It is called a Photon.
The vibration of an electrically charged particle can produce electromagnetic waves, such as light. This happens when the charged particle accelerates or changes direction, generating oscillating electric and magnetic fields that propagate through space as electromagnetic radiation.
Light energy is unique because it travels in waves and does not require a medium to propagate, unlike sound or mechanical energy. It can also be both a particle and a wave, exhibiting properties of both.
The energy that makes you move is called kinetic energy. It is the energy associated with an object in motion.
The type of energy that makes a light bulb feel warm is heat energy. This energy is generated as a byproduct of the light bulb's operation and is emitted in the form of infrared radiation, which can be felt as warmth.
Electricity is the energy source that powers a light bulb and makes it light up. When electricity flows through the filament in a light bulb, it generates heat and light, resulting in illumination.
Photon
The vibration of an electrically charged particle can produce electromagnetic waves, such as light. This happens when the charged particle accelerates or changes direction, generating oscillating electric and magnetic fields that propagate through space as electromagnetic radiation.
A photon is a sub atomic particle is a single enery packet of light As it has no mass it can travel at the speed of light (since it is light) and are created when an electron makes a quantum leap inside an atom.
Light energy is unique because it travels in waves and does not require a medium to propagate, unlike sound or mechanical energy. It can also be both a particle and a wave, exhibiting properties of both.
The energy that makes you move is called kinetic energy. It is the energy associated with an object in motion.
The particle with an electric charge is called the proton. It makes up part of an atoms nucleus.
The Light of a candle is part of the electromagnetic spectrum, so it is electromagnetic energy. It is also called radiant energy. A candle, however, can emit others kinds of energy like heat, light, sounds, kinetic energy (that makes the air move due to convection) and so on.
The type of energy that makes a light bulb feel warm is heat energy. This energy is generated as a byproduct of the light bulb's operation and is emitted in the form of infrared radiation, which can be felt as warmth.
basically each particle " vibrates " and when the particle transfers the energy with momentum. if you want any more details on the transition you will have to see a professional
Electricity is the energy source that powers a light bulb and makes it light up. When electricity flows through the filament in a light bulb, it generates heat and light, resulting in illumination.
Lasers don't really "make use" of either the wave or particle nature of light. Or they make use of both. But because a laser emits what is called coherent light, it could be argued that the wave nature of light is best at describing the light the laser emits.Lasers make use of Boltzmann energy distribution statistics, which doesn't have anything to do with the particle or wave description of light. Lasers work by creating a population inversion in a chemical compound which creates stimulated emission when excited.Light has both wave-like and particle-like properties at the same time. It is said to exhibit particle-wave duality. Light is what it is -- the fact that we describe it using both a particle and a wave description is only a reflection of our inability to fully describe light in using one single intuitive model (because we have no intuitive experience with things that have both wave and particle properties simultaneously).
A nucleon s a particle that makes up the nucleus of an atom. Protons and neutrons are both nucleons.