Is there a proton gun?
A particle-beam weapon is a type of directed-energy weapon, which directs energy in a particular and focused direction using particles with minuscule mass. They have been known by myriad names: phasers, disruptors, particle accelerator guns, ion cannons, proton beams, lightning rays, rayguns, etc.
Can an electron gun be used as a weapon?
It would only be effective in outer space, and even then the electron is not very massive, but can be accelerated to high energies. Hence it may be an effective weapon unless the enemy were charged or magnetized.
What happens when a proton is absorbed?
In electron capture, an atomic electron is absorbed by a proton in the nucleus, turning the proton into a neutron. But most atoms do not have too many protons, so there is nothing for the electron to interact with. As a result, each electron in a stable atom remains in its spread-out wavefunction shape.
Does the US have particle beam weapons?
In the 1980s, the US Strategic Defense Initiative put into development a neutral particle beam weapon, which was launched into space in 1989 and successfully operated for four minutes. However, particle beam weapons have still, today, not progressed beyond this experimental stage.
Can you make a proton gun?
Both electron gun and proton can be made but they don’t work the way you want.
What is an EB gun?
Ion beam (IB) guns and electron beam (EB) guns are devices that emit charged particles (ions and electrons, respectively) directed in a beam which are used in surface analysis or preparation, particle physics, resin curing, evaporation, and welding.
What happens when a proton and electron collide?
When a proton and an electron collide, it’s called an electron capture. Electron capture is one of two processes in which a neutron is produced. The other process is a beta decay.
What happens when a neutron hits a proton?
Because neutrons that strike the hydrogen nucleus (proton, or deuteron) impart energy to that nucleus, they in turn break from their chemical bonds and travel a short distance before stopping.
Why is a proton positively charged?
A proton has positive charge of 1, that is, equal but opposite to the charge of an electron. The charge is believed to be from the charge of the quarks that make up the nucleons (protons and neutrons).