We can closely approximate the sun’s surface temperature to be about 5800 Kelvin (K), or 5500 Celsius (C). Similar to the element in your stove or oven, the sun emits light because of its temperature. The sun emits almost all wavelengths of light, even some that we can not perceive with our human eyes such as radio waves, microwaves, infrared (IR), ultraviolet (UV), X-rays and gamma rays. Sunlight is composed of waves of different lengths (hence the term wavelength), and some of these waves represent the colors we see. We can separate white light or sunlight into different colors when we pass it through a glass prism (red, orange, yellow, green, blue, indigo, violet). Sunlight is composed of all the colors that humans can see. A solar simulator has a light source that is designed to offer similar intensity and spectral composition to that of natural sunlight. The instrument used to simulate sunlight in a laboratory setting is called a solar simulator (sometimes called a sun simulator). The main objective of solar simulation technology is to produce illumination approximating natural sunlight in order to provide a controllable indoor test facility under laboratory conditions. This article outlines a concept called ‘solar simulation’ – a technology that mimics the sun for use in research labs, industry applications and commercial use. It provides the energy for the plants we eat and those that decayed into the fuel we burn today to harvest energy. Life on our planet would not be possible without the sun. The sun is the brightest object in the sky and something we are all familiar with. Since t he sun powers all of the life processes on Earth, being able to harness its energy and light source to invent, test and apply technology for mankind’s improvement is crucial.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |