Color Spectrum

Learning Objectives

I can use the wave properties of light to explain the color spectrum.

Introduction

This rainbow contains all the colors that you can see in the land below it—the yellow of the hills, the green of the leaves and grasses. It contains other colors as well. In fact, a rainbow contains all of the colors of visible light.

Guided Learning

Wavelength and Color

Visible light is light that has wavelengths that can be detected by the human eye. The wavelength of visible light determines the color that the light appears. As you can see in the figure below, light with the longest wavelength appears red, and light with the shortest wavelength appears violet. In between are all the other colors of light that we can see. Only seven main colors of light are actually represented in the diagram.

Visualization of different wavelengths of color ^[2]

Separating Colors of Light

A prism, like the one in the figure below, can be used to separate visible light into its different colors. A prism is a pyramid-shaped object made of transparent matter, usually clear glass or plastic. Matter that is transparent allows light to pass through it. A prism transmits light but slows it down. When light passes from air to the glass of the prism, the change in speed causes the light to change direction and bend. Different wavelengths of light bend at different angles. This makes the beam of light separate into light of different wavelengths. What we see is a rainbow of colors. Check out this animated version of the prism.

Q: Look back at the rainbow that opened this article. Do you see all the different colors of light, from red at the top to violet at the bottom? What causes a rainbow to form?

Prism splitting light ^[3]

A: Individual raindrops act as tiny prisms. They separate sunlight into its different wavelengths and create a rainbow of colors.

Colors of Objects

An opaque object is one that doesn’t let light pass through it. Instead, it reflects or absorbs the light that strikes it. Many objects, such as the leaves pictured in the figure below, reflect just one or a few wavelengths of visible light and absorb the rest. The wavelengths that are reflected determine the color that an object appears to the human eye. For example, the leaves appear green because they reflect green light and absorb light of other wavelengths.

Leaves are green because they reflect green light - picture of a leaf. ^[4]

A transparent or translucent material, such as window glass, transmits some or all of the light that strikes it. This means that the light passes through the material rather than being reflected by it. In this case, we see the material because of the transmitted light. Therefore, the wavelength of the transmitted light determines the color that the object appears. Look at the beautiful stained glass windows in the figure below. The different colors of glass transmit light of different colors.

Colored translucent and transparent materials appear the way they do because of the way they transmit light ^[5]

The color of light that strikes an object may also affect the color that the object appears. For example, if only blue light strikes green leaves, the blue light is absorbed and no light is reflected.

Q: What color do you see if an object absorbs all of the light that strikes it?

A: When all of the light is absorbed, none is reflected, so the object looks black. But black isn’t a color of light. Black is the absence of light.

The Colors We See

The human eye can distinguish only red, green, and blue light. These three colors are called the primary colors of light. All other colors of light can be created by combining the primary colors. Look at the Venn diagram below. Red and green light combine to form yellow light. Red and blue light combine to form magenta light, and blue and green light combine to form cyan light. Yellow, magenta, and cyan are called the secondary colors of light. Look at the center of the diagram, where all three primary colors of light combine. The result is white light. Explore the colors of visible light and how they combine.

^[6]

Here is another video that demonstrates the colors of light. Watch until the end for a cool demonstration!

Pigments

Many objects have color because they contain pigments. A pigment is a substance that colors materials by reflecting light of certain wavelengths and absorbing light of other wavelengths. A very common pigment is the dark green pigment called chlorophyll, which is found in plants. Chlorophyll absorbs all but green wavelengths of visible light. Pigments are also found in many manufactured products. They are used to color paints, inks, and dyes. Just three pigments, called primary pigments, can be combined to produce all other colors. The primary colors of pigments are the same as the secondary colors of light: cyan, magenta, and yellow.

Q: A color printer needs just three colors of ink to print all of the colors that we can see. Which colors are they?

CMYK Color Model ^[7]

A: The three colors of ink in a color printer are the three primary pigment colors: cyan, magenta, and yellow. These three colors can be combined in different ratios to produce all other colors, so they are the only colors needed for full-color printing.

Try your hand at matching the color needed with the different percentages of cyan, magenta, and yellow.

Review

The wavelength of visible light determines the color that the light appears. Light with the longest wavelength appears red, and light with the shortest wavelength appears violet. In between are the wavelengths of all the other colors of light.
A prism separates visible light into its different colors. As light passes through the prism, it slows and bends, but different wavelengths bend at different angles. This separates light into different wavelengths, forming a rainbow of colors.
The wavelengths of visible light that an object reflects or transmits determine the color that the object appears to the human eye.
The human eye can distinguish only red, green, and blue light. These three colors are the primary colors of light. All other colors of light can be created by combining the primary colors. Secondary colors of light—cyan, yellow, and magenta—form when two primary colors combine equally.
Pigments are substances that color materials by reflecting light of certain wavelengths and absorbing light of other wavelengths. The primary pigment colors are cyan, yellow, and magenta. They can be combined to produce all other colors.

Pigment

Pigment is a substance that colors materials by reflecting light of certain wavelengths and absorbing light of all other wavelengths.

Primary colors of light

Primary colors of light are the of three colors of light (red, green, or blue) that can be combined to produce all other colors of light.

Licensed under CK-12 Foundation is licensed under Creative Commons AttributionNonCommercial 3.0 Unported (CC BY-NC 3.0) • Terms of Use • Attribution With additions made by the MN Partnership for Collaborative Curriculum.

[1] Image of a Rainbow, Color, CK12, 2014, Web, 9 July 2014.

[2] “Visualization of Different Wavelengths of Color,” Drawing by Christopher Auyeung, Color, CK12, 2014, Web, 9 July 2014.

[3] “Prism Splitting Light,” Photograph by Ivan T, Color, CK12, 2014, Web, 9 July 2014.

[4] “Leaves are Green Because They Reflect Green Light,” Photograph by Flickr:Gorupka, Color, CK12, 2014, Web, 9 July 2014.

[5] “Colored Translucent and Transparent Materials Appear the Way They Do Because of the Way They Transmit Light,” Photograph by Kirsty Hall, Color, CK12, 2014, Web, 9 July 2014.

[6] “The Three Primary Colors,” Drawing by DarkEvil/Wikimedia Commons, Color, CK12, 2014, Web, 9 July 2014.

[7] CMYK Color Model, http://en.wikipedia.org/wiki/CMYK_color_model, Web, 9 July 2014.