Classical they will emit electromagnetic waves (light and radio waves).
Quantum effects might limit this since if the electrons are in the ground state (or all lower states are occupied) they can not emit any photons (quanta of electromagnetic waves).
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 solid object will emit a continuous spectrum of light, containing a range of wavelengths. This is due to the object's atoms and molecules vibrating at various energy levels, resulting in a broad emission of electromagnetic radiation.
Light waves are not caused by vibrating objects. Light waves are electromagnetic waves that do not require a medium to propagate, unlike sound waves which are caused by vibrating objects. The vibrations of charged particles, such as electrons, generate light waves.
The frequency of a wave is the same as the frequency of the source that produces it. The frequency of a wave is determined by the frequency of the vibrating source that creates it, so they are directly related.
No, incandescent light bulbs do not emit electrons by thermionic emission. Instead, they produce light by heating a filament to such a high temperature that it emits visible light due to incandescence. Thermionic emission typically refers to the emission of electrons from a heated cathode in vacuum tubes or electron guns.
The particle-like features of EM radiation at frequencies of radio waves are almost non-existent. It is far more useful to view such radiation as a vibrating EM-field instead of a photon of almost no energy. When doing so, you can see how a EM wave would result from electrons vibrating back and forth at at set frequency. By setting up an electronic oscillator that has a resonance at a radio wave frequency, you will get electrons vibrating at that frequency; and, from that, an EM wave of that frequency. > are photons emitted only by electrons jumping from higher to lower energy levels? No, there are many other ways to accomplish this.
Light waves originate from a light source, such as the sun, a light bulb, or a laser. When an object absorbs energy, it can emit photons, which are the elementary particles of light that travel as electromagnetic waves.
Yes, all living things vibrate. You are vibrating right now.
Yes, light is produced by accelerating charged particles, such as electrons, within atoms or molecules. When these charged particles change speed or direction, they emit energy in the form of electromagnetic radiation, which includes visible light.
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.
Metals have "free" electrons, the free electrons in metals help to transfer heat together with the vibrating atoms.
No, electrons in stationary states do not emit radiation because they are in stable energy levels. Radiation is emitted when electrons transition between energy levels, releasing photons of specific energies.
Electrons. Electricity is composed of free electrons and some radioactive decays emit electrons (beta particles)
no, only when accelerated
After irradiation with photons metals emit electrons.
A solid object will emit a continuous spectrum of light, containing a range of wavelengths. This is due to the object's atoms and molecules vibrating at various energy levels, resulting in a broad emission of electromagnetic radiation.
Light waves are not caused by vibrating objects. Light waves are electromagnetic waves that do not require a medium to propagate, unlike sound waves which are caused by vibrating objects. The vibrations of charged particles, such as electrons, generate light waves.