Article: Working with digital SLR Lenses

It’s true that there is a mind-bending assortment of high-quality lenses available to enhance the capabilities of Nikon cameras. You can use thousands of current and older lenses introduced by Nikon and third-party vendors since 1959, although lenses made before 1977 may need an inexpensive modification for use with cameras other than the Nikon D5000, D3100, D3000, D60, D40, and D40x. (More on this later.) These lenses can give you a wider view, bring distant subjects closer, let you focus closer, shoot under lower light conditions, or provide a more detailed, sharper image for critical work.

Other than the sensor itself, the lens you choose for your dSLR is the most important component in determining image quality and perspective of your images.

Sensor Sensibilities
------------------------

From time to time, you’ve heard the term crop factor, and you’ve probably also heard the term lens multiplier factor. Both are misleading and inaccurate terms used to describe the same phenomenon: the fact that cameras like the D3100 (and most other affordable digital SLRs) provide a field of view that’s smaller and narrower than that produced by certain other (usually much more expensive) cameras, when fitted with exactly the same lens.

Figure 1 quite clearly shows the phenomenon at work. The outer rectangle, marked 1X, shows the field of view you might expect with a 28mm lens mounted on one of Nikon’s “full-frame” (non-cropped) cameras, like the Nikon D700, D3, or D3x. The area marked 1.5X shows the field of view you’d get with that 28mm lens installed on a D3100. It’s easy to see from the illustration that the 1X rendition provides a wider, more expansive view, while the inner field of view is, in comparison, cropped.

Figure 1: Nikon offers digital SLRs with full-frame (1X) crops, as well as 1.5X crops.

The cropping effect is produced because the sensors of DX cameras like the Nikon D3100 are smaller than the sensors of the D700, D3, or D3x. The “full-frame” camera has a sensor that’s the size of the standard 35mm film frame, 24mm × 36mm.

Your D3100’s sensor does not measure 24mm X 36mm; instead, it specs out at 23.6 × 15.8 mm, or about 66.7 percent of the area of a full-frame sensor, as shown by the red boxes in the figure.

You can calculate the relative field of view by dividing the focal length of the lens by .667. Thus, a 100mm lens mounted on a D3100 has the same field of view as a 150mm lens on the Nikon D700.

We humans tend to perform multiplication operations in our heads more easily than division, so such field of view comparisons are usually calculated using the reciprocal of .667—1.5—so we can multiply instead. (100 / .667=150; 100 × 1.5=150.)

This translation is generally useful only if you’re accustomed to using full-frame cameras (usually of the film variety) and want to know how a familiar lens will perform on a digital camera.

I strongly prefer crop factor over lens multiplier, because nothing is being multiplied; a 100mm lens doesn’t “become” a 150mm lens—the depth-of-field and lens aperture remain the same. Only the field of view is cropped. But crop factor isn’t much better, as it implies that the 24 × 36mm frame is “full” and anything else is “less.”

If you’re accustomed to using full-frame film cameras, you might find it helpful to use the crop factor “multiplier” to translate a lens’s real focal length into the full-frame equivalent, even though, as I said, nothing is actually being multiplied.

Crop or Not?
------------------

There's a lot of debate over the "advantages" and "disadvantages" of using a camera with a ?"cropped" sensor, versus one with a ?"full-frame" sensor. The arguments go like these:

• "Free" 1.5X teleconverter.
  The Nikon D3100 (and other cameras with the 1.5X crop factor) magically transforms any telephoto lens you have into a longer lens, which can be useful for sports, wildlife photography, and other endeavors that benefit from more reach. Yet, your f/stop remains the same (that is, a 300mm f/4 becomes a very fast 450mm f/4 lens). Some discount this advantage, pointing out that the exact same field of view can be had by taking a full-frame image, and trimming it to the 1.5X equivalent. While that is strictly true, it doesn't take into account a factor called pixel density. Nikon manufactures both full-frame and cropped sensor cameras with 12MP of resolution (the Nikon D700 and D5000, for example).
  
  The cropped model packs all those pixels together much more tightly, into that 23.6 ?~ 15.8mm area. So, your 300mm f/4 lens delivers the same field of view as a 450mm optic at the camera's full 12MP resolution. When you crop the D700 image to get the same field of view, you're using only five megapixels worth of resolution. So, while both images will be framed the same, the cropped sensor version, with its higher pixel density, will be sharper.
  
