A "full stop", or Exposure Value (EV) is an aperture unit that halves the amount of light that comes into the camera. There is a full stop between f/1 and f/1.4. There is another full stop between f/1.4 and f/2. The series then goes on f/2, f/2.8, f/4, f/5.6, f/8, f/11, f/16 and so on.
If you stop down once from f/4, you will set the aperture to f/5.6, and let half as much light into the camera.
The values can be calculated by multiplying the previous value by the square root of 2. The square root of two is approximately 1.414213562373095048... but luckily camera manufacturers only use one decimal.
Saturday, December 5, 2009
F-stop illustrated
One of the more confusing things in photography is the f-stop values (also called focal ratio, f-ratio, relative aperture or f-numbers). They usually have values like f/1.4, f/2, f/2.8, f/4, f/5.6 and so on. The confusing thing is that a higher number means a smaller aperture. Understanding why this is the case may make your life easier and even your pictures better.
The number is calculated by this formula: (focal length)/(Diameter of the entrance hole). Usually a long lens has a long focal length - it is very roughly the distance between the end of the lens and the sensor. The "entrance hole" is the hole in the aperture mechanism.
In the diagram above, the f-stop number is f/2, as the focal length is twice the Diameter of the entrance pupil.
In the diagram above, the f-stop number is f/4, as the focal length is four times the diameter of the entrance pupil. The value is higher, as the aperture is smaller.
In this last aperture diagram, the f-stop number is also f/4. This time, it is not the entrance hole that is smaller, but the focal length that is bigger than in the first diagram. (Click on the diagrams to display them in real size, if you do not believe me.)
If you change from f/2 to f/4 on your camera, you will cut the diameter by half, and consequently you cut the amount of light by four.
In other words, if you have a situation where you have set the camera aperture to f/2 and the shutter speed to 1/400 of a second, and you then change the aperture to f/4, you can keep the same amount of light by slowing the shutter speed down to 1/100 of a second.
So why is it called stop? It seems to be mostly old habit. The aperture hole, the entrance hole or "entrance pupil" as it is also called, "stops" light from getting in to the camera.
The number is calculated by this formula: (focal length)/(Diameter of the entrance hole). Usually a long lens has a long focal length - it is very roughly the distance between the end of the lens and the sensor. The "entrance hole" is the hole in the aperture mechanism.
In the diagram above, the f-stop number is f/2, as the focal length is twice the Diameter of the entrance pupil.
In the diagram above, the f-stop number is f/4, as the focal length is four times the diameter of the entrance pupil. The value is higher, as the aperture is smaller.
In this last aperture diagram, the f-stop number is also f/4. This time, it is not the entrance hole that is smaller, but the focal length that is bigger than in the first diagram. (Click on the diagrams to display them in real size, if you do not believe me.)
If you change from f/2 to f/4 on your camera, you will cut the diameter by half, and consequently you cut the amount of light by four.
In other words, if you have a situation where you have set the camera aperture to f/2 and the shutter speed to 1/400 of a second, and you then change the aperture to f/4, you can keep the same amount of light by slowing the shutter speed down to 1/100 of a second.
So why is it called stop? It seems to be mostly old habit. The aperture hole, the entrance hole or "entrance pupil" as it is also called, "stops" light from getting in to the camera.
Subscribe to:
Posts (Atom)