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The Light Spectrum

The Light Spectrum Matchcard provides scientific information and hands-on demonstrations of the characteristics of white light. Younger students enjoy exploring the colors of the rainbow. Older students begin to grasp the scientific concepts of light waves and electromagnetic radiation.

science-matchcard

Colors of the Light Spectrum

Objective: Arrange the colors of the light spectrum according to frequency.

Young children enjoy learning about rainbows. The first activities give them experience with rainbow colors. The more advanced activities below help older student grasp what causes the different colors and the characteristics of electromagnetic waves.

Roy G. Biv

Roy G. Biv is a common acronym which helps people remember the order of the colors: (red, orange, yellow, green, blue, indigo, violet.)

This activity will demonstrate why they appear in this order.

Draw a rainbow with seven arches.
Number the arches from 1 to 7.
Using colored pencils or crayons the student will color the spaces with the colors listed below
- Red - Number 1, 2, 6 and 7
- Yellow - Number 2, 3, and 4.
- Blue - Number 4, 5, 6, 7
  - #6 Indigo - This can be considered "blue purple" (or some color definitions "blue-violet".) To make this color, add one more layer of blue on top of the previously colored shades of blue and red.
  - #7 Violet - This can be considered "red purple" (or some color definitions "red-violet.") To make this color, add one more layer of red on top of the previously colored shades of blue and red.
This mixing should produce the colors of the rainbow.

Create the light spectrum rainbow

Here is a simple experiment to produce the rainbow without the use of a prism.

First you need to cover the end of a flashlight with black construction paper.
- Start by tracing the end of the flashlight on black construction paper.
- Cut out the circle.
- Make a slit about 1/8 inch wide in the black circle. This will allow light to shine through the slit.
- Tape the circle on the front of the flashlight. Turn it on to make sure the light shines just through the slit.
Next you will set up a clear plastic or glass container to act as your prism.
- You will need a square or rectangular clear dish or container. You will also need a small mirror.
- Fill the container at least half way with water.
- Place the mirror in the water at one end of the container. The mirror should be standing against the side of the container, at a slight angle.
Create the rainbow.
- Place the flashlight on the outside of the plastic container, directed towards the mirror.
- Turn it on so the beam of light hits the mirror.
- Use a white card, or blank sheet of white paper folded in quarters to "catch" the rainbow.
Notice the order of the rainbow colors is the same as Roy G. Biv

What happened?

Visible light is made up of all the colors in the light spectrum. The different colors are formed by electromagnetic waves. The difference in the waves of different colors is the length of the wave.

When the electromagnetic waves from the flashlight traveled through the water, they were refracted (bent) at different angles according to the size of the waves.

This produced the rainbow of color.

Use A Prism

The use of a triangular prism provides more opportunities to explore the properties of visible light. However, the experiment above also assists the student to understand how the prism works.

To use the prism, shine the flashlight through one side of the prism as shown in the MatchCard diagram above. Use a white card or white wall to visualize the rainbow as the light exits through the other side.

Length of Light Waves

Older students should take the concept of the lightwaves a little further and identify that the wave length is associated with the color.

It is NOT necessary for the students to memorize the lengths of the wavelengths. However, they should be able to recognize that the shorter the wavelength, the closer it is to the bottom (red).

The wavelength of light is measured in nanometers, or one billionth of a meter. Look at a milimeter ruler. There are 1000 micrometers in a milimeter. Then there are 1000 nanometers in a micrometer.

The wavelength of the colors are listed below. These are printed on the instructor's guide to the MatchCard.

Red - 380 to 420 nm
Orange - 420 to 450 nm
Yellow - 440 to 480 nm
Green - 520 to 570 nm
Blue - 570 to 580 nm
Indigo - 585 to 620 nm
Violet - 630 to 740 nm

For more information on wavelength, see the Sound Waves: Frequency and Amplitude MatchCard

Ultra-violet and Infra-red

Visible light consists of wavelengths between 380 - 740 nm. Electromagnetic waves longer and shorter than that do exist, but they are not visible to the human eye.

Those waves a little shorter than red are infra-red.

Those a little longer than violet are ultra-violet.

Frequency of Lightwaves

Frequency refers to the number of cycles of electromagnetic radiation per second. The shorter the lightwave, the faster it's frequency.

For older students who have grasped the concept of length of colors on the light spectrum, the concept of frequency of the colors can be explored.

There is no value in memorizing these numbers, but merely in identifying that the faster frequencies are associated with the shorter wavelengths (towards red) and longer wavelengths are associated with the slower frequencies (towards violet.)

The frequency of the different colors of the rainbow are listed below. These are printed on the instructor's guide to the MatchCard.

Red - 785 to 720 THz
Orange - 715 to 685 THz
Yellow - 680 to 610 THz
Green - 575 to 525 THz
Blue - 525 to 515 THz
Indigo - 510 to 485 THz
Violet - 480 to 405 THz

For more information on frequencies of waves, see the Sound Waves: Frequency and Amplitude MatchCard

Using the Light Spectrum Matchcard

This is the thirteenth Matchcard of the Light and Energy Unit Study. You can download the Light Spectrum Matchcard here.

The student matches the order and characteristics of colors on the light spectrum of each.

The second page is the Instructor's Guide with the correct answers.

The third page has the Information Pieces. Student's cut them apart and place them in the correct place on their copy of the Matchcard (first page.)

For more information on how to use the Matchcards, see the MatchCard Science Instructor's Guide.

MatchCard Science

The activities and illustration above are from MatchCard Science, a homeschool science unit study. For the complete Light and Energy Unit Study follow this link. This unit study provides:

hands-on demonstrations
MatchCard reviews to master the material
suggestions for science projects to complete
instructions on a complete unit study curriculum

Currently this curriculum is under-going revision. We are providing free access to the unit study, with the desire that you will provide feedback as you are field testing the materials.

Science Notebook

If you are just using this single project, and are not in need of a full unit study, you might want your student to complete a science notebook entry for this project.

Return from the Translucent Objects Matchcard to the MatchCard Science Main Page.