Email: brqyvn@gmail.com
Hi Photographer friends,
There are a lot of new photographers just starting out. They need to learn the basics of photography and start using the various settings of their camera, and forget about the "Auto-everything" mode. It may sound silly to experienced photographers, but everyone has to start somewhere. So, here we go, this is for beginners.
New to Digital Photography? Not sure how to use your new DSLR? Drop the "Auto-everything" mode and learn the basics.
Aperture Scale Explained
Shutter
Speed Scale Explained
ISO
Value Scale Explained
Adjustments
to consider
Hi Photographer friends,
There are a lot of new photographers just starting out. They need to learn the basics of photography and start using the various settings of their camera, and forget about the "Auto-everything" mode. It may sound silly to experienced photographers, but everyone has to start somewhere. So, here we go, this is for beginners.
Photography Basics
Here are some basic photography techniques we should touch upon. Keep in mind that this will not make you an expert
in photography by itself.
Like all other skills we learn,
practice is what makes us excel in any
of our undertakings. There are many
books on photo techniques on the market that you can get to further
learn the craft and art of photography. For years,
Kodak has regularly published photography books targeted
to the beginners all the way on up to the professional photographers.
Photography, is about light. It’s about light reaching
a media, film or digital
sensor, and turning the results
into an image that we can see, on a computer screen for example,
or printed on paper.
Other than the actual lighting
conditions of a scene, there are three major entities
that directly affect
how the light reaches
the recording media. The Aperture (lens opening), the shutter speed (the speed at which the shutter
opens and closes) and the media sensitivity also known as ISO number
(the amount of light recorded
on the media for a given exposure). Too much light reaching
the media, and the image will be washed
out. Too little light
reaching the media, and the
image will be too
dark.
This is to say that
the balance between
these three settings must be just right. Technically speaking, a large aperture
will let a lot of light in, and therefore the shutter speed and/or the recording
media will need to be adjusted
accordingly. Let’s assume for a moment that the sensitivity is set at ISO 200 and cannot
be changed. We now have to balance
the aperture and shutter speed to get the correct amount of light in. Again, assuming
that an aperture of f/4 at a shutter
speed of 1/125th of a second would be adequate,
the same results could be achieved with an aperture
of f/5.6 at a shutter speed of 1/60th of a second. In other words, increasing the aperture by one f/stop and decrease
the shutter speed by one step, the same amount of light would reach the film or sensor. The difference between the two is the composition (depth of field or clarity of moving subjects). Since we are dealing
with digital single lens reflex (DSLR) cameras, from now on lets use the word “sensor” for media.
Aperture Scale Explained
The aperture, being the lens diaghphram opening,
lets more or less light pass through
the lens. The f/number
(aperture opening) is proportional to the ratio between the lens focal length
and aperture diameter,
which is proportional to the square
root of the aperture area. Big lingo, but what does it mean for you? Well, lenses
are usually marked
with the f/numbers ranging from the largest
aperture to the smallest
aperture. For example, a typical
lens could have an aperture range of f/2.8 to f/16. The lens would be marked as follow: f/16,
f/11, f/8, f/5.6, f/4, f/2.8. In this example, the largest aperture would be f/2.8 while the smallest
would be f/16. Have you noticed something a little surprising here? The larger the number is, the smaller the aperture is. You need to remember that.
Furthermore, each (f- stop) number
to the right lets twice the amount of light in as the (f-stop) number to its
left and each (f-stop)
number to the left lets half the light in as the (f-stop)
number to its right.
For example, f/4 lets twice as much light in as f/5.6 but
only one half the light of f/2.8, and so on. One
unit of increment in aperture is called a
stop.
An f/stop number to the right lets twice as much
light in than the
number to its left.
|
f/16 / f/11 / f/8 / f/5.6 / f/4 / f/2.8
|
An f/stop number
to the left lets half as much light in than the
number to its right.
|
The f-number
is a geometric
progression based on changes in the size of the lens aperture,
as it is opened
and closed. As the scale
rises, each number is multiplied by a factor of 1.4. The standard numbers for Calibration are f/1.0, f/1.4, f/2, f/2.8, f/4, f/5.6, f/8,
f/11,
f/16, f/22, f/32, etc. Each change
results in a doubling or halving of the amount of light
transmitted by the lens to the film or sensor plane.
