Any wave has an associated particle, and vice versa. However, at very low energies - such as radio waves - the wave nature stands out more; the particle nature is hard to detect in such a case.
We know that electromagnetic radiation travels as waves.
Electromagnetic radiation can behave either as a wave or a particle. A wave particle is duality. Electromagnetic energy results from acceleration of a charge EM radiation can travel through a medium or vacuum.
The term wave-particle duality might work.
Gamma radiation is not a particle, is it a high energy electromagnetic wave.
All light - or rather, electromagnetic radiation - has both particle and wave properties. However, when the electromagnetic radiation is more energetic - such as in the case of x-rays or gamma rays - the particle aspects are more obvious; on the other hand, when the radiation is low-energy, such as radio waves, the wave properties are more obvious.
Any wave has an associated particle, and vice versa. However, at very low energies - such as radio waves - the wave nature stands out more; the particle nature is hard to detect in such a case.
a particle traveling in wave form.
wave theory of light
Electromagnetic radiation can behave either as a wave or a particle. A wave particle is duality. Electromagnetic energy results from acceleration of a charge EM radiation can travel through a medium or vacuum.
The term wave-particle duality might work.
Gamma radiation is not a particle, is it a high energy electromagnetic wave.
Heat radiation is mainly associated with infrared radiation.
Alpha (and beta) radiation is "particle radiation" Gamma is electro-magnetic radiation.
All light - or rather, electromagnetic radiation - has both particle and wave properties. However, when the electromagnetic radiation is more energetic - such as in the case of x-rays or gamma rays - the particle aspects are more obvious; on the other hand, when the radiation is low-energy, such as radio waves, the wave properties are more obvious.
EM radiation is short for electromagnetic radiation. It is a wave in the electric and magnetic fields.EM radiation is short for electromagnetic radiation. It is a wave in the electric and magnetic fields.EM radiation is short for electromagnetic radiation. It is a wave in the electric and magnetic fields.EM radiation is short for electromagnetic radiation. It is a wave in the electric and magnetic fields.
Any wave has an associated particle, and vice versa. However, at very low energies - such as radio waves - the wave nature stands out more; the particle nature is hard to detect in such a case.
A particle of light. Or, in general, of an electromagnetic wave.
electromagnetic radiation is not just simply a wave. When observed it appears to be a particle, when measured a wave. See the wiki article on the double-slit experiment.