  
• Dense pixels=more noise.
  The other side of the pixel density coin is that the denser packing of pixels to achieve 14.2 megapixels in the D3100 sensor means that each pixel must be smaller, and will have less light-gathering capabilities. Larger pixels capture light more efficiently, reducing the need to amplify the signal when boosting ISO sensitivity, and, therefore, producing less noise. In an absolute sense, this is true, and cameras like the D700 and D3 do have sensational high-ISO performance. However, the D3100’s sensor is improved over earlier cameras (for one thing, it is a high-sensitivity CMOS sensor, rather than a noisier CCD sensor like that found in some earlier Nikon entry-level cameras), so you’ll find it performs very well at higher ISOs. Indeed, its ISO sensitivity is more or less comparable to that of the Nikon D3x, which also relies on high-density pixel-packing to achieve its 24.5MP resolution. You needn’t hesitate to use ISO 1600 (or even higher) with the Nikon D3100: just don’t expect the same results at H1 or H2 (ISO 6400 and 12800 equivalent) as D700 owners get from their cameras.
  
  
• Lack of wide-angle perspective.
  Of course, the 1.5X “crop” factor applies to wide angle lenses, too, so your 20mm ultra-wide lens becomes a hum-drum 30mm near wide-angle and a 35mm focal length is transformed into what photographers call a “normal” lens. Zoom lenses, like the 18-105mm lens that is often purchased with the Nikon cameras in a kit, have less wide-angle perspective at their minimum focal length. The 18-105mm optic, for example, is the equivalent of a 27mm moderate wide angle when zoomed to its widest setting. Nikon has “fixed” this problem by providing several different extra-wide zooms specifically for the DX format, including the (relatively) affordable 12-24mm f/4 DX Nikkor. You’ll never really lack for wide-angle lenses, but some of us will need to buy wider optics to regain the expansive view we’re looking for.
  
  
• Mixed body mix-up.
  The relatively small number of Nikon D3100 owners who also have a Nikon full-frame camera like the D700 can’t ignore the focal-length mix-up factor. If you own both FX and DX-format cameras (some D3100 owners use them as a backup to a D700, for example), it’s vexing to have to adjust to the different fields of view that the cameras provide. If you remove a given lens from one camera and put it on the other, the effective focal length/field of view changes. That 17-35mm f/2.8 zoom works as an ultra-wide to wide angle on a D700, but functions more as a moderate wide-angle to normal lens on a D3100. To get the “look” on both cameras, you’d need to use a 12-24mm zoom on the D3100, and the 17-35mm zoom on the D700. It’s possible to become accustomed to this field of view shake-up and, indeed, some photographers put it to work by mounting their longest telephoto lens on the D3100 and their wide-angle lenses on their full-frame camera. Even if you’ve never owned both an FX and DX camera, you should be aware of the possible confusion.
  

References:
-----------------------
Cengage David Buschs Nikon D3100 Guide to Digital SLR Photography 2011 ebook.

Article: Working with Long Exposures (Long Exposure)

In previous article "Working with short exposures" we talk about taking pictures in a tiny slice of time so we can freeze everything.

Here we will talk about long exposure, what is it? How we can control it? And what we can do with long exposure.

First let's start with what is long exposure.

Long Exposures
-------------------
Longer exposures are a doorway into another world, showing us how even familiar scenes can look much different when photographed over periods measured in seconds.
At night, long exposures produce streaks of light from moving, illuminated subjects like automobiles or amusement park rides.

Extra-long exposures of seemingly pitch-dark subjects can reveal interesting views using light levels barely bright enough to see by.

At any time of day, including daytime (in which case you’ll often need the help of neutral density filters to make the long exposure practical), long exposures can cause moving objects to vanish entirely, because they don’t remain stationary long enough to register in a photograph.

Three Ways to Take Long Exposures
--------------------------------------------
There are actually three common types of lengthy exposures: timed exposures, bulb exposures, and time exposures. The Nikon D3100 offers only the first two. Because of the length of the exposure, all shots with very slow shutter speeds should be taken with a tripod to hold the camera steady.

1. Timed exposures.
   These are long exposures from 1 second to 30 seconds, measured by the camera itself. To take a picture in this range, simply use Manual or S modes and use the main command dial to set the shutter speed to the length of time you want, choosing from preset speeds of 1.0, 1.3, 1.6, 2.0, 2.5, 3.0, 4.0, 5.0, 6.0, 8.0, 10.0, 13.0, 15.0, 20.0, 25.0, and 30.0 seconds (because the D3100 uses 1/3 stop increments).
   
