telephoto compression

Perspective (yet again!)

One word…, “DISTANCE”

Here we go again! Let’s start with the lesson drilled in my my college photography professor, Ed Sculley:

 
Pick the camera to subject distance that gives the perspective you want, then select the focal length lens to fill the frame appropriately
— Ed Sculley
 

Wise words! They harken back to a favorite Ansel Adams quote:

 
A good photograph is knowing where to stand
— Ansel Adams
 

For this post I define perspective as the relationship between the elements in a photograph. In a portrait that would be the size of the nose compared to the eyes compared to the ears, compared to the background. In an outdoor scene it might be the tree in the front yard compared to the house compared to the mountains in the distance.

Let’s start with the portrait. All too often I see articles claiming to show how lenses affect the look of a face. You’ve seen them, too. They show a photo made with a short wide angle lens where the face narrow with a big nose and then a series of photos with longer lenses where the face is flatter and flatter as the lenses get longer and longer. But what they don’t tell you is that not only did they change the lenses, but they also moved the camera. And moving the camera is what caused the changes in the looks. The lens just determines what is in the frame at the various distances.

Think of changing lenses as cropping your image in camera. All lenses show the same perspective at the same camera to subject distance. By putting on a longer lens you are magnifying the central area of the frame. If you don’t move the camera everything in the photo scales equally—the perspective remains the same. Let’s imagine a scene where you have a person in front of a window. with a tree outside. If you switch from a 50mm lens to a 100mm lens everything in the scene (the person, the window and the tree) all become twice as large in the frame, but their sizes relative to each other remain the same. If, on the other hand, you move the camera closer a more natural change occurs. The person in the front gets larger while the elements in the background appear smaller. The act of moving in might require us to change to a shorter lens to fit everything in the frame. But it isn’t the changing of the lens that altered the perspective, the move did that. The lens just determined what would fit into the frame.

Start with our view of our subject by a window with a tree outside as seen with a normal lens.

Start with our view of our subject by a window with a tree outside as seen with a normal lens.

Leaving the camera in the same position, a longer lens magnifies everything in the scene equally. But the relationship between objects remains the same.

Leaving the camera in the same position, a longer lens magnifies everything in the scene equally. But the relationship between objects remains the same.

If instead of changing lenses we move the camera closer the subject in front gets larger while the background elements appear smaller. The size relationships all change.

If instead of changing lenses we move the camera closer the subject in front gets larger while the background elements appear smaller. The size relationships all change.

 
The closer the camera is to your subject the smaller the background elements will appear
— John Cornicello
 

As you move back away from your subject the objects in the background get larger in relation to the size of the subject—compressing the scene. Longer lenses force you to move back, leading one to think that it is the lens that is doing the compression. In reality it was moving back that compressed the scene. The longer lens magnified the subject to fill the frame better.

This is why you cannot “zoom with your feet.” Cinematographers tend to use prime lenses and move the camera (dolly in or out) to change the size relations in the frame. A zoom tempts you to keep the camera in one position and zoom to change size. But this is an unnatural look. In our 3-D world perspective changes as we move closer to and further from the objects around us. In a moving image a zoom instead of a dolly move just doesn’t quite look or feel right.

Don’t take this to mean I am against zoom lenses. Quite the opposite. I think they are very useful, especially in still photography, if used correctly. With a zoom lens you can position your camera exactly where you want it and then fine tune the framing to avoid or limit the cropping that you would need to do in post-processing.

And I do encourage you to move your feet. Step to the left or the right. Take a step in or back. Get down on the ground or up on a ladder. These all give you a different perspective. And you can do this with a prime lens or a zoom lens.

This all started a few days ago when my wife showed me this “great demonstration of lenses” in an Instagram post. I felt bad that I had to tell her it was all wrong. So I quickly made these crude illustrations to clarify things. The video on the left shows photos made with the same 16mm lens at various distances and resized to show how the drawing of the face is affected by the camera to subject distance. In the video on the right the camera remained stationary while the lenses were changed to show that the lens doesn’t alter the drawing of the face.

