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HolgerFiedler
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Charged particle is at rest. It has an electric field around it. No problem. That is its property.

The electrons intrinsic properties are their electric charge and their magnetic dipole moment. So the electron has two fields around it. The magnetic field is observable if one put a magnetizable material into an external magnetic field. Often the magnetization of the material holds for a while, which is explained by the alignment of the magnetic dipole moments of the subatomic constituents.

Charged particle started moving (it's accelerating). We were told that it starts radiating EM radiation.

If one observe an electron beam in a vacuum chamber hardly one will observe that the electrons slow down (except the change of velocity and direction from the earths gravitation). Since there is no decrease of the speed of a constant moving electron there wouldn't be any loss of energy, hence the electron does not radiate. So you are right that only particles under acceleration radiate.

How an why do accelerating charges radiate electromagnetic radiation?

Accelerated charges radiate and they do this in portions, in the past called by Einstein quanta and later called photons. Every photon - as well as the emitting particle - has an electric field component and a magnetic field component and that is why such radiation is called EM radiation.

Why EM radiation occurs?

Suppose you have to slow down a car. Not having EM radiation you would be able to stop your care only by transferring your kinetic energy to another body, be this another massive body or a rotating disc for example. To our luck the loss of energy in every energy transfer happens at any case. So for a why question the answer has to be because nature works this way. The better questions are how something happens. The answer how would be an explanation on a more detailed level (including new hows) as the observation level.

How EM radiation occurs?

There is a phenomenon in nature called the Lorentz force. As soon as an electron moves inside a magnetic field and if the electrons direction of movement is not parallel to the north-south direction of the magnetic field then the electron gets deflection in the direction perpendicular to both directions of the electrons movement and the magnetic field.

An external constant magnetic field does not contribute (put in) energy for the deflection of the electron. Means, one can let through the magnet device electrons as long as he wants, the magnetic device does not weaken. So the reason for the deflection and the escorting EM radiation from the electron has to lie in the electron and its kinetic energy (an electron in rest to the external magnetic field won't be deflected.)

I started with the statement that an electron has a magnetic dipole moment. Coming into an external magnetic field the electrons magnetic field gets aligned to this external field. At the same time the photon emission happens. If we suppose that during the alignment process the radiation of the photon happens, this will disbalance the alignment again And - because the photon has a momentum - the electron gets pushed against the direction of the photon emission which is in accordance with the observation radially outwards directed.

Now we have an effective chain: alignment - photon emissio - deflection - again alignement - ... By this the electron lose kinetic energy and moves in a spiral path until it stops. In detail the spiral path is a path of tangerine slices.

HolgerFiedler
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