The theory behind gauss guns is that you can take electrical energy and convert it to kinetic energy by using an electromagnetic energy storage field.
In essence, you take a ferrous object (the projectile) and place it at one end of a hollow solenoid. When electricity is applied to the coils inside the solenoid, a magnetic field is generated which pulls the projectile towards the center of the coils. As the projectile reaches the center and continues, the magnetic pull decreases and eventually reverses. Before this happens, you need to either shut off the field, or reverse it. This will allow the particle to continue out the opposite side of the solenoid and beyond, thus being a "gun".
This system cannot make for a very powerful projectile without becoming prohibitively draining in terms of power for the coils. But it is possible to line up
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EnergyBeam.com has developed a gauss gun can crusher. The University of Texas has a nice Rail gun and Gauss Gun.
Rail guns and Gauss guns are very similar in that they both operate under similar theories. While Gauss guns are concerned with electromagnetic forces, Rail guns use electrostatic forces.
One of the main differences then becomes the projectile, which in the rail gun must be a charged particle. This particle passes between plates on a capacitor, heading toward the negative charged plate. As with the Gauss gun, you either deactivate to charge as it gets near the end of the plate, or reverse the charges so the next plate is negatively charged. In this way, kinetic energy is built up, and the projectile accelerates.
Physically, Lorentz forces are responsible for the acceleration of your charged particle. When the current from the particle passes along the magnetic field, it experiences a torque in the direction down the barrel of your rail gun, being pushed
2. Daisy, which is one of the most renowned air guns company, did not start out by manufacturing BB guns. It began its business by manufacturing windmills.
The canister shot was a wooden cartridge carrying iron balls and when fired would explode like a shotgun for shorter range personnel. The cannons were mostly low trajectory as opposed to the mortars which were high trajectory and fire bomb shells. The mortar was based on a wooden platform and a wedge of wood was used to incline the front of the barrel. There were land service mortars and sea service mortars. The land service being more mobile and the sea service much heavier and were permanently positioned on ships.
To his credit he came up with the famous 1862-model Revolving Battery Gun, that is now referred to as the Gatling gun. The 1862-model was one of the first reliable Revolving guns, but still had a few problems that needed to be fixed. Richard was not the first to manufacture a multi-fire weapon, but his was the first multi-fire gun used in war because of its fast, rapid fire, and ease to use. Major General Ben F. Butler purchased 12, 1862-model gatling guns for $1000 each and used them successfully at the battle of Petersburg in 1863. In 1865 Gatling's improved model, the 1865-gun was tested by the Ordnance Department. One of the changes between the improved Gatling gun and the old one, was that the new
It should be noted that there are many different ways that are employed to get a marker to shoot a paintball out of the marker. Nearly every brand of marker has a different firing system. All have several things in common. They all have some sort of tank with compressed air or C02 or Nitrogen. Then they usually have sort of bolt and hammer system which is cocked back and held in place by a sear which compresses a spring. When the trigger is pulled it releases the sear. The restoring force of the spring pushes the bolt and the hammer forward starting the paintball moving then the C02 is released propelling the ball outward.
...aid the groundwork for the invention of more modern repeating arms, and their mechanisms are in fact still in use in many modern civilian arms. Modern versions of the Gatling gun, such as the .30 cal. Dillon Aero mini gun and the 30mm GAU-8 on the Air Force’s A-10 Warthog, are still in common use in the military today.
Doctor Richard Gatling patented the Gatling gun in 1861. This gun would become one of the deadliest weapons of the war. The Gatling gun was a six-barreled gun and would fire...
Well it's quite simple actually. Spudguns use some of the same principles as internal combustion engines. Just as burning gas forces a piston out of a cylinder it can also force out a potato. A spudgun is a device that uses some form of propellant to project a potato across the sky. Usually these devices are made of ABS plastic sewer pipe. There are several major parts of the spud gun that these pages will refer to. These parts are the firing chamber, the igniter, and the barrel.