Here are side-by-side comparisons to help get the point across. The images in the first set were all made with a 24mm lens at different camera to subject distances and resized to maintain the same head size.

24mm lens at various distances

24mm lens at various distances

This images in this next set were all taken from the same distance with different focal length lenses and resized to maintain the same head size.

Different lenses from the same distance show the same perspective

Different lenses from the same distance show the same perspective

One more example to show that telephoto compression is a fallacy. Here we have a scene from a railroad station in Kyoto, Japan photographed with four different focal lengths from 18mm to 400mm. As you can see, the area of the scene that is common to all four images (in the magenta box) is exactly the same. The longer lens just isolates the central area, but the perspective is the same as in the wide angle photo. If you were able to enlarge the 18mm photo to match the size of the 400mm photo the quality would be terrible, but the compression (perspective) would be the same.

For more entertainment, please visit my post about the Incredible Shrinking Space Needle.

Well, enough early morning rambling for now. I hope you got something useful out of this.

Until next time, Cheers!
John
(Oh, yeah, please buy my book! THANKS!)

Perspective (AGAIN!)

Here we go again!

First thing. Distortion and perspective are not the same. In lenses "distortion" is defined as an aberration where the corners of an image projected by the lens pull outward (pincushion) or the corners pull inwards (barrel). Distortion is independent of focal length. It is controlled in the design of the lens and is affected by the placement of lens elements and the placement of the aperture diaphragm inside the lens. It cannot be corrected by anything you do with your camera. It is built into the lens. Post-processing software often provides tools to help correct distortion. Most lenses are corrected as much as they can be for distortion. Rectilinear lenses attempt to keep straight lines straight across the image plane. Wide angle rectilinear lenses do have a characteristic of stretching objects at the edges of the frame. this comes from trying to fit a very wide almost unlimited view onto a fixed size image sensor (or film). This is usually most noticeable when the camera is in very close to the subject. The cure for this stretching is to use a fisheye lens! But that introduces a whole set of other issues for another discussion.

An interesting point about this "wide angle distortion" is that it only affects 3-dimensional subjects. Let's take an example of a tennis ball photographed with a wide angle rectilinear lens. If the tennis ball is in the middle of the frame it appears perfectly round. If it is move off to a corner of the frame you can see that it gets stretched out into an oblong shape. However, if you make a print of the centered ball and put the print in the corner of the frame in place of the actual tennis ball the ball in the print remains round. 

2-tennis-balls.jpg
3-tennis-balls.jpg

But enough of that, it is just a distraction from what I want to talk about. If you want more information about lens distortion I invite you to take a look at this article from Zeiss

On to Perspective!

I seem to be on a perpetual quest to help photographers understand the affect on perspective caused by camera to subject distance and how it is not related to focal length. Perspective here is defined as the relationship between objects in the scene. Objects closer to the camera appear larger than objects farther away. Objects closer to the camera also appear farther apart from each other than do the object farther away. It doesn't matter what focal length lens you use. All lenses show the same perspective from the same camera position.

So, you ask, what about telephoto compression? Isn't that caused by using a long lens? No! Go back to the previous paragraph. Looking at it from the other direction, it says that objects further away from the camera appear to be closer to each other than objects closer to the camera. Focal length doesn't affect that. Focal length affects magnification and the field of view (how much of the scene fits into the frame). You don't even need a camera to see how this works. Go someplace that has a series of similar items spaced out evenly in front of you. Maybe a long stretch of road with street lamps or something like that. Stand a foot or two from the first object and notice the distance to the second object. Pretty far apart. Now concentrate on the 8th and 9th objects. They look closer together and more similar in size. There is your compression. Of course, you took your camera with you anyway. So put the camera on a tripod and take a photo with a short lens and another photo with a longer lens.

