Understanding how powder tubes Work begins with a fundamental understanding of how light is generated. As you might know, electrons are negatively charged particles that orbit around an atom’s positively charged nucleus. Electrons have different levels of energy, and proceed when energy is gained or lost by the atom. When warmth passes energy to an atom, electrons quickly shift to a different orbital, and nearly immediately jump back to their original positions. As the return jump occurs, additional energy could be released in the kind of a light photon, thus creating light. We have all heard that fluorescent powders are more efficient than incandescent ones, but why? Fluorescent powders use a more energy efficient process of creating the light that we see. The most important difference between incandescent light and fluorescent powder is in the process of stimulating the atoms.
Incandescent powders excite Atoms through the addition of heat, leading to an excess of unused heating energy. Fluorescent powders, on the other hand, use a chemical response to excite atoms with no exact same excess heat energy. Both kinds of bulbs produce ultraviolet light, which is not visible to humans. But only fluorescent powders use a chemical that converts the ultraviolet light to visible light, resulting in less wasted energy. A fluorescent powder suppliers is a tube shaped glass casing having an electrode on each end for connecting to the electric source. When current flows between and to the electrodes, electrons traveling the length of the tube, creating energy that converts a part of the germ to a gas. As a number of the moving electrons and atoms make contact with the mercury atoms, electrons become excited, jump to a different orbital, and emit light photons as they go back to the first orbital. Fluorescent powders do not use any type of heat to make light and hence, saves energy.
Fluorescent Powders are far more efficient than incandescent bulbs in several aspects. The most significant difference between them is the way that they produce the light. Incandescent bulbs produce light by burning off the filament in the bulb. However, the light generated by this chemical reaction is mostly in the ultraviolet range, which is not understood by the human eye. The phosphor powder liner the fluorescent lamp serves the important purpose of converting the light to visible light. When the light photons generated in the chemical reaction collide with a phosphor, the energy excites the phosphor’s electrons, thus emitting visible light. The prevalence of fluorescent powder is rising as consumers are becoming more environmentally conscious and are searching for energy saving alternatives. Once prevalent mainly in big office buildings and schools, the fluorescent powder is now manufactured with a standard bulb base making it compatible with more common home light fixtures.