We normally think of Black as a color, but we need to understand that Black is no color at all. Black is instead absense of color, or rather absense of light.
When you turn off all light in a dark room, then you see nothing. You have successfully "created" black.
As for "black" objects we see, this is another aspect of exactly the same thing.
The black object simply does not reflect enough light for us to distinguish it as anything but black, or lack of light.
In other words, the black objects absorb as much as possible of the light shining on them.
The original complementary color model only saw colors in primary and secondary pairs such as red-green, yellow-violet, and blue-orange. In the newer RGB model, complementary colors that are mixed at the right amounts will produce either black or white.
Magenta, cyan, and yellow are considered the primary colors in the subtractive color model, which is commonly used in color printing and mixing pigments. In this model, colors are created by subtracting varying amounts of light absorbed by the pigments. When combined, these colors can produce a wide range of other colors; for example, mixing magenta and cyan creates blue, while mixing cyan and yellow produces green. This contrasts with the additive color model, where the primary colors are red, green, and blue.
The RGB color model creates colors by mixing light, red, green and blue. All video displays are RGB. Since it is impossible to print a light mixture printers are able to simulate full color by using four colors, cyan, magenta, yellow and black. Most new color laser copy machines automatically convert RGB to CMYK when a digital file is sent, but the results may be off color.
RGB color mixing is an additive color model that combines red, green, and blue light in various intensities to produce a broad array of colors. By adjusting the intensity of each color channel, different colors are created. Mixing equal intensities of red, green, and blue light produces white light, while combining no light from any of the channels results in black.
The CMYK color model is commonly used in printing because it is a subtractive color model that is effective in mixing colors for printing purposes. CMYK stands for cyan, magenta, yellow, and key (black), and these colors can be combined in varying amounts to create a wide range of colors for printing. This model is used in printing because it accurately represents the colors that can be produced by mixing ink on paper, making it ideal for producing high-quality printed materials.
The scientific name for the color blue is Cyan. It is a primary color in the additive color model, created by mixing green and blue light. In the subtractive color model, cyan is a secondary color formed by mixing green and blue pigments. In the RGB color space, cyan is located midway between blue and green.
In the CMYK color mixing model, when you mix cyan and yellow you get green.
black
Mixing colored lights involves adding different colored lights together to create a new color, while mixing pigments involves blending different colored powders or liquids together to create a new color. In mixing colored lights, the primary colors are red, green, and blue, while in mixing pigments, the primary colors are red, yellow, and blue. Mixing colored lights follows an additive color model, while mixing pigments follows a subtractive color model.
the first model t was black
By mixing equal parts of two primary colors, you can create a secondary color. For example, combining red and blue creates purple, mixing red and yellow produces orange, and blending blue and yellow gives green. This is based on the subtractive color model, commonly used in art and design.
You could pick any color you wanted as long as it was black.