Take those two photos into your favorite photo editor and crop the photo taken with the short lens to match the image taken with the long lens. You will see that for the area of the photo that is common to both focal lengths the perspective (and compression) are the same. When we want to show this compression we, of course, will pick a longer focal length lens as cropping optically maintains image quality as opposed to digital cropping or making an extreme enlargement from film. Changing the lens just changed the magnification, though, not the perspective.

Here is a set of images from a train station in Kyoto, Japan. All were made from the same camera position at various focal lengths rom 18mm to 400mm.  Notice that perspective in the area outlined in purple, which is common to all of the photos, remains the same.

People, too!

The same thing happens in our portrait work. From the same camera position your subject will look the same (except for size) if photographed with a 10mm lens or a 100mm lens. Take a look at the following image. It shows a studio scene made with a 10mm lens on a full frame (35mm) digital camera. The camera is fixed on a tripod at 58 inches from the mannequin. If you drag the slider from the right side to the left you will reveal an image taken with a 100mm lens and resized down to match the size from the 10mm lens. Notice that the perspective on the face is exactly the same from both lenses, despite the vast difference in focal length.

Here we see the same setup photographed with an 85mm lens next to the setup photographed with the 10mm lens. Again, the perspective is the same.

85mm lens, not cropped

85mm lens, not cropped

10mm lens, cropped 

10mm lens, cropped 

Here is a set of photos made with the following lenses: 100mm, 85mm, 50mm, 35mm, 24mm, 20mm, 16mm, 15mm fisheye, and 10mm. Despite the extreme barrel distortion bending everything but the center of the image, even the 15mm fisheye shows the same perspective on the face (see below).

100mm, 85mm, 50mm, 35mm, 24mm, 20mm, 15mm, and 10mm from the same camera position 58 inches from the subject

Here are the 85mm and the 15mm fisheye cropped to the same framing...

85mm full frame

85mm full frame

15mm fisheye cropped

15mm fisheye cropped

For another take on this, please visit my previous post about the Incredible Shrinking Space Needle that is an excerpted from my book, Anatomy of a Studio Portrait, which is available on Amazon

And a quiz of sorts... 

This is also from Anatomy of a Studio Portrait.Can you tell what focal length lens was used for each of the above images?

From left to right, top to bottom: 200mm, 135mm, 105mm, 100mm, 70mm, 57mm, 38mm, and 24mm.

 

 

To round things out, all of the photos in this set were made with the same 24mm lens, but the camera to subject distance was changed attempting to maintain the same size head in each image. Distances are 20 inches, 24 inchces, 28 inches, 39 inches, 51 inches, and 60 inches.


What about full frame vs crop frame?

Easy enough. Same setup with two cameras. Full frame (Canon 5Diii) with a 50mm lens and a 1.6 APS-C (crop) frame (Canon EOS M5) with a 35mm lens. Camera to subject distance is the same (36 inches) in both photos. The facial features are the same.

50mm lens on full frame camera

50mm lens on full frame camera

35mm lens on APS-C "crop frame" camera

35mm lens on APS-C "crop frame" camera

Let's take it further and compare the 50mm lens on full frame with a 10mm lens on crop frame...

50mm on full frame again

50mm on full frame again

10mm on APS-C cropped to match

10mm on APS-C cropped to match


I hope this helps explain how distance affects perspective. Yes, you can get very widely different perspectives by using different focal lengths, but that is when and because you move the camera. Telephoto (long) lenses tend to make us back up away from our subjects making the scene look more compressed. Wide angle (short) lenses invite us to move in closer to our subjects making the scene feel more wide open. It is our moving in and out, though, that changes the perspective. The focal length of the lens then determines how much of the scene will be captured.

For even more on this topic, please visit the Understanding Camera Lenses article at Cambridge In Colour. And take a look at the other tutorials there. Sean McHugh does a great job at explaining photographic concepts with text, illustrations, and calculators.

