Color Theory Page
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Printers and artists have different
definitions for primary colors. This document contains an
analysis and a resolution for this difference.
Printers and artists have different
definitions for primary colors. The traditionional primary
colors that painters have used are red, yellow, and blue.
Modern printing press secondary colors are magenta, yellow,
and cyan. These two primary color systems obviously do not
agree. In this document I will explain how the printing
primary colors are derived. I will also show how these
colors are related to the primary colors used by painters,
and attempt to show how these colors are related.
Human vision relies on light sensitive
cells in the retina of the eye. There are two basic kinds of
sensors. These are rods and cones. Rods are cells which can
work at very low intensity, but cannot resolve sharp images
or color. Cones are cells that can resolve sharp images and
color, but require much higher light levels to work. The
combined information from these sensors is sent to the brain
and enables us to see.
There are three types of cone. Red cones
are sensitive to red light, green cones are sensitive to
green light, and blue cones are sensitive to blue light. The
perception of color depends on an imbalance between the
stimulation level of the different cell types.
Additive color processes, such as
television, work by having the capability to generate an
image composed of red, green, and blue light. Since the
intensity information for each of the three colors is
preserved, the image color is preserved as well. The
spectral distribution of the image will probably be wrong,
but if the degree of intensity for each of the primary
colors is correct, the image will appear to be the right
color. Red, green, and blue are the additive primary colors,
because they correspond to the red, green, and blue cones in
the eye.
Additive secondary colors are composed of
two of the primary colors. These colors are shown in table
1.
![[ADDITIVE COLOR MAP IMAGE]](colimg1.gif)
Subtractive color processes work by
blocking out parts of the spectrum. The idea of subtractive
color is to reduce the amount of undesired color reaching
the eye. If, for example, you had a yellow image, you would
want to have a dye that would let red and green reach the
eye, and block out blue. The additive secondaries become the
subtractive primaries, because each of the additive
secondaries will reflect two of the additive primaries, and
absorb one of the additive primaries.
Additive Secondaries/Subtractive Primaries Absorption Chart
Color Reflects Absorbs
Yellow Red and Green Blue
Magenta Red and Blue Green
Cyan Green and Blue Red
With this information, if we wanted red,
we would mix magenta and yellow. Magenta would absorb green,
and yellow would absorb blue, leaving only red to be
reflected back to the eye. For black, a combination of all
three would be used, which should block out all light in
theory. Printers use black as well, since the dyes used in
printing are not perfect, and some light from other parts of
the spectrum gets through.
![[SUBTRACTIVE COLOR MAP IMAGE]](colimg2.gif)
True cyan and magenta have not been
historically available. The blue pigments that are typically
available reflect a certain percentage of green. This
percentage is not as high as with true cyan, but it is still
there. With this information, and using red, yellow and blue
as our primary colors, table 4 shows what we could mix.
![[PAINTING COLOR MAP IMAGE]](colimg3.gif)
With the possible exception of certain
pointillist techniques, process primaries cannot be mixed
from other colors because adding different paints only
subtracts from the light reflected back to the viewer.
Painting primaries can be mixed from the process primaries.
Since a primary color is one that cannot be mixed, the
process primaries are the ones that can be considered true
primary colors.
If the process primaries cyan and magenta
were not available, (and for standard oil paint colors, this
is historically the case) the next best primary colors to
use would be red, yellow, and blue. Many colors can be mixed
with these three colors and it is not possible to mix these
colors without cyan and magenta.
If you want to mix genuine paints there
are a couple of strategies that you can use to mix
reasonably clean colors. If you have a paint which is
reasonably close to what you want, try mixing it with a
color that is not too far away from it on the color wheel.
If you mix with colors that are far away, you will tend to
get darker colors.
Magenta, yellow and cyan are the true
process primary colors. This agrees with what can be mixed,
as well as with the additive primary color system. In the
absence of magenta and cyan, red and blue can sort of be
used as primary colors, although not all colors can be mixed.
The people at
hunterlab have
equipment that can do quantitative analysis of color, so you
may want to check this out if you're looking for
reproducable results.
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