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an accelerating charged particle or synchronized electric and magnetic fields
w What are electric and magnetic properties of particle?
Alpha (and beta) radiation is "particle radiation" Gamma is electro-magnetic radiation.
Yes. And no. Light is electromagnetic radiation (that's the yes part), but it has no electric charge and it isn't "magnetic" in the normal sense of being attracted to a magnet (that's the no part). The standard models for the description of light is both as a particle (photon) AND a wave (electromagnetic radiation). The electromagnetic radiation model has electric and magnetic field values at right angles to each other propagating at the speed of light in a vacuum.
It produced a magnetic field. If it's charged, it can be negative OR positive. It's magnetic because if they're both alike signs (both positive or both negative) they repel like magnets. If one particle is positive and one is negative, they attract like magnets.
An electric field can created by a presence of a charge particle such as electron or proton. While a magnetic fieldis created due the relative motion of a charge particle with repeat to a stationary observer, motion of the charge particle.
The ones that have more mass than the accelerator can move.
Yes. When a charged particle such as an electron vibrates, it emits both an electric field and a magnetic field in a wavelike pattern. This electromagnetic wave is the same as a light wave, and if the charged particle is vibrating at the right frequency, it will emit visible light.
A particle of light. Or, in general, of an electromagnetic wave.
Charged particles will be deflected by an electric field. The movement of any charged particle through an electric field will cause that charged particle to be attracted by one pole of the field and repelled by the other. That leaves uncharged particulate radiation, like a neutron, and electromagnetic radiation that will not be deflected by an electric field. The electromagnetic radiation will include X-rays and gamma rays.
Ultraviolet radiation does diffract (show a diffraction pattern.) All electro magnetic radiation will diffract. Even particle radiation will diffract.
Light possesses both properties of a wave and a particle. As a wave it is an oscillating electric and magnetic field. As a particle, light is a packet of energy that is treated as a point particle that does not have an electric field without a charge.