Cheers!
John

 

It is NOT the lens!!

It's the DISTANCE, %&^^^##

Here we go again. If you have read my harangues about this before you can go ahead and skip this one. But again I see photographers talking about lenses and perspective and blaming the lens. Even back in 2012 I was talking about the camera adding 10 pounds to people. So, let's try this again. All lenses show the same perspective from the same camera position.

Wide angle lenses don't expand a scene and long lenses don't compress a scene. The area of a photograph taken from the same camera position with the two lenses that is common to both photographs will have the exact same perspective, which includes the look of the drawing of the face in a portrait. What short lenses do is tempt us or allow us to move in closer to the subject. What long lenses do is make us back up away from the subject to fit the subject in the frame. But that is your decision. The lens suggests things, it doesn't dictate them.

 
Don’t let the lens dictate your camera position. Find your position, then pick the lens that fills the frame appropriately.
 

Let's look at two photographs. One was taken with a 24mm lens, the other with a 105mm lens and they were cropped to match the same size. Can you tell the difference?

Yes, there are some obvious giveaways. The 24mm photo has more depth of field (you can see it in the hair) because the subject was magnified less in the 24mm original. But in general, the look of the face is the same with both lenses. How can that be??? It is because the distance between the camera and the subject didn't change. That distance is what determines the look of the face. Don't blame the lens!

Above you can see the full frame and cropped images from three different focal lengths, 24mm, 50mm, and 105mm with the camera 24-inches from the subject. The perspective is the same in all three.

 
Just because a wide angle lens tempts you or allows you to move in close doesn’t mean that you have to!
 

Below is the same series, but this time from 86-inches away. Again, the perspective is the same for all three lenses. But it is different from the set above because the DISTANCE changed, not because of the lens.

Now let's go back to the slider. This time the two photos compared below are taken with the same lens (24mm), but at two different distances (24-inches and 48-inches). Now you see a big difference in the perspective. But these are made with the same lens--how could that be? It is the DISTANCE.

I really hope that this helps clear up the question about lenses and perspective and adding ten pounds to the subject and on and on and on. 

Yes, it is not practical to make a portrait with a short lens and then have to crop in and enlarge it. But again, that isn't the fault of the lens. You picked the wrong size wrench from your toolkit.  Don't blame the lens.

Thanks!

 

 

Another Perspective on Photography

Perspective -- The effect of viewpoint

Objects appear to shrink in size according to the distance from our eye.

Perspective comes from a Latin word, perspicere, “to look through.”

If you have a grouping of subjects in front of you (a scene) and you draw straight lines from all the points of the objects to a fixed point and then you take a plane surface (tracing paper, glass, etc.) and have those lines pass through that surface, the image formed on that surface is the perspective of that scene. 

In the case of our cameras and lenses, the lines will pass through the lens and be projected reversed left to right and inverted onto a surface (our image sensor or a piece of film). Either way, the projections are exactly the same. What you see are the relationships in sizes between the items in the scene. And this is how I will define perspective for this article. I will also take liberties with the word “distortion” in this article. Technically, distortion is one of the aberrations that can occur in a lens design. You can have barrel distortion where the corners of the image pull inward or pincushion distortion where the corners of the image pull outward. But for the sake of this article, I will use the word distort (distortion, distorted) to describe things that just don’t look quite right in the image. 

 
lens-distortion
 
Perspective projected between the objects and the viewer

Perspective projected between the objects and the viewer

Perspective projected through a lens

Perspective projected through a lens

If all we are to photograph are flat/2D objects on a single plane (such as a painting), we need to set up the camera parallel to the object and evenly centered on the object and we are probably done with the lesson on perspective. But we are often called on to photograph 3D scenes where we want to show the relationship between the objects in the scene. In doing so, we often want to keep parallel lines in the scene parallel in our photographs. So, we will start there. If the camera is held parallel to the lines in the subject they will be parallel on the sensor. But if the camera is tilted up or down (or left or right) from parallel we have the familiar situation of a building that looks like it is falling backward (by tilting the camera up) or we see parallel train tracks appearing to converge in the distance, or rectangular building appears to be a trapezoidal shape with one side being shorter than the other. These effects are also known as “keystoning” because the distortion resembles the shape of the keystone in a stone archway.  The closer you are to your subject(s) the more pronounced the effect will be.

