Combinations of RGB Color
Several other colours can be exhibited in addition to these eight (red, green, blue, yellow, magenta, cyan, white, and black). This is accomplished by combining different colour concentrations to get the desired colour on screen.
Each of the three primary hues (red, green, and blue) has six distinct characteristics
This also means there are 63 or 216 colors in total.
However, this is only in theory.
Due to hardware issues faced by printers in Coimbatore with display devices, each basic colour is only exhibited with strengths of 0%, 2%, 10%, 28%, 57%, and 100%. Colors would not be presented appropriately (save for the eight colours specified above, which rely on either 0% or 100% strength for each fundamental colour).
Through study, new tools, and better coding, programmers and engineers are able to uncover new techniques to do colour correction on computer and television displays as technology advances. While this opens up numerous possibilities for technological breakthroughs, the RGB colour system still causes printing and packing problems!
Advantages of the RGB color model
- It is the base colour space for numerous applications because it does not require any transformations to display information on the screen.
- Because of its additive properties, it is employed in visual displays.
- It is a system that is computationally feasible.
Disadvantages of the RGB color model
- It's useless for identifying objects and recognising colours.
- In the RGB paradigm, determining a specific colour is challenging.
- It's a system that focuses on hardware.