For many people who only rarely pick up a camera, a "good" photo is one where you can recognize what the subject is, such as this photograph of the Flying Kiwi blowing bubbles when he was still young and happy.   For such people, the photograph is mostly a reminder of a person or an event or an experience, and the real pleasure comes from the emotions which are connected with the event and brought back by seeing the photograph.   The technical aspects of the photo, even whether it's properly focussed, are secondary and might not even be noticed.
  This approach to photography is perfectly valid, but it's also very limiting, since only people who have shared the original experience will enjoy the photograph.

   What would be better is a photograph with enough power to arouse emotions in people who weren't around when the shot was taken.   To achieve this it's necessary to reach a certain basic level of competence with the camera, so that technical defects in the photo won't stand in the way of its enjoyment.

  A photo which is technically faultless might be very boring - probably most technically faultless photos are boring - but it doesn't put distractions in the path of someone looking at the shot, and some level of technical proficiency is certainly needed before you can consistently start taking photographs which other people will appreciate.   This essay describes some of the most basic principles which apply to any type of photography; the next essay describes more advanced techniques.  In the end, however, technique is only a means to an end, and your photographs will only have power to move other people if you personally are enthusiastic about the thing you're photographing.  If you can find a different way of looking at it than most people, then your photography might even become great.

   When your eyelids are open, light enters your eye through a circular hole called the pupil and is focussed by a lens onto the light sensitive retina attached to the back of the eye.
  The size of the pupil can be adjusted to allow more light to enter when the environment is dim, and less light when it's bright.   There are about 126 million sensory cells in the retina, both cone-shaped cells which are color-sensitive and rod-shaped cells which aren't color-sensitive but can detect low levels of light, useful for night vision.

    Most cameras work in the same way as the eye - when the shutter is open, light enters a roughly circular hole called the aperture and is focussed by a lens onto a light sensitive medium at the back of the camera, either film or an electronic sensor.   Some types of camera, like a pinhole camera, don't have a lens, and some digital cameras don't have a shutter; nevertheless, understanding how these things work will help make your photographs better.
 

   The most important thing for the beginner to understand is how to control the amount of light which enters the camera and hits the light sensitive medium inside.   The amount of light determines the exposure of the photograph - whether it's too dark (underexposed), too bright (overexposed) or just right (well exposed).

    Under exposure is the most common problem for the inexperienced, and ruins more photos than any other single cause.   This often happens because we automatically assume that the camera see things just as we see them - but this isn't true.   The human eye is much more sensitive to light than either film or digital sensors.   A very ordinary room which seems to be perfectly bright often has too little light to take a properly exposed photo.

    If your photos are underexposed then there are three ways to get more light into the final photograph:
 

	(1)   Allow more light into the camera by making the aperture larger.   The amount of light which can come through the aperture is measured in a strange unit called an f-stop, sometimes just referred to as a stop; the larger the aperture becomes, the more light enters but the smaller the f-stop becomes.   If the aperture becomes smaller then less light enters and the f-stop gets bigger.   Every time you multiply the f-stop by the square root of two, you halve the amount of light which enters through the aperture - for instance, a camera which is set to f5.6 (f-stop 5.6) has half as much light entering as a camera set to f4 (f-stop 4).   A camera which is set to f8 has one quarter as much light entering as a camera set to f4, an increase of two f-stops.   The f-stop measurement is standard across all cameras - a Nikon-brand camera whose aperture is set to f8 lets the same amount of light enter the camera as a Canon-brand camera which is set to f8.  It's also standard whether you're using film or a digital camera - a scene on print or slide film which is properly exposed at f11 will also be properly exposed on a digital camera at f11.
	(2)   Allow more light into the camera by keeping the shutter open for a longer time.   If you keep the shutter open for 1/125th of a second, then you'll let twice as much light into the camera than if you keep the shutter open for 1/250th second.   However, if you're holding the camera in your hands rather than using a tripod, a slower shutter speed will result in more camera shake appearing in your picture, which makes everything as blurry as if it were out of focus.   To work out how slow you can go without shake, check the focal length of the lens, which is always measured in millimeters (mm).   The rule is, never go slower than the inverse of the focal length.   If the focal length of the lens is 50mm, then don't use a shutter speed below 1/50th of a second; if the focal length is 125mm, then don't go below 1/125th of a second.   If there's not enough light to take a photo without getting camera shake, then you'll have to use a tripod or some other stabilizing mechanism.
	(3)   Increase the sensitivity of the light sensitive medium by increasing its speed, measured in ISO units, which are the same as the old ASA units which some people might be familiar with.   If your photo is underexposed, then put a higher ISO film into the camera or, on a digital camera, increase the ISO rating of the sensor.   A fast film is one which becomes exposed faster than a slow film; film rated at ISO 200 is twice as fast as film rated at ISO 100.   The ISO ratings are standard across all films and all electronic sensors - an ISO 200 film gets exposed at the same rate as a digital camera sensor set to ISO 200.   The sensitivity advantage of high ISO films and sensors comes at a price:  the higher the ISO, the grainier the film becomes and the more electronic "noise" the sensor produces.