This is because of relative distances. In the case of the building falling backwards, the effect indicates that the photographer is too close to the building and not able to get up high enough to photograph straight on. In order to frame the entire building the photographer points the camera upward to capture the top of the building and while the base of the building might be 10 units away, the top of the building might now be 20 or 30 (or more) units away. Objects closer to the lens (the base of the building) appear larger than objects farther away (the top of the building). So the building takes on a trapezoidal shape and looks like it is falling backwards. It does this when viewed with the naked eye or with a camera. However, with our eye our brain kicks in and compensates because it knows that the building isn’t falling. We expect that the top of the building is farther away and smaller. In a photograph, our brain doesn’t engage that process and we see the distortion.

There are a few solutions to this situation that we can see in this illustration.  

Camera A is in our basic situation. On the ground in front of and near to a building. Even with a wide angle lens, the camera cannot capture the entire height of the building while maintaining a parallel relationship to the building (red lines in the upper diagram). The first solution is to use a tilt-shift or perspective control lens. Using the shift function of the lens the photographer can set up the camera parallel to the building and shift the lens upward to move the image on the sensor to encompass the building (blue lines). Now the perspective on the building is actually wrong in the photo, but appears closer to what we want or expect to see. Personally, I often find these “corrected” photographs to be more disconcerting than the falling building in an uncorrected photograph. It is subtlety “just not right.” And a tilt/shift lens is usually an expensive option and not always readily available.

The next option is to raise the camera (B) up to a higher position, about midpoint on the height of the building so that the base and the top are the same distance from the camera.

The third option is the best, but usually not an option, and that is to move back a few hundred units so that the distance from camera to the base of the building and the distance from the camera to the top of the building are relatively the same. At this longer distance the camera can be parallel to the building or even off a little bit from parallel, and the lines will appear parallel.

The bottom diagram above will help understand what is happening. With camera A the top of the building is twice as far from the camera as the base of the building. So the top will be half as big as the bottom, leading to the “falling backwards” feeling in the photograph. With camera C, the base and the top of the building are virtually the same distance away, so will be the same size in the photograph. 

There is also a fourth option, that is to “correct” the image in post-processing. For this you will need to use a wide angle lens and be back far enough from the building to capture the building top to bottom (with the camera tilted up) so you can stretch out the top of the building to make it similar in size to the base.

Up until the last paragraph I have not mentioned the type of lens (wide angle, normal, telephoto) involved because all of the effects mentioned are determined by the camera to subject distance. When forced to be in close you are forced to use a shorter lens and this causes many people to think that the lens is the cause of the distortion. It is not. All lenses when used from the same position have the same perspective. Camera A or camera C are forced to use a wide angle lens because the field of view of a longer lens will only take in a small part of the building. As you back up to the position of camera C you can use a short, normal, or telephoto lens and the choice of lens will determine the magnification of the building and how much of the surrounding landscape will be included in the frame, but the perspective will be the same with any of the lenses.

This doesn’t only apply to buildings or other tall objects. The same thing happens if you are looking down on a subject. For example, if you are at the top of the grand canyon and photograph down into the canyon from the rim, the bottom of the canyon appears much smaller than the top. But if you were flying over and photographed the canyon from a very high altitude the effect would be much less extreme.

So far, we’ve dealt with one object in the scene and its relationship to itself. Perspective is also about the relationship of various objects in a scene. It can be a landscape with a barn, some trees, and mountain range in the background. Or it could be players on a sports field. Or it can be two wine glasses on a table. 

