Understanding Aperture in 3 Steps
This tutorial is a supplement to my Understanding Exposure in 7 Steps article and completes my series on the exposure triangle. I’ve saved aperture for last because it can be difficult to understand without having the proper basics down. So if you haven’t, please read my previous articles to get up to speed.
As I explained in my previous tutorials, each component of the exposure triangle creates both an effect on the exposure of a photograph and also an effect on the artistic or creative aspect of the photograph.
We saw how ISO controls the light sensitivity of the “recording device” (film, digital imaging sensor) and how it introduces the artistic element of “noise”; how shutter speed dictates the length of time that light is “exposed” on the recording device and how it allows you to freeze motion or blur motion; and this tutorial will show you how aperture controls the opening of the lens, which changes how much light is allowed to “flow” onto the recording device and how it gives you the ability to control the depth of field of an image.
Step 1: Aperture and Exposure
Remember, the exposure process is the technical process of recording a “moment” of light. The total amount of light that is recorded is dependent on the three aspects of the exposure triangle. Aperture controls the opening of the lens diameter and dictates how much light is allowed to enter the camera and thus expose the recording device. Think of aperture as controlling the “flow” of light.
- LARGER apertures allow MORE light to flow onto the recording device.
- SMALLER apertures allow LESS light to flow onto the recording device.
How is aperture represented?
Aperture values are represented as f-numbers (f/#), otherwise known as f-stops. Without going into the technical details, the f-stop is the focal length divided by the aperture diameter.
F-stops range from f/1.0 and below to f/22 and above. The chart below shows the values of standard full f-stops. Each f-stop gives double the exposure amount of the previous value. Depending on your camera, there may be f-stop values that are in half, one-third, or even one-quarter increments.
F-stop and aperture
What confuses many people is the inverse relationship between the aperture diameter and f-stop value.
- LARGER aperture = SMALLER f-stop.
- SMALLER aperture = LARGER f-stop.
To help you get a grasp on this, remember that when you set the aperture on your camera, you are setting the f-stop. If you want a larger aperture, you must use a smaller f-stop. And vice-versa if you want a smaller aperture.
Putting it all-together we can say:
- SMALLER f-stop = LARGER aperture = MORE light allowed to flow.
- LARGER f-stop = SMALLER aperture = LESS light allowed to flow.
This is an important equation to understand. If you are confused by it, please re-read it until it makes sense.
Step 2: Aperture Characteristic: Depth of Field
The main effect that aperture has outside of exposure, is it’s effect on depth of field. This principle of aperture is where it really shines. Depth of field plays a major role in the artistic and creative side of photography. Here is what you need to know:
- The LARGER the aperture, the SHALLOWER the depth of field.
- The SMALLER the aperture, the GREATER the depth of field.
What is depth of field?
Depth of field (DOF) is the degree to which a scene is in sharpness. When we take a photograph, we must focus on one specific area of the scene. The parts in front of that area (foreground) and the parts behind that area (background) are technically “out of focus”. The degree to which these out of focus parts are “sharp” is the degree of the depth of field in our image.
- The GREATER the depth of field, the MORE of the scene (foreground and background) is sharp.
- The SHALLOWER the depth of field, the LESS of the scene (foreground and background) is sharp.
Bokeh. The parts of an image that are not in focus produce a blurriness known as bokeh. The quality of bokeh is produced by the lens, specifically the shape of the aperture. Bokeh can be described as good or bad, depending on it’s aesthetic appeal. Bokeh is a desired and appealing effect for many photographers, who strive to use “good” bokeh to their advantage.
Since bokeh is the blur caused by out of focus areas of an image, we can conclude:
- The GREATER the depth of field, the LESS the bokeh in an image.
- The LESS the depth of field, the GREATER the bokeh in an image.
Step 3: Aperture Application
Now that we know how aperture works and it’s characteristics, let’s see how we can apply this knowledge when taking a photo. There are two primary concerns you need to address when setting aperture.
1. Do I have enough light?
The first question deals with getting enough light to properly expose your photo. Ask yourself, “do I have enough light?” If you find yourself in low light situations, such as indoors or an evening shot, you can use a larger aperture to allow for a greater flow of light. If you are taking a photograph of a scene with abundant light, then you can choose whatever aperture you please. The choice will be dependent on the next question.
2. Do I want shallow or great depth of field?
If you have enough light to properly expose a photo, the choice of aperture setting will depend primarily on whether you want shallow or great depth of field. Ask yourself, “how much of this scene do I want in focus?”
The more areas of the scene you want in focus (the foreground and background), the greater the depth of field you need; therefore, you will use a higher f-stop. If you want to separate your point of focus (subject) with the background or foreground and have some nice bokeh, then you will need shallower depth of field. In this case, you will set a smaller f-stop (larger aperture).
Uses of great depth of field
uses of shallow depth of field
I hope this tutorial enhanced your understanding of aperture and it's use in photography. Aperture is a critical foundational skill that all photographers should understand.
Go out and practice using different f-stops in the field and see how it impacts both your exposure and depth of field.