  Another area where problems arise because cameras differ from the human eye is in the area of contrast, which is a measure of the difference between the dark parts of a scene and the bright parts.   Outside in the fresh air there's usually about 200 or 300 times as much light as inside a normal room, even on a cloudy day.  The human eye can easily handle this much variation (called contrast), but cameras cannot.   Because most people don't realize this it's easy to end up with photos where some parts are underexposed and other parts are overexposed, for instance if you take photos of people in bright sunlight.   If they are facing away from the sun, then their faces might be too dark while the rest of the shot is OK; if they are side-on to the sun then one side of their face might be too dark and the other side too bright.   It's often better to take the photo with them facing the sun or, even better, by waiting for a cloud to pass overhead and put everything into shadow.

    One way to deal with contrast is to ensure that the sun is always behind you.   If it's directly behind you then any person you photograph will probably be squinting, and pictures of architecture or landscape might come out a bit flat and shapeless, but if the sun is behind your left or right shoulder then you'll most often have everything in your photograph bathed in roughly the same amount of light, which will minimize your problems with contrast.   Not shooting into the sun will also eliminate any risk of flare, which refers to circles or polygons of light scattered in a line across your photo, caused by the sun or some other bright light shining directly into the lens and creating reflections of the aperture on the glass of the lens.   Since many lenses have 5 or more separate pieces of glass inside, you can end up with many of these polygons on the photo.    Sometimes this can enhance a picture, but much more often it ruins it.

    The term composition refers to the way you place the elements of the photo in relationship to each other.   By paying attention to some simple principles of composure, you can take the first steps from taking pictures which are merely technically proficient to ones which other people will think are interesting.

    The simplest thing you can do to make a photograph of something more interesting is to fill the frame with the subject.   This removes irrelevant abstractions from the shot and forces the viewer to confront the interesting peculiarities of the thing that you've photographed.   If the person or the plane or the bird which is the subject of the shot only occupies a small percentage of the photo, it won't have much impact - a person whose feet are at the bottom of a horizontal photo and whose head is at the top will only occupy about 10 or 15% of the shot, and will have to compete for attention against 85 or 90% extraneous background.

    There are certain rules to follow when composing photos of different types of subject.   For instance, if you're photographing people, be nice to them; don't put a power pole through grandma's head and don't cut off the top of aunt Selma's head, and don't cut off her feet, unless you also cut off her legs and hips!   If you're photographing a landscape or anything which has a horizon visible, make sure that the horizon is horizontal - after all, that's where the word "horizontal" comes from.   This last rule is especially true if there's a large body of water in the photo - if that picturesque sailboat looks like it's sailing uphill, then the photo isn't going to look right.   On the other hand, if it's a building or tall trees that you're photographing, make sure that vertical lines stay vertical.
 

Once you've mastered the basics on this page, you'll be ready for these more advanced principles of photography.