As with the building, the relationship between the glasses in the following examples is determined by the camera to subject distance. The focal length of the lens just determines what fits into the frame at that distance. The basic set up here is a white seamless paper backdrop with two wine glasses about 46” in front of the backdrop. The glasses are identical in size with one glass six inches in front of the other. There is also a snooted light on the backdrop simulating a spot light. All of that will remain the same and we will examine what happens when the camera is moved closer or farther from the glasses. 

We will start out with the camera in close, about 12” from the front wine glass. To fit the glasses into the frame I have selected a 24mm lens. At this close distance the front glass appears to be almost twice the size of the rear glass, even though they are physically the exact same height. The spotlight on the background is small and tight. The front glass is in focus, but the rear glass is soft and out of the range of the depth of field at the aperture used for the photo (f/10). 

24mm lens 12 inches from the front wine glass

24mm lens 12 inches from the front wine glass

Next, I will keep the 24mm lens on the camera but I am going to back up the camera to be 85 inches from the front glass. Obviously everything in the frame is a lot smaller because we are 7x farther away from the glasses. But now both glasses appear at almost the same size and the spot light on the background has grown larger (even though the light was not moved or changed in any way between shots.

24mm lens at 85 inches from the front wine glass

24mm lens at 85 inches from the front wine glass

Keeping the camera at the new 85 inch distance, let’s change to a 135mm lens and get this image. 

Again the glasses are almost the same size and the background spot is larger than in the first image above. People often call this look “telephoto compression,” but is it? In the next set of images I have taken the photo with the 24mm lens and cropped it to match the framing of the image taken with the 135mm lens. Remember what I said earlier, all lenses have the same perspective from the same camera position.

Here are the images with both lenses taken from the same camera position 85 inches from the glasses and cropped the same compared with the 24mm image that was taken at 12 inches from the glasses.

There are a few things to take notice of here. First, of course, is that even though the photos were taken by radically different focal length lenses (24mm and 135mm), the area of the images common to both images have the exact same perspective. Changing the focal length of the lens did not change perspective. But it did change the field of view and hence the size of the objects in the scene. And what about the spotlight on the background? Why did it change in size between the close in shot with the 24mm lens and the more distant shots with the 24mm and 135mm lenses? It is all back to relative distances. When in close (12”) with the 24mm lens the background is 46” away, about 4 times as far away as the glasses. When the camera is backed up to 85” the background is still 46” behind the glasses, but now the background is only about 1/3 farther away from the camera instead of 4 times as far away, making the background appear larger in the image.

The thing to remember here is that the closer you are to your subject, the smaller items behind the subject will appear. The farther you are from your subject, the larger the items behind your subject will appear. At first this might sound a bit backwards. Shouldn’t items in the photo get smaller as you move back away from them? Yes, they do. But foreground items get smaller much faster than background items as you move back. Then the usual option is to use a longer lens to "zoom" in on the subject and make it larger (along with the background). As you move back the scene compresses. This compression is NOT caused by the lens you use, but it is most noticeable in photos taken with longer lenses because they crop in on the scene and only show you a smaller area than you would see with a shorter lens. The area of the scene that is common to both photos will have the same compressed look. I will come back to this once more a bit later.

Next look at the depth of field in the images. The left image (24mm) has much more depth of field. Both glasses are reasonably in focus, though overall quality of the left image is lower because it has been enlarged so much. In the photo taken with the 135mm lens the front glass is reasonably sharp, but the back glass is beyond the depth of field at f/10 and has gone soft. Does that sound familiar? Go back to the 24mm full frame image above and see that the depth of field is about the same as in the 135mm full frame. Let that sink in. The depth of field with the 24mm and the 135mm lenses is the same when the size of the subject is the same in the frame. The focal length of the lens on its own is not a factor in determining the depth of field in a photograph. It is the magnification of the subject (focal length plus camera to subject distance) that determines the depth of field at any given aperture (f/10 in the case of these examples).

