- #1
dan020350
- 35
- 0
Can it do such a thing or are the particles too small ? If it is possible can I take the electron gun out my cry is you AA batteries?
dan020350 said:Can it do such a thing or are the particles too small ? If it is possible can I take the electron gun out my cry is you AA batteries?
Sry. It is CRT. What about the toroid? Where the coils are wrap around a circle,!in the middle of the donut isn't that is how the electron beam begins? It repels out the magnet?ZapperZ said:Er... say that again? Especially the "... take the electron gun out my cry is you AA batteries..."
An electron beam doesn't have as much "mass" or weight as a typical magnet. If anything, the electron beam is the one that gets affected by the magnet, with very little effect on the magnet due to the electron beam.
So to answer your question: No.
Zz.
dan020350 said:Can it do such a thing or are the particles too small ? If it is possible can I take the electron gun out my cry is you AA batteries?
dan020350 said:Sry. It is CRT. What about the toroid? Where the coils are wrap around a circle,!in the middle of the donut isn't that is how the electron beam begins? It repels out the magnet?
But that's for your reponse.
The short answer is no. A permanent magnet is made up of tiny magnetic domains, which are already aligned and have a fixed magnetic field. The magnetic field produced by an electron gun is not strong enough to overcome the fixed magnetic field of a permanent magnet and attract it.
Yes, it is possible for a permanent magnet to be repelled by an electron gun. This can occur if the magnetic field produced by the electron gun is strong enough to overcome the fixed magnetic field of the permanent magnet, causing them to repel each other.
An electron gun produces a magnetic field by passing an electric current through a coil of wire. This creates a magnetic field that can interact with other magnetic fields, such as those produced by permanent magnets.
The strength of the magnetic field produced by an electron gun is affected by the amount of current passing through the coil, the number of turns in the coil, and the material of the coil. A larger current and more turns in the coil will result in a stronger magnetic field.
Yes, there is a limit to how strong the magnetic field of an electron gun can be. This limit is determined by the materials used to create the coil and the maximum current that can be passed through it without causing damage. Going beyond this limit can result in the coil overheating and potentially causing damage to the electron gun.