My answer is NO, since vibrating electric charge cannot exist independently (conservation of electric charge cannot be violated). Vibrating electric charge can only exist as part of electric charge wave.
A vibrating proton IS an electromagnetic wave. The E.M. wavelength is a measurment of how fast the proton is vibrating.
No, it would only produce an electrostatic field.
Yes. Since it has an electric charge, an accelerating proton can produce an electromagnetic wave.
No. They transport energy but not charge.
It wouldn't, and it doesn't.
no.
If you mean what uses electrons to produce magnified images, that would be the electron microscope (EM), of which there are several types.
no
In reality wherever there is harmony or matching then energy would be easily handed over or transferred. Same way as the electron status in an atom is in harmony with the falling electromagnetic radiation then that energy would be absorbed by the electron and so the electron would go to the higher energy level. This is what we call excitation. This is how heat is getting transferred to the molecules of fluid, atoms of solid etc. Light too gets absorbed by the leaves in the process of photo synthesis.
That would be an electron microscope - the magnets are used to deflect the electron beam.That would be an electron microscope - the magnets are used to deflect the electron beam.That would be an electron microscope - the magnets are used to deflect the electron beam.That would be an electron microscope - the magnets are used to deflect the electron beam.
An electron in the ground state does absorb energy in form of photons or other electromagnetic radiations.
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.
When a charge is stationary then an electric field exists. If that charge moves uniformly in space then magnetic field arises around the direction of movement of that charge. If the same charge gets accelerated then electromagnetic disturbance is produced in the space. So any charge oscillating or moving in a curved path would produce electromagnetic disturbance. Such a disturbance is known as electromagnetic waves.
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.
no.
If you mean what uses electrons to produce magnified images, that would be the electron microscope (EM), of which there are several types.
The Bohr radius, is the estimated distance between protons in the nucleus and electrons - but electrons aren't solid, stationary particles... The simple answer would be about one-twentieth of a nanometre. But this would only be reasonable if the electron were a solid particle.
Yes if the moon fell on earth it would definetly produce a noticable magnetic field.
no
In reality wherever there is harmony or matching then energy would be easily handed over or transferred. Same way as the electron status in an atom is in harmony with the falling electromagnetic radiation then that energy would be absorbed by the electron and so the electron would go to the higher energy level. This is what we call excitation. This is how heat is getting transferred to the molecules of fluid, atoms of solid etc. Light too gets absorbed by the leaves in the process of photo synthesis.
I would imagine because the wavelength of electrons is not in the visible region
I believe it would be stationary but i am not sure
The opposite of stationary (in one place) would be moving, in motion, or mobile.