Subtractive. He chiseled marble rocks.
Subtractive color is the mixing of paints, dyes, inks, and natural colorants, etc. to create a range of colors; for example red and green pigments, being quite far apart, when mixed result in a dark browinish color depending on the actual pigments used. Additive color is the mixing of illumination, a good example is the screen you are looking att now. There a yellow color is obtained by illuminating a green and a red sub-pixel.
Nearly all modern color photographic film processes use subtractive color because it is more efficient. It produces a very good facsimile of the original scene colors with less loss of light than with additive color. Each additive color filter subtracts two-thirds of the white light striking it, while each subtractive color filter transmits two-thirds. With three color dye layers in subtractive color film, all colors can be reproduced: the subtractive primaries are magenta, cyan, and yellow, each of which absorbs its complementary color. Combinations of these three colors can reproduce their shared additive primary. For example, magenta transmits red and blue, while absorbing green light. Cyan transmits blue and green, while absorbing red. When superimposed, both red and green are absorbed and only the shared blue transmission is permitted. By varying the density of each subtractive filter, virtually any color can be reproduced.
none, red is a primary color along with yellow and blue. primary colors are the three colors that when mixed together correctly make every other color in the light spectrumthere is not any colors to make red because red is a primary colorThe above are old technology, and are now obsolete. Using currently known information, the colors Magenta and Yellow, mixed in equal proportions, produce red. Red is a primary color of light, but it is no longer a primary color of pigments because of these new discoveries.There are two ways of creating colors - additive and subtractive.The additive method refers to adding light, thus the more colors added, the lighter the color. The additive primary colors are Red, Green and Blue (Yellow is made by mixing Red and Green). Mixing the three together will result in the lightest color - white. The additive method answer to this question is similar to 1., above: no colors are mixed to create Red because it is a primary additive color.The third item above refers to subtractive colormixing using, most often, pigments. The pigments subtract or absorb colors from white light. For example, Green pigment absorbs Red and Blue and reflects Green. Another example of how subtractive colors work is Yellow absorbs Blue from white light, reflecting Red and Green, the two additive primaries that create Yellow. The more subtractive colors used, the darker the color. Expertly mixing the three primaries (Magenta (Fuchsia), Cyan (Turquoise) and Yellow) will result in black. More often, mixing all three results in a brown muddy color when using water colors and other pigments. Thus, the third item above is the answer this question regarding how to mix Red when using subtractive colors: mix Magenta and Yellow.
The colour brown can be made by mixing colours from opposite sides of the colour wheel, or equivalently, by mixing all three primary (additive) colours: red, blue and yellow. For example a mix of red and green (which are opposite on the colour wheel, and include all three primary colours, as green is a mix of blue and yellow), will produce brown.
Methylated spirits are a type of denatured alcohol. Denatured alcohol is any grain alcohol that has been rendered undrinkable by adding other chemicals. If the additive is methanol, then it is often given the name "methylated spirits". In the cosmetics industry, various chemicals are used that are not toxic. For example, denatured alcohol designated as "SD Alcohol 40B" contains a very small quantity of denatonium benzoate, an extremely bitter substance.
Subtractive color is the mixing of paints, dyes, inks, and natural colorants, etc. to create a range of colors; for example red and green pigments, being quite far apart, when mixed result in a dark browinish color depending on the actual pigments used. Additive color is the mixing of illumination, a good example is the screen you are looking att now. There a yellow color is obtained by illuminating a green and a red sub-pixel.
Nearly all modern color photographic film processes use subtractive color because it is more efficient. It produces a very good facsimile of the original scene colors with less loss of light than with additive color. Each additive color filter subtracts two-thirds of the white light striking it, while each subtractive color filter transmits two-thirds. With three color dye layers in subtractive color film, all colors can be reproduced: the subtractive primaries are magenta, cyan, and yellow, each of which absorbs its complementary color. Combinations of these three colors can reproduce their shared additive primary. For example, magenta transmits red and blue, while absorbing green light. Cyan transmits blue and green, while absorbing red. When superimposed, both red and green are absorbed and only the shared blue transmission is permitted. By varying the density of each subtractive filter, virtually any color can be reproduced.
The additive identity property states that any number plus zero is that number. For example: 5 + 0 = 5.
The answer to combining red and blue typically results in purple, as these two colors are primary colors in the additive color model. In terms of light, mixing red and blue light will create violet. In the subtractive color model, such as with paint, mixing red and blue pigments will also yield a shade of purple.
-2 is the additive inverse of +2
The additive inverse for a number is its negative value. The sum of an integer and its additive inverse is zero. For the example (5), the additive inverse would be (-5).
The additive inverse of a number is that which when added to the number gives 0. If n is a number then the additive inverse of it (-n) is that number such that: n + -n = 0 For example, the additive inverse of '4' is '-4'.
The additive inverse of an integer ( x ) is the integer that, when added to ( x ), results in zero. This integer is (-x). For example, the additive inverse of 5 is -5, and the additive inverse of -3 is 3.
Another word for additive inverse is "opposite." In mathematical terms, the additive inverse of a number is the value that, when added to the original number, results in zero. For example, the additive inverse of 5 is -5.
Zero. For example, the additive inverse of 5 is -5, and 5 + (-5) = 0.
Every integer has its own additive inverse, which is simply the integer multiplied by -1. For example, the additive inverse of 5 is -5, and the additive inverse of -3 is 3. Therefore, all integers, including zero, have their own additive inverses. In summary, any integer ( x ) has an additive inverse of ( -x ).
The additive inverse property states that for any number ( a ), there exists an additive inverse ( -a ) such that ( a + (-a) = 0 ). An example of an equation that illustrates this property is ( 5 + (-5) = 0 ). This shows that adding a number and its additive inverse results in zero.