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noble gases and creation of neon signs - electronic sign board
If you 've ever thought about the special features of using inert gases in neon lights, why not use other gases. . .
Here we have the answer for you.
It all began in the year 00 s.
Many physicists, mainly Sir William cruxks, began their experiments to observe and analyze what radiation was produced in the vacuum pipe, in the vacuum pipe, A small amount of elemental gas is during which an arc occurs between the electrodes in the evacuation tube containing a small amount of elemental gas.
Surprisingly, physicists have observed
According to the introduced gas, the effect of various colors is produced.
It is only after 1910 that the first appropriate functional application to clarify the logo begins to exist.
Claude George, a French physicist, invented the first neon light and chose it as a filler.
The important thing to note in this process is that following the correct pressure and voltage is the cause of the deep red glow lights and neon signs.
The two most common and common plasma devices used are fluorescent bulbs and almost similar neon lights.
Given their growth in the 1940s S, fluorescent bulbs have become alternative lighting equipment for business centres, factories, and schools and many other places have also begun to build wider schools in residential areas.
In most cases, the light emitted by the fluorescent bulb looks white.
Guess how this white came from?
This white color is a mixture of all colors in the visible spectrum, just as it works with sunlight.
When it comes to fluorescent bulbs, what actually causes light is a white powder that is applied to the inner wall of the long glass bottle of the bulb.
This powder is nothing more than powder.
Although it may not have any phosphorus, it gives us the white light we see through the fluorescent process.
This is the process based on the given name of the "fluorescent" bulb.
When an atom or molecule attracts and maintains energy from a source, such as a photon of light, or a collision with another atom, the process of fluorescence occurs.
Subsequently, in two or more successive reaction steps, a large amount of energy is loosely discharged in the form of light.
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