# Light and Color - Mission LC5 Detailed Help

 Three colored spotlights - red, green and blue - with equal intensities are used to illuminate a shirt with different colors of light. If a shirt which appears cyan under white light is illuminated with magenta light, then the shirt will absorb the ____ light and appear as _____.   (Note: the actual colors listed are generated at random and may vary from the above.)
 Many students of physics have seen a diagram similar to the one shown at the right. The diagram depicts three circles colored with the primary colors of light - red, green and blue. The primary colored circles overlap to produce other colors of light - known as the secondary colors of light: cyan, magenta and yellow. Complementary pairs of light colors are those colors that are exactly opposite each other on the diagram: red and cyan, magenta and green, and blue and yellow.
 Color Subtraction and Complementary Colors: An object that is observed to be a specific color when illuminated with white light has absorbed the complementary color of the observed color. White light or R+ G + B was incident on the object. One or more of the components of white light were absorbed or subtracted and the remaining light colors were reflected to the observer's eye.
 The color a shirt appears is related to the wavelengths (colors) of light that it reflects. A shirt can appear cyan when normal white light shines on it because it reflects blue and green light and absorbs the red. (See the Dig that Diagram and Know the Law section.) But if the light that shines upon it is changed, there may be no blue and green light to reflect and its appearance could change.   From the appearance of the shirt in the presence of white light, we can infer what the shirt can do to each of the three primary colors of light. We know that the shirt can absorb red light (when red shines on it) and can reflect blue and green light (when blue and green shine on it). Now, let's shine magenta light on it. Magenta light is a combination of blue and red light (see Dig that Diagram section). The shirt is capable of absorbing the red light and reflecting the blue light. So the red is absorbed, the blue is reflected and the shirt appears blue.