photon: a closer view

in #stemng7 years ago (edited)

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The imagery you are seeing above is an artistic impression of the photon particles. These particles can travel across the earth seven times in one second, and it takes only eight minutes to reach the earth from the sun. You actually get hit by them every other day. The visible lights we see are actually carried by photons. The photon particles can also be referred to as light quantum, minute energy packet of electromagnetic radiation.
A photon is a particle of light defined as a discrete bundle (or quantum) of electromagnetic energy. Photons are always in motion and in or vacuum (a completely empty space), have a constant speed of light to all observers.
Photons travel at the vacuum speed of light. C= 2.99x108
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BASIC PROPERTIES OF PHOTONS
I would attempt to outline some basic properties of photons: According to the photon theory of light, photons

  • Photons can behave like a particle and a wave at the same time.

  • Photons move at constant velocity in empty space

  • Can be created/destroyed when radiation is absorbed/emitted

  • The rest mass of a photon is 0.
    We learned earlier that objects with nonzero rest mass cannot propagate with the speed of light. This comes from the fact, that if you calculate the dynamical mass for greater than 0 and v=c, you get nonsense, a diverging expression. It looks as if the dynamical mass became infinite, which means the energy of the particle became infinite. However, if the rest mass is zero, you get 0/0, which in mathematics means an arbitrary number. By using mathematical tricks (limits), one can still extract some information from such limits and get a meaningful value for the dynamical mass.

The dynamical mass of the photon is
m_photon.gif

The momentum of a photon is p=mc
(just as in classical physics, momentum equals mass times speed) which gives us

photon_impusl1.gif

A BRIEF HISTORY

The concept originated (1905) in Albert Einstein’s explanation of the photoelectric effect, in which he proposed the existence of discrete energy packets during the transmission of light. Earlier (1900), the German physicist Max Planck had prepared the way for the concept by explaining that heat radiation is emitted and absorbed in distinct units, or quanta. The concept came into general use after the U.S. physicist Arthur H. Compton demonstrated (1923) the corpuscular nature of X-rays.1

EVERY DAY APPLICATION OF PHOTON
Photon is the foundation of light and as such has a lot of application in real time. They are used in practically any and everything to relate with light usage. Examples of photon.
Sunlight
Camera
X-ray
Uv radiation
The visible light we see
A big thanks to Enstein who has helped us appreciate the concept of photon in everyday life. Sometimes we do enjoy the several spectrums of light but we however may not think of what component it is made up of.
They are of course photons. Photons play vital role in our understanding of the concept of relativity and the speed of light.

References

what exactly is photon

Basic properties of photon

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