النظر بالعين إلى الصورة الملونة خلال مرشح مناسب للحكم على لون ودرجة كثافة المرشحات .

6 When the colors of the image reach an extent that brings them close to the required degree of correction, it may be worthwhile to try placing a low-intensity colored filter (one of the filters used for enlargement) over the color image to know the amount of remaining correction required in order for the colors to reach the perfection that we hope for. It is noted when Following this method is that “by placing the filter between the eye and the image being examined, the filter increases the Over Correction of the high-light areas, i.e. the light areas in the image, Highlights, and reduces the correction. 6

Looking at the color image through a suitable filter to judge the color and intensity of the appropriate filters to fix the following images:
reduces correction

Now that the image has Under Correct Shadows areas. Therefore, it will not be feasible to follow this method except when examining the areas that mediate between shadows on the one hand, and high lighting on the other hand, Middle Tone. Suppose we tested it and it looked very red. This phenomenon indicates, in other words, that the cyan dye was very light (i.e. low in intensity) in relation to the other two dyes: yellow and scarlet. Therefore, the colors of this image will be greatly improved if we look at it through this clear filter, as it will absorb the excess amount of red color reflected from the image. There is no doubt that. Fixing the image in the next edition will require us to add the two red filters (they are the yellow filters + the Qura Z in this case) to the set of filters in the amplifier (because these two filters, according to what we mentioned on page 311, are the ones who are able to remove the red tinge from The image) and the colors of the image can also be fixed in this case in another way: that is to reduce the amount of density of the cyan filter present in the amplifier. Two candidates

We conclude from the foregoing that if we see the colors of the image covered with a tinge of redness, for example, and we see that its colors will appear more correct if we look at it through a Cyan filter, that is, a color that is complementary to the color cast. Add a filter or filters of the same color as the swab (i.e. yellow + magenta in this case). It is a serious mistake to use a filter of the same color as the appropriate filter when seeing with the eye. Rather, the appropriate filter to correct the colors of the image when it is enlarged is of a color that is complementary to the one we used for vision. next.
Filter density Here, there is no doubt that it will come to mind that if the density of the filter that we saw is appropriate to correct the color of the smear when looking with the eye ( = 20), then our thinking will tend to decrease the flow in the magnifier by an amount = 20 as well, or add two filters, one yellow and the other scarlet. “Any two filters together are red, their intensity = 20 crimson 20 yellow, but experiments have proven that the values ​​of the previous densities must be halved, meaning that you follow any of the following two methods to fix the following images when zooming in:

Now that we have learned the basics of choosing the color of the filter that guarantees the removal of the colored smear from the next image after we have examined it by placing a filter between it and the eye, there is no doubt that it is of great interest to us to know the density of this filter as well.

(1) To reduce the density of the cyan filter in the amplifier by an amount = 10 cyan only. ...

(b) To add to the density of the yellow and purple candidates an amount = 10 yellow + 10 purple only

We conclude from the foregoing that the filters that must be added or that must be removed when enlarging the subsequent images must have a density equal to half the density of the filter that was used when examining the image by looking at it by eye through a suitable filter to correct the visible color (1).