving at a velocity of 5 meters per second v 5 m s the kinetic energy is equal to 125. 1 2 m v 2 where m is mass and v is velocity. After the pellet leaves the barrel wind resistance starts to slow its speed.

Find the velocity feet per second of the exiting pellet.