A railgun (not to be confused with a Gauss gun, which is another name for a coilgun), is a form of gun that converts electrical energy into projectile kinetic energy, rather than the more conventional chemical energy from an explosive propellant.
Railguns utilize a magnetic force termed “Lorentz Force” to propel an electrically conductive projectile that is initially part of the current path. The current flowing through the rails sets up a magnetic field between them and through the projectile perpendicularly to the current in the rail. This results in a mutual repulsion of the rails and the acceleration of the project along them.
Although conceptually simple, the operation of a railgun involves several factors that have to this day made a practical design (one that can be fielded and replace conventional weapons) impossible.
A wire carrying an electrical current, when in a magnetic field, experiences a force perpendicular to the direction of the current and the direction of the magnetic field. This is the principle behind the operation of an electric motor, where fixed magnets create a magnetic field, and a coil of wire is carried upon a shaft that is free to rotate. When electricity is applied to the coil of wire a current flows, causing it to experience a force due to the magnetic field; the wires of the coil are arranged such that all the forces on the wires act to make the shaft rotate, and so the motor runs.
A railgun is even simpler than a motor. It consists of two parallel metal rails (hence the name) connected to an electrical power supply. When a conductive projectile is inserted between the rails (from the end connected to the power supply), it completes the circuit. Electrical current runs from the positive terminal of the power supply up the positive rail, across the projectile, and down the negative rail back to the power supply again.
This flow of current makes the railgun act like an electromagnet, creating a powerful magnetic field in the region of the rails up to the position of the projectile. In accordance with the right-hand rule, the created magnetic field circulates around each conductor. Since the current flows in opposite direction along each rail, the net magnetic field between the rails (B) is directed vertically. In combination with the current (I) flowing across the projectile, this produces a Lorentz force which accelerates the projectile along the rails. There are also forces acting on the rails attempting to push them apart, but since the rails are firmly mounted they cannot move. The projectile is able to slide up the rails away from the end with the power supply.
If you happen to do this with a very large power supply, providing a million amperes or so of current, then the force on the projectile will be tremendous, and by the time it leaves the ends of the rails it can be travelling at many kilometres per second.
Railguns have started to appear in sci-fi and become a mainstream idea. However, they have not always been portrayed accurately.
In Robert Heinlein’s classic novel The Moon is a Harsh Mistress, rebelling Lunar colonists convert a kilometers-long mass driver system that delivers raw materials to Earth into a basic railgun that lobs metal-clad rocks.
In the film Eraser, the lead character gets hold of a device like a chunky rifle that is said to be a man-portable railgun. It is shown firing bullets through great numbers of walls and so on, and it makes a blue trail in the air. In many computer games, such as Red Faction, Red Faction II, and the Quake series, railguns are common weapons.
Two devices identified as railguns appear in the Metal Gear series. One is mounted on Metal Gear REX, and its description is in fact more similar to that of a Coilgun. The other is an experimental and highly unstable man-portable weapon in Metal Gear Solid 2, supposedly a miniature of MG-REX’s railgun (which would make it a coilgun). However, somewhat confusingly, electrical arcs during its use suggest it might be actually be a railgun.
The book Snow Crash features an experimental railgun weapon codenamed Reason.
The Tau in Warhammer 40,000 use railguns extensively.
However, man-portable railguns will not be revolutionary weapons; if power supply technology ever lets us make a railgun supply small enough to be carried then rail-handguns will probably only be able to fire projectiles at speeds not much higher than currently achieved with chemical propellants. The simple reason is that the destructive power of a handgun or long gun is limited as much by recoil as anything else; we can quite happily build a handgun that fires 20 mm cannon shells, but you couldn’t fire it without having your hand broken.
One possible route to explore is a portable railgun that fires very small bullets. The recoil of a weapon is caused by the momentum of the escaping projectile yet the damage done by the projectile is more related to its kinetic energy. The momentum of the projectile is its mass times its velocity, but the kinetic energy is one half of the mass times the velocity squared. So a very small, very fast, projectile could deliver a moderate recoil, but be carrying enough kinetic energy to vaporise upon impact and burn a large hole in armour and flesh alike. However, such a weapon would not fire through walls very well; the projectile would vaporise upon contact with the first wall. (via Wikipedia)
No tags for this post.
