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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.

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16y ago
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AnswerBot

6mo ago

No, a stationary electron does not produce an electromagnetic wave. Electromagnetic waves are produced when charged particles are accelerated or undergo changes in motion.

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11y ago

A vibrating proton IS an electromagnetic wave. The E.M. wavelength is a measurment of how fast the proton is vibrating.

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10y ago

No, it would only produce an electrostatic field.

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9y ago

Yes. Since it has an electric charge, an accelerating proton can produce an electromagnetic wave.

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11y ago

No. They transport energy but not charge.

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10y ago

It wouldn't, and it doesn't.

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9y ago

no.

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Q: Would a stationary electron produce an electromagnetic wave?
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Continue Learning about Physics

Would a vibrating neutron procude an electromagnetic wave?

No, a vibrating neutron would not produce an electromagnetic wave. Neutrons are electrically neutral and do not carry an electric charge, so they do not interact with electromagnetic fields in the same way that charged particles do.


What uses electrons to produce magnified images?

An electron microscope uses a beam of accelerated electrons to produce magnified images of extremely small objects. This type of microscope offers much higher resolution and magnification capabilities compared to traditional light microscopes.


Would electromagnetic waves exist if changing magnetic fields could produce electric fields but chaning electric fields could not in turn produce magnetic fields?

No, electromagnetic waves require the mutual generation of electric and magnetic fields. This reciprocal relationship allows the waves to propagate through space as self-sustaining oscillations. If only one field could generate the other but not vice versa, electromagnetic waves would not exist.


Which type of surface would most likely the best reflector of electro magnetic energy?

A smooth and polished metallic surface, such as silver or aluminum, would be the best reflector of electromagnetic energy. These surfaces have high reflectivity due to their free electron density, allowing them to efficiently reflect a wide range of electromagnetic frequencies.


How an electromagnetic wave transfer radiant energy to matter?

An electromagnetic wave carries energy in its oscillating electric and magnetic fields. When the wave encounters matter, these electric and magnetic fields interact with the charged particles in the material. This interaction transfers energy from the wave to the matter, causing effects like heating or exciting electrons to higher energy states.

Related questions

If a stationary electron sat inside a stationary magnetic field would the magnetic field cause the electron to move?

No, a stationary electron placed in a stationary magnetic field would not move due to the magnetic field alone. The force experienced by a charged particle in a magnetic field is perpendicular to both the magnetic field and the velocity of the particle. In this case, since the electron is stationary, there is no component of its velocity perpendicular to the magnetic field for the magnetic force to act upon.


What can produce electromagnetic waves?

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.


If a stationary electron sat inside a stationary electric field would the electric field cause the electron to move?

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.


Would a vibrating neutron produce electromagnetic wave?

no.


Would a vibrating neutron procude an electromagnetic wave?

No, a vibrating neutron would not produce an electromagnetic wave. Neutrons are electrically neutral and do not carry an electric charge, so they do not interact with electromagnetic fields in the same way that charged particles do.


What is the approximate distance between an electron and the nucleus?

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.


Can Heavy objects falling in Gravitational fields Produce Electromagnetic fields?

Yes if the moon fell on earth it would definetly produce a noticable magnetic field.


Why don't electron microscopes produce colored images?

Electron microscopes use electron beams to create images with high resolution, but electrons don't interact with light in the same way as photons do in optical microscopes, so they don't produce colored images. Instead, electron microscopes typically produce grayscale images based on the intensity of electron beams detected.


What uses electrons to produce magnified images?

An electron microscope uses a beam of accelerated electrons to produce magnified images of extremely small objects. This type of microscope offers much higher resolution and magnification capabilities compared to traditional light microscopes.


Would electromagnetic waves exist if changing magnetic fields could produce electric fields but chaning electric fields could not in turn produce magnetic fields?

No, electromagnetic waves require the mutual generation of electric and magnetic fields. This reciprocal relationship allows the waves to propagate through space as self-sustaining oscillations. If only one field could generate the other but not vice versa, electromagnetic waves would not exist.


Would a vibrating proton produce an electromagnetic wave Would a vibrating neutron?

Yes, because it has a charge (+). Any charged particle that vibrates produces an electromagnetic wave at the frequency determined by the number of vibrations per second. The magnitude is determined by the how far the particle goes from max. to min. on each cycle.


Is the fluid in the cytoplasm stationary or constantly moving?

I believe it would be stationary but i am not sure