Basic Color Theory
Colorfulness is a non-technical term for the measure of how intense a given color appears. Similar, but technically correct terms, are saturation and chroma (Munsell). Colorfulness can simply be said to be the degree of difference between a color and gray. But what gray? On the other hand the term saturation takes into consideration that fully saturated colors are not equally bright: A blue is darker than a yellow for example. This means saturation is the colorfulness of a color relative to its own brightness. Laymen will find that the terms colorfulness, saturation and chroma are used synonymously. The more colorful a color is, the more vivid and intense it seems, while less colorful colors appear muted and closer to gray. A so called gray scale image is an image from which all color has been removed and saturation thus is 0.. There is an overlap between lightness and saturation in that a more saturated color appears lighter.
Lightness, or what is termed "value" in the Munsell color space, is defined as a given colors placement on a scale ranging from black to white. In the Munsell color space this scale is divided into ten equidistant steps. The term "lightness" has been incorporated into the HSL (Hue, Saturation, Lightness) and Lab color spaces. The HSV (Hue, Saturation, Value) color space speaks not of lightness but of value and uses the word value differently than Munsell does. Value in HSV does not range from black to white, but from black to the fully saturated color. Paints can be made lighter or darker by adding white or black, but that also reduces saturation. "Tone" is an obsolete term that stems from darkroom photography to denote the lightness of a specific area of the print. Yet "tone" is still used in art where light and dark "tones" are built up with charcoal or similar drawing medium
When working with digital images, you can simply calculate lightness as (r+g+b+)/3. That, however, does not take into consideration that green is the brightest color and blue the darkest. The relative brightness of the color channels is taken into consideration in the IUV color space, that calculates lightness like this: i=(76*r+150*g+29*b)/256. It approximately says that green is twice as bright as red and red is 2 times brighter than blue.
The term "tone" is used in painting where it denotes an intermediate between gray and pure color. "Tint" denotes a mixture of pure color with white and "shade"denotes a mixture of pure color with black. In reality tint and tone are not as simple a it sounds, because though they do not have color in themselves, when white or black are mixed with a color, the color changes hue. In other words, black in mixtures behaves like a blueish color. For example if you mix yellow and black you don't just get a darker yellow, but you get a darker and greenish yellow. Similarly will an addition of white make a color appear colder.
In software you can digitally create tints and shades by converting from the RGB color space to IUV or Lab color space and alter the L (lightness) channel as described above. This will not alter the hue of the color as when you mix pigments with black or white.
Lightness, or what is termed "value" in the Munsell color space, is defined as a given colors placement on a scale ranging from black to white. In the Munsell color space this scale is divided into ten equidistant steps. The term "lightness" has been incorporated into the HSL (Hue, Saturation, Lightness) and Lab color spaces. The HSV (Hue, Saturation, Value) color space speaks not of lightness but of value and uses the word value differently than Munsell does. Value in HSV does not range from black to white, but from black to the fully saturated color. Paints can be made lighter or darker by adding white or black, but that also reduces saturation. "Tone" is an obsolete term that stems from darkroom photography to denote the lightness of a specific area of the print. Yet "tone" is still used in art where light and dark "tones" are built up with charcoal or similar drawing medium
When working with digital images, you can simply calculate lightness as (r+g+b+)/3. That, however, does not take into consideration that green is the brightest color and blue the darkest. The relative brightness of the color channels is taken into consideration in the IUV color space, that calculates lightness like this: i=(76*r+150*g+29*b)/256. It approximately says that green is twice as bright as red and red is 2 times brighter than blue.
The term "tone" is used in painting where it denotes an intermediate between gray and pure color. "Tint" denotes a mixture of pure color with white and "shade"denotes a mixture of pure color with black. In reality tint and tone are not as simple a it sounds, because though they do not have color in themselves, when white or black are mixed with a color, the color changes hue. In other words, black in mixtures behaves like a blueish color. For example if you mix yellow and black you don't just get a darker yellow, but you get a darker and greenish yellow. Similarly will an addition of white make a color appear colder.
In software you can digitally create tints and shades by converting from the RGB color space to IUV or Lab color space and alter the L (lightness) channel as described above. This will not alter the hue of the color as when you mix pigments with black or white.