Accelerating Current: Does Bending a Wire Produce EM Radiation?

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Bending a wire causes the current, or flow of charge, to change direction, which raises the question of whether this produces electromagnetic (EM) radiation. While accelerating charged particles can generate radiation, a steady current in a bent wire does not produce radiation because it maintains a constant charge density and electric field. In contrast, charged particles in circular paths, like those in synchrotrons, do emit radiation due to their changing electric fields. The confusion arises from the difference between steady currents and the dynamic conditions in particle accelerators. Ultimately, bending a wire does not lead to radiation under steady current conditions.
SandeshPhy
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Current is simply flow of charge,
and acceleration of charged particles produces EM radiation.
Then if we bend a wire,charges(current) would be accelerated as they change direction,then a bent wire must radiate.Is it true?
 
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Radiation is produced by a changing current, or a changing charge distribution. A steady current does not produce radiation, even in a circular wire.
 
When charged particles, electrons, protons etc, are traveling in circular paths in accelerators they produce radiation sometimes know as synchrotron radiation.
Some synchrotrons are used as sources of X-rays.
 
technician said:
When charged particles, electrons, protons etc, are traveling in circular paths in accelerators they produce radiation sometimes know as synchrotron radiation.
Some synchrotrons are used as sources of X-rays.

But then even steady current moving in curved path is same as electrons moving in synchrotons.the electrons do radiate so why doesn't the current(which is simply flow of electrons)?

I am totally confused here?
 
A steady current in a circular wire has a constant charge density throughout. Maxwell's equations gives zero/constant electric field (if the wire is approx. zero charge or charged) and constant magnetic field - no radiation. An electron in a cyclotron does NOT have a constant charge density so the electric field is time dependent. For that matter the magnetic field would be more complicated too!

The way I understood the first post I imagined bending a wire as charge was flowing through it - in this case there would be radiation of course, since the magnetic field would change.
 

Thread 'Why measure the speed of light in one direction?'

It may be shown from the equations of electromagnetism, by James Clerk Maxwell in the 1860’s, that the speed of light in the vacuum of free space is related to electric permittivity (ϵ) and magnetic permeability (μ) by the equation: c=1/√( μ ϵ ) . This value is a constant for the vacuum of free space and is independent of the motion of the observer. It was this fact, in part, that led Albert Einstein to Special Relativity.
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