Classify colors on the visible spectrum of electromagnetic radiation by hue, saturation, and brightness


Classify colors on the visible spectrum of electromagnetic radiation by hue, saturation, and brightness
Classify colors on the visible spectrum of electromagnetic radiation by hue, saturation, and brightness
Colours result from the electromagnetic radiation of a range of wavelengths that are visible to the eye. The three characteristics of hue, saturation, and brightness are commonly used to distinguish one colour from another.
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Transcript

NARRATOR: Colors result from the electromagnetic radiation of a range of wavelengths that are visible to the eye. Radiation of these wavelengths makes up the portion of the electromagnetic spectrum called the visible spectrum.

Color is also defined as the aspect of any object—such as the flower or the hummingbird—that may be described in terms of hue, saturation, and brightness. Those three characteristics are commonly used to distinguish one color from another.

Hue is determined by the dominant wavelength of the visible spectrum. It is the attribute that permits colors to be classified as red, yellow, green, blue, or an intermediate color.

Saturation pertains the amount of white light mixed with a hue. High-saturation colors, such as the circle on the left, contain little or no white light.

Brightness refers to intensity, distinguished by the amount of shading mixed with the hue. Any desired hue of light can be produced when various amounts of two of the primary colors of light—the primary colors being red, green, and blue—are combined mechanically, either by addition or by subtraction.

Additive mixing occurs when beams of light are combined. When equal parts of the primary colors of light are combined, they produce the secondary colors—magenta, cyan, and yellow. If red, green, and blue light are mixed equally, the result is white.

Subtractive color mixing involves the absorption and selective transmission, or reflection, of light. This is also the method used by artists when they mix paint pigments. When various amounts of two of the secondary colors of light—magenta, cyan, and yellow—are combined by subtraction, they produce the primary colors red, green, and blue. If magenta, cyan, and yellow are mixed equally by subtraction, the result is black, as each pigment’s hue absorbs the light of another.