(شرح الجدولين رقم ٤٠ جزء أول ، وجزء ثان) المسافة، والبعد البؤري للعدسة البديلة.

(Explanation of tables No. 40 part one and part two)

The distance and focal length of the replacement lens

In many cases, circumstances may call for changing the lens that was used in a particular shot to use another with a different focal length with the image, the same in both cases, and here we wonder what is the distance that must be available between the new lens and the subject being photographed, so that the size of the image can remain in the same condition. The latter is equal to its size in the first shot?

Or circumstances may call for changing the distance between the camera and the subject being photographed, with the desire to keep the size of the image of this subject on the film equal to the size of the film. I photographed him in a previous shot in which I used a lens with another bore, and in this last case you must ask: What is the focal length of the new lens that guarantees fixation of the size of the image as it was in the first shot?

Tables No. 40, part one and part two, on pages 81 and 80, answer the two previous inquiries, and the following are examples:

Example 1:

Assuming that in a shot you used a lens with a focal length of 28 millimeters to photograph an object 2 meters away from the lens, and in a subsequent shot the circumstances called for photographing the same previous subject with another lens with a focal length of 75 millimeters.

There is no doubt that if the photography was done using this last lens at the same distance as the previous one, which is 2 meters, the size of the image of the main subject being photographed would certainly change. The image size of this subject is fixed as it was in the first shot.

the answer :

From Table No. 40 -- Part Two, pg. 81, you find in the right section the number denoting the focal length of the lens used in the first shot, which is 28 millimeters, then you continue to look horizontally in the lower section of the table until we find that the number 3.7 is located in a lower field in relation to the number (75), which indicates the focal length of the new lens to be used, and this number 75 is found in the upper part of the table.

Here we say that the number 2.7 is the factor that must be multiplied in the first distance, which is 2 meters, in order to know the new distance that must exist between the body and the new lens, which is 75 millimeters in distance, meaning that: - The distance between the body and the lens of 75 millimeters must be 2.72 = 5.4 meters.

Example 2:

In a specific shot, we used a lens with a focal length of 50 millimeters, to photograph an object that is 8 meters away from the lens, then we saw that a next shot must be photographed from another angle, and we found that the new position of the camera requires that the distance between the object being photographed and the lens not exceed 5 meters only. For example, because the area of ​​the place where the photography is taking place does not allow - in the new position of the camera - that this distance from it should be more than one meter only. Here we find that the new focal length must be less than 0.50 millimeters as long as the distance has been reduced to 5 meters instead of 8 meters as it was in the first case. This situation will invite the photographer to wonder: What is the focal length of the new lens that guarantees recording an image whose size is consistent with that which we took in the first shot?

the answer :

It is clear that this is a reverse case of what came in Example No. 1, because the distances, which are 8 meters in the first case, and 5 meters in the second case, have been known, and what is required is to know the new focal length, so we find that the method of searching in the table, and the method of answering will differ. than in the previous example. The previous question is answered according to the following steps:

(B) We look at the upper part of Table No. (40 - Part Two, page 81) in front of the number 50 millimeters indicating the focal length of the new lens.

(H) Then we go down vertically below this number, until we find the multiplication factor that we deduced in item A, which is = 1,6.

(D) We go horizontally to the right until we find that the required focal length = 32 millimeters. This focal length is what guarantees that the size of the image of the object located at a distance of 1 meter from the lens is equal to its size in the case of photography with a lens whose focal length is 50 millimeters when the object is located at a distance, the lens = 8 meters.

Note: The two previous cases in the two examples No. 1 on p. 77 and No. 3 on p. 78 invite us to ask:

1- Does the depth of field differ between the two cases of using the two lenses of different focal lengths with the change of distances?

In response, we say that the depth of field will not change in this case, because the degree of magnification will remain the same in both cases (1). between the body and the lens.

2- Is the perspective different in the two cases? In response we say that perspective must change as long as the focal length has changed.