opening is always concentric (centered) with, and perpendicular to the optical axis of the lens. Its location in the lens barrel is determined by the manufacturer when the lens is designed. Rotating the diaphragm control ring in the direction that reduces the size of the aperture is termed stopping down. Moving the control ring so it enlarges the aperture size is termed opening up. When the diaphragm is set at the largest aperture, the lens is said to be wide open. The better the quality of the optics within the lens, the larger the possible maximum aperture. The size of the largest opening is the maximum working aperture of the lens and is called the lens speed. The diaphragm, along with the shutter, controls the amount of light passing through a lens, and hence the exposure the film receives.
There are many different aperture sizes possible with the diaphragm, and each aperture size has a different value. Consequently, a system was devised for marking them so they could be used with consistency. The factorial system has become the most widely used.
This system uses a set of markings commonly called the f/system. By using the diaphragm control ring, or lever, you can bring the index mark into line with the numbers
that indicate the measured f/stop of the aperture. Remember, as these index numbers increase in size, the opening decreases in size. Furthermore, these numbers are chosen by moving the index pointer to the next larger number, and the amount of light admitted is cut in half. The first or lowest number in the series is usually an exception. All these numbers may not exactly reduce the amount of light admitted by one half, but they are
sufficiently close for all practical purposes. However, all of these values are in proportion to the squares of their numbers. For example, f/4 admits four times more light than f/8 because the square of f/4 is contained in the square of f/8 exactly four times. Thus,
42 = 4 x 4 = 16
82 = 8 x 8 = 64
64/16=4
EXAMPLE: The correct exposure at f/8 required 1 second. How long an exposure is required at f/16? The proportion and computation are as follows:
(Old f/value)2 /(New f/value) 2 =(Old exposure)/ (Required exposure)
82 /162 = 1/x
64 /256 =1/x
64x = 256
x = 4
Thus the required exposure equals 4 seconds.
Comparison of f/stops with Amount of Light to Exposure Time
f/ value | f/value2 squared | Amount of light admitted | Exposure in seconds |
4 | 16 | 4 | 1/4 |
4.5 (half stop) | 20.25 | 3.2 | 1/3 |
5.6 | 31.36 | 2 | 1/2 |
8 | 64 | 1 | 1 |
11 | 121 | 1/2 | 2 |
16 | 256 | 1/4 | 4 |
22 | 448 | 1/16 | 8 |
32 | 1024 | 1/32 | 16 |
Amount of light, f/stop, and Exposure Time Relationship
f/stop | Relative exposure | Relative amount of light admitted |
1 | 0.06 | 16 |
1.4 | 0.12 | 8 |
2 | 0.25 | 4 |
2.8 | 0.50 | 2 |
4 | 1 | 1 |
5.6 | 2 | ½ |
8 | 3 | ¼ |
11 | 8 | 1/8 |
16 | 16 | 1/16 |
22 | 32 | 1/32 |
32 | 64 | 1/64 |
45 | 128 | 1/128 |
64 | 256 | 1/256 |
The following table is a listing of the f/stop, known as the
standard full stops. A comparative exposure based on 1 second at f/4 or 16 seconds at f/16 is also shown By studying the table, you can see that when the lens aperture is opened one full stop, the amount of light transmitted is twice that of the nearest preceding stop. And altering the f/stop one full stop less (stopping down) reduces the amount of light passing through the lens to one half that of the nearest larger stop.
- Light passes through an opening (aperture) of the lens. The diameter of the aperture can be changed. The openings are called f/stops. The f/stops indicate to the photographer that a lens (any lens) with a specific f/stop allows a given amount of light to the film. Thus a 20-inch focal-length lens set at f/4.5 will give same exposure as a 10-inch focal-length lens set at f/4.5.
- The f/stops represent a fraction of the focal length of the lens for a given lens; that is, an f/4 lens has an effective maximum opening of one fourth of its focal length.
- From one full f/stop to the next full f/stop, there is a constant factor of two. As the opening changes from f/8 to f/l1, the light passing through the lens is reduced by one half because the larger f/stop (f/11) is a smaller aperture. When the aperture is changed from f/8 to f/5.6, the light passed is doubled because the aperture has been made larger.