A gun has a high muzzle velocity and a very flat trajectory. Normally a gun is used in a direct fire mode where the target can be seen and penetration is desirable. Good targets for a gun would be things like brick or earth forts, ships, buildings, and targets in tree lines. Howitzers have a somewhat lower muzzle velocity and arc their shells onto a target. They are used in both direct fire and indirect fire mode.
A majority of weapons used in World War II were improved weapons from World War II. Most guns increased in power and abilities. In World War II people thought that pistols were useless but this was proved wrong due to the fact that the U.S. Mi...
This was the self contained brass cartridge. It contained an ignition source called a primer, an amount of powder and a bullet. Early cartridge guns were converted percussion rifles. The first repeating rifles were the Henry and Spencer, the Henry had a fifteen shot internal magazine and the Spencer a seven round removable magazine this meant multiple could be carried. Repeaters were not limited to rifles though handguns such as the famous Colt Single Action Army were a common favorite among both civilians and military personnel. The industrial revolution boosted the firearms industry. It allowed gunsmiths who formerly would cut rifling and make parts by hand using saws and files to now use vertical mills and lathes to improve both output and precision. Barrels became easier to rifle and take to size using lathes and mills allowed sights to be manufactured much easier. The next major evolutionary step in the firearms industry was the bolt action rifle. A bolt action provides a tighter seal at the breach than other actions allowing higher pressure cartridges and a farther effective range do to increased velocity The first bolt action used by the U.S. military was the Krag-Jorgensen a Norwegian rifle with a internal side loading magazine. It was thought by many that the Krag was was an exceptional piece of equipment but during the Spanish - American War it was proved otherwise. Spaniards armed with German Mausers a rifle with a
The Browning M2 .50 caliber machine gun is better known as the 'Ma Duce' to those who have had the pleasure of firing this heavy barrel machine gun. In 1919 John M. Browning developed the M2 .50 cal as an anti-aircraft weapon. The M2 was first introduced into the United States Military in 1933 and is used by many militaries through out the world today. Since 1933 there have been little changes made to this weapon system. The BMG (Browning Machine Gun) is a crew served, belt fed, air-cooled, recoil operated machine gun capable of firing in single shot or fully automatic.
The first guns used in America were a simple machine where the person did most of the work. The user measured and put the powder down the barrel of the gun. Next some shotgun pellets were put in the same way. This was then all compacted and the gun was ready to fire. This reloading took over a minute before each shot could be fired and the guns weren't very accurate by today's standards. If too much powder was used then the gun could explode or if the powder were wet then the gun wouldn't fire. One of inventions during the Revolutionary War was a way to reload faster. The powder was already pre-measured and kept in little sacks. This made reloading faster because the user no longer had to measure the powder between each reloading. These guns were crude but in that day was a powerful modern invention that was considered very useful. The American Revolution was a political war to obtain what the people of that era wanted. By today's standards the destruction of gun was minimal so war was used to obtain political objectives.
M253 Cannon (barrel): The M253 cannon consists of the barrel, sealed at the lower end with a removable breech plug that houses a removable firing pin. At the muzzle end is a cone-shaped Blast Attenuator Device (BAD) that is fitted to reduce noise.
“Volley Guns” (Chivers, 2010, p.26) or also known as “Organ Guns” (Ellis, 1975, p.10) were first attempts at increasing firepower by adding several barrels at the firing itself, rather than simply attempting to increase the rate of fire. “Gunsmiths had long ago learned to place barrels side by side on frames to create firearms capable of discharging projectiles in rapid succession. These unwieldy devices, or volley guns, were capable in theory of blasting a hole in a line of advancing soldiers” (Chivers, 2010, p.26). An example of such weapons can be seen on July 28, 1835 when Giuseppe Fieshi unleashed terror on King Louis-Phillipe in Paris, France. He fired his 25 barrel “volley gun”, killing 18 of the king's entourage and grazing the King's skull. The weapon was ineffective however. Four of the barrels failed and another four ruptured. Two other barrels had exploded inside, grievously wounding Giuseppe. (Chivers, 2010, p. 27)
Useful for the military, projectile motion can now be used for a number of weapons; which is when an object (like a bullet or cannon) is thrown-projected- and mov...