A gamma ray would experience the least electrical force in an electric field. An electron and a beta particle would experience the greatest electrical force.
That depends on the strength of the electric field, and on the length of time the electron has been experiencing it. An electron in an electric field accelerates uniformly.
If the incident direction of an electron is right, The electron travels a measured distance along the pathÊ prior to exiting the magnetic field.
First of all, the forces they experience would be in exactly the opposite directions. Secondly, because the mass of the proton is greater, it would have a lower acceleration than the electron.
The "direction" of the electric field is defined as the direction of the force it exerts on a small positive charge. The direction of the force on an electron in the field is exactly opposite to the direction of the field, and its effect is to accelerate the electron in the direction of the force.
A gamma ray would experience the least electrical force in an electric field. An electron and a beta particle would experience the greatest electrical force.
The electric field is stronger near the electron and becomes weaker as the distance from the electron increases.
That depends on the strength of the electric field, and on the length of time the electron has been experiencing it. An electron in an electric field accelerates uniformly.
i have 2.2 year experience in this field
i have 2.2 year experience in this field
Stationary charge don't produce a magnetic field. because it has no velocity in it, without flow of electron we can't find electricity and for that we have no magnetic field for a stationary charge. It produce only electric field.
If the incident direction of an electron is right, The electron travels a measured distance along the pathÊ prior to exiting the magnetic field.
The specific field of science that an electron configuration applies to is quantum physics. Electron Configuration refers to the distribution of electrons in an atom.
Yes. Stationary electric (electrostatic) fields will act on each other and a force will be developed. If you had a standing electric field and could "beam in" an electron (a la Star Trek), the electron would react at once and move either toward a positive field source or away from a negative field source. The electron would know the field was there the instant it appeared.
it is the mass of an electron in the presence of an electric or magnetic field.
Field Emission Scanning Electron Microscopy
Recommend you ask a gunsmith for assistance. Not something to do on your own with no experience.