Essay/Term paper: How guns work

Essay, term paper, research paper:  Science Reports

How Guns Work


A gun is a weapon that uses the force of an explosive propellant to project a
missile.

Guns or firearms are classified by the diameter of the barrel opening. This is
known as the calibre of the gun. Anything with a calibre up to and including .
60 calibre(0.6 inches) is known as a firearm.

The precise origin of the gun is unknown, although they were in use by the early
14th century and were common place in Europe by mid-century. These early guns
were nothing more than large calibre cylinders of wrought iron or cast bronze,
closed at one end and loaded by placing gunpowder and projectile in the muzzle,
or open end.

Nowadays firearms are a little more sophisticated.

However, the physics behind all guns remain the same. Weapons such as cannons,
shotguns and rifles, work on the basic idea of conservation of momentum and the
change in energy from potential to kinetic.

When the trigger is pulled the hammer hits the firing pin. The firing pin then
hits the primer which causes the powder to burn hence producing lots of gases.
This causes the volume behind the bullet to fill with extremely high pressure
gas. The gas pushes on every surface it encounters, including the bullet in
front of it and the base of the gun barrel behind it. The increase in pressure
caused by the gases causes the bullet to be forced into the barrel hence causing
the bullet to come out the muzzle at very high speeds. Once the bullet is fired,
it remains in motion from its momentum. The momentum will carry the bullet
until it strikes an object or gravity pulls the bullet towards the earth.

Firearms change potential chemical energy into kinetic energy in the actual
firing of the gun. Many people do not realise that the force imparted by
accelerating the bullet is not the only force acting on the gun, or the shooter.
Grains of burned gun powder are sent out the muzzle at high velocity. When the
trigger is pulled, the hammer strikes a small charge at the end of the shell,
the ammunition. This charge ignites black gun powder packed behind the lead
ball bearings. When the black gun powder burns, it produces gas that rapidly
expands with the burning of more black gun powder. High pressure gases exert
forces on the back of the bullet and on the gun. The only way for the gas to
escape is to push the bullet out of its way through the end of the barrel. This
is how a bullet is fired from a gun.

Conservation of momentum is the law that is held true when the gun is fired and
a "kick" is felt. When a bullet is fired from a gun, total momentum before is
zero since nothing is moving. After firing the bullet there is a momentum in
the forward direction. The gun must therefore have the same magnitude of
momentum but in the opposite direction so that they cancel each other out
leaving the total momentum still equal to zero. For this reason the gun must
have a recoil velocity after the bullet is fired(i.e. the gun "jumps' backwards
and a "kick' is felt) .

As the bullet is propelled through the barrel, it gains momentum. In order for
the entire system of the gun and the ammunition to have equal momentum, the gun
must gain momentum in the opposite direction from the bullet. Momentum is a
vector quantity, having both a direction and a direction. The faster an object
is moving or the more mass it has, the more momentum it has in the direction of
its motion(momentum = mass velocity). Because momentum is a conserved
quantity, it cannot be created or destroyed(momentum before = momentum after).
It can only be transferred between objects. Momentum is conserved because of
Newton's third law of motion.

When one object exerts a force on a second object for a certain amount of time,
the second object exerts an equal but oppositely directed force on the first
object for exactly the same amount of time. The momentum lost by the first
object is exactly equal to the momentum gained by the second object. Momentum
is transferred from the first object to the second object. In this case, if a
gun exerts a force on a bullet when firing it forward then the bullet will exert
an equal force in the opposite direction on the gun causing it to move backwards
or recoil. Although the action and reaction forces are equal in size the effect
on the gun and the bullet are not the same since the mass of the gun is far
greater than the mass of the bullet. The acceleration of the bullet while
moving along the gun barrel would be much greater than the acceleration of the
gun(acceleration = force mass).

The conservation of momentum is also demonstrated when the bullet hits an object.
The object that it strikes absorbs the kinetic energy, energy from motion and
momentum. If the force of momentum from the bullet is great enough to overcome
the mass of the object, the target will be moved along the same vector as the
bullet.

To increase the accuracy of the flight of the bullet, a technique called rifling
can be used. Rifling is where the barrel of the gun and or the bullet is
creased with spiral grooves that allow air to pass through. When the bullet is
fired, the air passes through these curved grooves and spins the bullet. This
spinning action allows the bullet to cut through the air more efficiently and
fly on a more true course, thus stabilising its trajectory.