   
   • Pros. of timed exposures is that the camera does all the calculating for you. There's no need for a stopwatch. If you review your image on the LCD and decide to try again with the exposure doubled or halved, you can dial in the correct exposure with precision.
     
     
   • Cons. of timed exposures is that you can't take a photo for longer than 30 seconds.
   
   
2. Bulb exposures.
   This type of exposure is so-called because in the olden days the photographer squeezed and held an air bulb attached to a tube that provided the force necessary to keep the shutter open. Traditionally, a bulb exposure is one that lasts as long as the shutter release button is pressed; when you release the button, the exposure ends.
   
   To make a bulb exposure with the D3100, set the camera on Manual mode, set the f/stop, and then use the main command dial to select the shutter speed immediately after 30 seconds--Bulb. Then, press the shutter to start the exposure, and release it again to close the shutter.
   
   
3. Time exposures.
   This is a setting found on some cameras to produce longer exposures. With cameras that implement this option, the shutter opens when you press the shutter release button, and remains open until you press the button again. With the Nikon D3100, you can't get this exact effect; the best you can do is use a Bulb exposure.
   

Working with Long Exposures:
------------------------------------
Because the D3100 produces such good images at longer exposures, and there are so many creative things you can do with long-exposure techniques, you'll want to do some experimenting. Get yourself a tripod or another firm support and take some test shots with long exposure noise reduction both enabled and disabled (to see whether you prefer low noise or high detail) and get started. Here are some things to try:

• Make people invisible.
  One very cool thing about long exposures is that objects that move rapidly enough won't register at all in a photograph, while the subjects that remain stationary are portrayed in the normal way. That makes it easy to produce people-free landscape photos and architectural photos at night or, even, in full daylight if you use a plain gray neutral-density filter (or two or three) to allow an exposure of at least a few seconds. At ISO 100, f/22, and a pair of ND8 neutral density filters (which each remove three stops' worth of light -- giving you, in effect, the equivalent of ISO 1.5!), you can use exposures of nearly two seconds; overcast days and/or even more neutral-density filtration would work even better if daylight people-vanishing is your goal. They'll have to be walking very briskly and across the field of view (rather than directly toward the camera) for this to work. At night, it's much easier to achieve this effect with the 20- to 30-second exposures that are possible, as you can see in Figures 1 and 2.
  

  
  
  
  

  
  Figure 1: This alleyway is thronged with people, as you can see in this
  two-second exposure using only the available illumination.
  

  
  
  
  

  
  Figure 2: With the camera still on a tripod, a 30-second
  exposure rendered the passersby almost invisible.
  

• Create streaks.
  If you aren't shooting for total invisibility, long exposures with the camera on a tripod can produce some interesting streaky effects. Even a single ND8 filter will let you shoot at f/22 and 1/6th second in daylight. Figure 3 shows one kind of effect you can get indoors, without the need for a special filter.
  

  
  
  
  

  
  Figure 3: This Korean dancer produced a swirl of color as she
  spun during the 1/4th second exposure.
  

• Produce light trails.
  At night, car headlights and taillights and other moving sources of illumination can generate interesting light trails. If the lights aren’t moving, you can make them move by zooming or jiggling the camera during a long exposure. Your camera doesn’t even need to be mounted on a tripod; hand-holding the D3100 for longer exposures adds movement and patterns to your trails. If you’re shooting fireworks, a longer exposure may allow you to combine several bursts into one picture (see Figure 4).
  
  

  
  
  
  

  
  Figure 4: A long exposure allows capturing several bursts of fireworks in one image.
  

  
  
• Blur waterfalls, etc.
  You’ll find that waterfalls and other sources of moving liquid produce a special type of long-exposure blur, because the water merges into a fantasy-like veil that looks different at different exposure times, and with different waterfalls. Cascades with turbulent flow produce a rougher look at a given longer exposure than falls that flow smoothly. Although blurred waterfalls have become almost a cliché, there are still plenty of variations for a creative photographer to explore.
  
  
• Show total darkness in new ways.
  Even on the darkest, moonless nights, there is enough starlight or glow from distant illumination sources to see by, and, if you use a long exposure, there is enough light to take a picture, too.
  

Article: Working with Short Exposures (A Tiny Slice of Time)

A Tiny Slice of Time
Exposures that seem impossibly brief can reveal a world we didn’t know existed. In the 1930s, Dr. Harold Edgerton, a professor of electrical engineering at MIT,
pioneered high-speed photography using a repeating electronic flash unit he patented called the stroboscope.

