RGB is designed from the principle of color luminescence. In layman scriptor termini, ejus color miscentes modum est sicut rubrum, viridi et hyacintho luminaria. Cum lumina invicem colores miscentur, sed claritas aequalis claritas duo magis mixtum altius claritas, id est additive miscentes.
Superpositione rubrum, viridi et hyacintho luminaria, et clarissima superpositione area centralis tres colores est albus, et characteres additive miscentes, magis superpositione, clarior.
Each of the three color channels, red, green, and blue, is divided into 256 levels of brightness. At 0, the “light” is the weakest – it is turned off, and at 255, the “light” is the brightest. Cum autem tres-color Grayscale values sunt idem, griseo sunt cum diversis Grayscale valores generantur, id est, cum tria-color Grayscale est omnium 0, quod est tenebris nigrum sono; when the three-color grayscale is 255, it is the brightest white tone .
RGB colores dicuntur alba additive colorum quod creare album per addendo R, G, b simul (id est, omnis lux reflectitur ad oculum). Additive colors are used in lighting, television and computer monitors. For example, displays produce color by emitting light from red, green, and blue phosphors. Ingens maior est visibilis spectro potest repraesentari sicut mixturam rubrum, viridi et hyacintho (RGB) lux in varia proportiones et intensities. When these colors overlap, cyan, magenta, and yellow are produced.
Tum albus lux ducitur et RGB ducitur eadem metam, et spes ad consequi effectum candidum, sed unus est directe sistitur albus lux, et aliud formatae a miscentes rubrum, viridi et hyacintho.