Shutter
Speed Scale Explained
In photography, shutter speed is the length of time the shutter takes to open and close. The total exposure
is proportional to the
duration of light reaching the image sensor. Similarly to the aperture, a standardized 2:1 scale
was adopted for shutter speed so that opening
one aperture f-stop and reducing the shutter speed by one step resulted in the identical
exposure. The agreed standards for shutter
speeds are typically 1 sec, 1/2 sec, 1/4 sec, 1/8 sec, 1/15 sec, 1/30 sec, 1/60 sec, 1/125 sec, 1/250 sec, 1/500 sec, 1/1000 sec, and so on. A shutter speed of 1/125 sec lets twice as much light in as a shutter speed of 1/250 sec, but half the light of
a shutter speed of 1/60 sec. For
example, combining aperture and
shutter speed, a shutter speed of 1/125 sec with an aperture of f/16 is equivalent to a shutter
speed of 1/250 sec and an aperture of f/8. Alternatively, a shutter
speed of 1/125 sec with an aperture
of f/16 is also equivalent to a shutter speed of 1/60 sec with an aperture of f/22. Remember that one unit of
increment in shutter
speed is called a
step.
ISO
Value Scale Explained
Similarly to the aperture and shutter speed, the ISO linear scale, which corresponds to the older ASA scale, is 2:1. Doubling the speed of a film implies doubling the numeric value that designates the film speed. Here again, a film rated
at 200 ASA or ISO 200 will absorb half of the light of a 400 ASA or ISO 400 film, but twice as much light of a 100 ASA or
ISO 100 film. In the digital world, the sensitivity defines
ISO speed in terms of the amount
of light needed to achieve
a certain quality
in the sense of a per-pixel
signal-to-noise ratio. The image sensors in digital cameras can be adjusted,
or can have their outputs adjusted, in sensitivity to function
with metering at any given comparative ISO setting. This is usually done by simply amplifying the output of the image sensor,
which unfortunately also increases the image’s noise, sometimes
beyond acceptable level. Just as with photographic film, greater
sensitivity comes with some loss of image quality, visible as image noise. What does that mean for you? The lower the ISO value on your digital camera, the less noise you will have and therefore, your image will appear
clearer. ISO 200 is twice as
sensitive to light as
ISO
100 but half of ISO 400.
Combining all three elements
You can
understand that to take an
accurately exposed photograph, one has to balance the aperture,
the shutter speed and the sensitivity value (ISO). In the 35mm film era, the sensitivity would have remained constant for the duration
of the roll of film. In digital
photography, the sensitivity (ISO) can be adjusted on the fly, making this third element
more important and flexible than ever before. Luckily, technology spares us from long exposure calculations. We can pick one of these three elements,
and most modern digital camera will adjust the two other elements
automatically. We can set the Aperture,
for example, and let the camera select the appropriate shutter speed. That is known as Aperture
Priority, (Av for aperture value) on your camera mode dial. If the exposure
is impossible at the chosen
aperture, the camera will either suggest using the flash or increasing the ISO value or do one of the two automatically if already preset in the menu options.
Alternatively, you can decide
to set the shutter speed and the camera will choose the appropriate aperture. That is known as Shutter Priority (Tv for Time value) on your mode dial.
Adjustments
to consider
·
Choosing a small aperture
can make the scene in focus from just a few feet or even inches in front of the camera lens to infinity. It is very useful in landscape
photography. This effect is proportionally accentuated when using wide angle lenses. However it may require
a slower speed or a faster
ISO. Tripods are commonly
used in landscape photography.
·
Choosing a large aperture
limits the depth of field, making your subject
stand out with a blurry background and foreground (bokeh). This is very
useful for portraits. This depth of field is proportionally accentuated with telephoto lenses. However, it may require a fast
shutter speed or a slower ISO.
·
Using a fast shutter
speed can freeze the action and is often used for sports
and fast moving activities. However, it may
require a wider aperture,
a faster ISO or the use of a flash.
·
Using a slow shutter speed will allow taking pictures at night or will render a feeling of movement
by deliberately blurring
moving area of a scene such as water falls, etc. You will likely need
a tripod
and perhaps
a wider aperture and faster ISO.
·
You can
shoot with a very fast ISO
and
capture almost any image with little effort,
but the image noise
will increase. However, most modern DSLR camera sensors allow much
higher ISO settings while keeping the noise to acceptable levels.
You likely
understand by now why photography is indeed, all about light. Modern DSLR cameras have other tools to further refine the art of capturing images with optimum results.
Built-in meters have options such as multi-segments metering, center-weighted and spot metering. Auto-focus modes in either single or continuous focus make your photos crystal clear
and sharp with little effort from your part. Shake reduction allows using slower shutter speeds than most humans could ever achieve by hand-holding the camera. The White balance adjustment controls assure, most of the time anyway, that the colors in the scene you photograph will be as seen by human eyes. Instant
view of the captured
images allows you to retake the shot(s)
if not satisfied. Your camera likely has a “Live View” mode which really
helps in some situations. The use of memory cards allows you to take hundreds
or even thousands
of pictures, at practically no cost other than the initial cost of the memory card. Remember “practice makes perfect” or
close to it anyway. Go take some pictures!
Thank you for reading,
Yvon Bourque
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