As the inventor of the electronic flash, he popularized its use to freeze objects in motion, and you’ve probably seen his photographs of bullets piercing balloons and drops of milk forming a coronet-shaped splash.

Electronic flash freezes action by virtue of its extremely short duration—as brief as 1/50,000th second or less.
Although the D3100’s built-in flash unit can give you these ultra-quick glimpses of moving subjects, an external flash, such as one of the Nikon speedlights, offers even more versatility.

Of course, the D3100 is fully capable of immobilizing all but the fastest movement using only its shutter speeds, which range all the way up to a respectably quick 1/4,000th second. Indeed, you’ll rarely have need for such a brief shutter speed in ordinary shooting.

If you wanted to use an aperture of f/1.8 at ISO 200 outdoors in bright sunlight, for some reason, a shutter speed of 1/4,000th second would more than do the job.
You’d need a faster shutter speed only if you moved the ISO setting to a higher sensitivity, say, to compensate for a polarizing filter you attached to your lens. Under less than full sunlight, 1/4,000th second is more than fast enough for any conditions you’re likely to encounter.

Most sports action can be frozen at 1/2,000th second or slower, and for many sports a slower shutter speed is actually preferable—for example, to allow the wheels of a racing automobile or motorcycle, or the propeller on a classic aircraft to blur realistically.

If you want to do some exotic action-freezing photography, you can use the Nikon D3100’s faster shutter speeds, or resort to an electronic flash (internal or external), which provides the effect of a high shutter speed because of its short duration.

Of course, you’ll need a lot of light. High shutter speeds cut very fine slices of time and sharply reduce the amount of illumination that reaches your sensor.
To use 1/4,000th second at an aperture of f/6.3, you’d need an ISO setting of 800—even in full daylight.

To use an f/stop smaller than f/6.3 or an ISO setting lower than 1600, you’d need more light than full daylight provides. (That’s why electronic flash units work
so well for high-speed photography when used as the sole illumination; they provide both the effect of a brief shutter speed and the high levels of illumination needed.)
High shutter speeds with electronic flash comes with a penalty: you have to use a shutter speed slower than 1/200th second. Perhaps you want to stop some action in
daylight with a brief shutter speed and use electronic flash only as supplemental illumination to fill in the shadows.

Unfortunately, under most conditions you can’t use flash with your D3100 at any shutter speed faster than 1/200th second. That’s the fastest speed at which the camera’s focal plane shutter is fully open: at shorter speeds, the “slit” (described in more detail in Chapter 8) comes into play, so that the flash will expose only the small portion of the sensor exposed by the slit during its duration.

Working with Short Exposures
--------------------------------------

You can have a lot of fun exploring the kinds of pictures you can take using very brief exposure times, whether you decide to take advantage of the action-stopping capabilities of your built-in or external electronic flash or work with the Nikon D3100’s faster shutter speeds.

Here are a few ideas to get you started:
------------------------------------------------

• Take revealing images.
  Fast shutter speeds can help you reveal the real subject behind the façade, by freezing constant motion to capture an enlightening moment in time.
  Legendary fashion/portrait photographer Philippe Halsman used leaping photos of famous people, such as the Duke and Duchess of Windsor, Richard Nixon, and Salvador Dali to illuminate their real selves. Halsman said, “When you ask a person to jump, his attention is mostly directed toward the act of jumping and the mask falls so that the real person appears.” Try some high-speed portraits of people you know in motion to see how they appear when concentrating on something other than the portrait.
  
  
• Create unreal images.
  High-speed photography can also produce photographs that show your subjects in ways that are quite unreal. A helicopter in mid-air with its rotors frozen or a motocross cyclist leaping over a ramp, but with all motion stopped so that the rider and machine look as if they were frozen in mid-air, make for an unusual picture.
  
  When we’re accustomed to seeing subjects in motion, seeing them stopped in time can verge on the surreal.
  
  
• Capture unseen perspectives.
  Some things are never seen in real life, except when viewed in a stop-action photograph. M.I.T’s Dr. Harold Edgerton captured a series of famed balloon burst images back in the 1930s that were only a starting point. Freeze a hummingbird in flight for a view of wings that never seem to stop. Or, capture the splashes as liquid falls into a bowl, as shown in Figure 1. No electronic flash was required for this image (and wouldn’t have illuminated the water in the bowl as evenly).
  
