chapter 28 color. spectrum: the spread of colors seen when light is passed through a prism or...

Chapter 28Color

Spectrum:The spread of colors seen when light is passed through a prism or

diffraction gradient.

That is, when light of that particular wavelength strikes the retina of our eye, we perceive that specific color sensation.

Each individual wavelength within the spectrum of visible

light wavelengths is representative of a particular

color.

When all the wavelengths of the visible light spectrum strike your eye at the same time, white is

perceived.

White light:Light that is a combination of all

colors. Like sun light.

White is not a color but a

combination of all colors.

Black is also not a color but the absence of the wavelengths of

the visible light spectrum.

So when you are in a room with no lights and everything around

you appears black, it means that there are no wavelengths of visible light striking your eye as you sight at the surroundings.

The way we see color is by the reflection of color off of a

surface. The colors that we see are reflected off a surface while the other colors are absorbed

by the surface.

You look at a flower and see a green stem. The stem absorbs

all other colors and reflects green.

Pigment:material that selectively absorbs

colored light.

A red piece of class appears red because it absorbs all the colors that compose white light, except

red, which it transmits.

If an object absorbs all of the frequencies of visible light except for the frequency

associated with green light, then the object will appear green

Additive Primary Colors:Any three colors (or

frequencies) of light which produce white light

Red, Green and Blue are the three primary colors of white

light.

Color television is based on the ability of the human eye to see

combinations of the three colors as a variety of different colors.

Pixels in the screen are set to be red, green or blue. Depending on

how you adjust their brightness you will get different colors.

Complementary Colors:When 2 colors are added together to produce white.

Red and cyan = whitegreen and magenta = white

yellow and blue = white

Mixing colored paints is different than mixing light. If you mix red and green paint you get brown.

Paints do not reflect a single color of light. They reflect

several colors. Color subtraction is on page

429 – 431.Read these pages.

Why is the Sky Blue?

The atmosphere is a gaseous sea which contains a variety of

types of particles. The two most common are gaseous oxygen

and nitrogen.

These particles are very effective in scattering the higher

frequency, lower wavelength portions of white light. Which means that Blue, Indigo, and

violet are scattered.

The lower frequency, longer wavelength waves are more

likely to get through.

This scattering of the higher frequencies of light illuminates the skies with light on the BIV end of the visible spectrum.

Compared to blue light, violet light is most easily scattered by atmospheric particles; however, our eyes are more sensitive to

light with blue frequencies. Thus, we view the skies as

being blue in color.

As you leave our atmosphere the particles in the air get fewer and fewer so less of the light is scattered so it will appear black.

Like on the moon.

Why are sunsets Red?

Because when the sun is low in the sky it has more of our

atmosphere to travel through allowing the lower frequency colors to be scattered also.

During sunset hours, the light passing through our

atmosphere to our eyes tends to be most concentrated with red

and orange frequencies of light. For this reason, the sunsets have a reddish-orange hue

Why is water greenish – blue?

Read pages 435 - 436