  Instead, several high-intensity lamps and an ISO setting of 1600 allowed the camera to capture this image at 1/2,000th second.
  
  
• Vanquish camera shakes and gain new angles.
  Here’s an idea that’s so obvious it isn’t always explored to its fullest extent. A high enough shutter speed can free you from the tyranny of a tripod, making it easier to capture new angles, or to shoot quickly while moving around, especially with longer lenses.
  
  I tend to use a monopod or tripod for almost everything when I’m not using an image-stabilized lens, and I end up missing some shots because of a reluctance to adjust my camera support to get a higher, lower, or different angle. If you have enough light and can use an f/stop wide enough to permit a high shutter speed, you’ll find a new freedom to choose your shots.
  
  I have a favored 170mm-500mm lens that I use for sports and wildlife photography, almost invariably with a tripod, as I don’t find the “reciprocal of the focal length” rule particularly helpful in most cases.
  
  I would not handhold this hefty lens at its 500mm setting with a 1/500th second shutter speed under most circumstances. Nor, if you want to account for the crop factor, would I use 1/750th second. However, at 1/2,000th second or faster, it’s entirely possible for a steady hand to use this lens without a tripod or monopod’s extra support, and I’ve found that my whole approach to shooting animals and other elusive subjects changes in high-speed mode. Selective focus allows dramatically isolating my prey wide open at f/6.3, too.

Figure 1: A large amount of artificial illumination and an ISO 1600 sensitivity setting
allowed capturing this shot at 1/2,000th second without use of an electronic flash.

Article: Autofocus Areas

Where autofocus mode chooses when to autofocus, the Autofocus Area parameter tells your Nikon D3100 how to choose which of the 11 focus points in the viewfinder should be used to evaluate and lock in focus.

Ordinarily, your camera would like to be able to choose among the available AF points itself. In fact, that’s the default behavior, and when AF-Area mode for Viewfinder is set to Auto-Area, the D3100 chooses the focus point automatically in Auto, No-Flash, Portrait, Landscape, Night Portrait, and PAS (Program, Aperture-priority, and Shutter-priority) exposure modes. Giving the D3100 free rein in selecting a focus point works well much of the time, and you can use this default mode with confidence.

If you want to choose a focus point yourself, you must do two things.

1- When the focus point is unlocked, you can use the multi selector pad to shift the active point to any of the 11 focus points seen in the viewfinder. The available points are shown in Figure 1. The currently active focus point is highlighted in red.

Figure 1: There are 11 possible focus points shown in the viewfinder.

2- The second thing to do is to switch Focus Area mode in the Shooting menu from Autoarea (which always chooses the focus point automatically) to Single-point, Dynamic area, or 3D-tracking (11 Points). These modes change the D3100’s behavior as follows:

1. Single-point.
   You choose which of the 11 points are used, and the Nikon D3100 sticks with that focus bracket, no matter what.
   
   "This mode is best for stationary subjects, and is used automatically in Close-up scene mode."
   
   In this mode, you always select the focus point manually, using the multi selector button. The D3100 evaluates focus based solely on the point you select, making this a good choice for subjects that don’t move much.
   
   
2. Dynamic-area.
   You can select the focus point, but the D3100 can use other focus points as well.
   
   "You’d want to use this mode when photographing subjects that are moving unpredictably, but want the flexibility of being able to choose one of the 11 focus zones yourself."
   
   Once you’ve specified the focus bracket you want using the multi selector’s buttons, the D3100 will use that area exclusively in Single-servo autofocus mode (AF-S). If you’ve chosen Continuous-autofocus mode (AF-C) or Automatic-autofocus mode (AF-A), if the subject begins moving after autofocus is activated, the D3100 will focus based on information from one of the other focus zones.
   
   Well suited for sports photography, this mode is applied automatically with the Sports scene setting, and can be used with other types of moving subjects, such as active children.
   
   
3. Auto-area.
   This default mode chooses the focus point for you, and can use distance information when working with a G or D lens that supplies that data to the camera.
   
   
4. 3D-tracking (11 points).
   In this mode, you select the focus point using the multi selector, but if you subsequently reframe the picture slightly, the D3100 uses distance information when in AF-C (Continuous Autofocus) or AF-A (Automatic Autofocus) modes to refocus on the original subject if necessary.
   
   When using AFS (Single Autofocus), this mode functions the same as Single-point focus area mode.
   
   "This mode is useful if you need to reframe a relatively static subject from time to time." If your subject leaves the frame entirely, you’ll need to release the shutter button and refocus.