I hope that at this point you are starting to take on the mantra, “it is all about the distance.” Take a look at some of my lighting articles, where you will see a similar situation. The closer your light (camera) is to your subject, the darker (smaller) the background will be. The farther your light (camera) is from your subject, the lighter (larger) your background will be. We can even extend this to depth of field. The closer your camera is to your subject (with the same focal length lens), the less depth of field you have and the further you are from your subject (with the same focal length lens) the more depth of field you have. It is all about the distance.

OK. One more time through this to drive home what happens as you move in closer or move back farther from your subject. This time a landscape scene where we have a house with a mountain range in the distance behind it. Start with the camera 1000 feet away from the house and 5000 feet from the mountains. Now move in closer to be 500 feet from the house. The house is now twice as close and consequently twice as large as it was before. But the mountains in the background went from 5000 feet away to 4500 feet away, hardly any change at all. So while the house doubled in size, the mountains stayed the same size and now appear much smaller in relation to the house than they were originally at 1000 feet from the house.

We can turn that around if that makes it easier to understand. Same house and mountains. We set up the camera 500 feet in front of the house, which is 4500 feet in front of the mountain. Next we back up the camera to be 1000 feet from the house and 5000 feet from the mountain. The house became half the size it was before, but the mountains remained the same size, making the mountains appear that much larger in relation to the house.

Again notice that no mention was made of the focal length of the lens used for these photos. These changes in proportions are independent of the lens used. There is a famous quote from Robert Capa stating that, "if your photos are not good enough, you are not close enough."  There are multiple ways to get closer to your subjects. Your lenses are like a set of tools, you select the right size for the job. The camera to subject distance determines the perspective and then you chose the lens with the field of view that frames the scene the way you want. As a journalist you might be working on an intimate story and want to be in physically close to your subjects. A short/wide angle lens allows you to get in closer, making a stronger impact, giving a feeling that the viewer is right there next to the subject of the photograph. But at other times or in other situations you might want to back away from the subject to increase density, then a longer lens is the choice to bring things closer. It depends on the story you want to tell in your photograph. 

I hope that helps clear up some misunderstandings about lenses and perspective. But there is still more to it. How you view the photographs. But that's fodder for another article about viewing distances and enlargements. For now, please go out and make some meaningful photographs!


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John Cornicello

 

 

It's all about distance

A good photograph is knowing where to stand -- Ansel Adams

Just about everything in photography is a balancing act. Shutter speed vs aperture, ISO vs noise, hard vs soft light, and on and on. One thing I don't see mentioned often is camera to subject distance. The balance here is the perspective--the relationship between the elements in the scene. The closer the camera is to the subject the smaller the background appears in relation to the subject. That's it. That's basically what you need to know.

I see a lot of people confuse this with lens focal length. You know--the old "telephoto lenses compress the scene" line. It is not the lens that is compressing the scene. All lenses have the same perspective when used at the same camera to subject distance. What happens is that we usually use longer lenses from greater distances between the camera and subject. Now go back and re-read  the last three sentences of the previous paragraph (they are in italic).

What the focal length does is determine the magnification of the subject and, along with the sensor size, the field of view. It doesn't alter the perspective. Let's look at the following animation. It has five frames that were all taken with the same camera and lens. The camera has a full frame 35mm sensor and the lens is a 35mm prime lens, all taken at the same aperture (f/2.8). For each subsequent frame in the illustration I took a step back (greater camera to subject distance) and then cropped the mannequin head to the same size in post-processing. I started at about 12 inches and finished at about 10 feet between camera and subject. The subject and background remained stationary, with the mannequin being 15 inches in front of the backdrop.

perspective.gif

Notice that as the camera is moved back away from the subject a few things happen. One, the look of the face changes radically in the first couple of frames. When in close the nose is much closer to the camera than the eyes and the ears, making the nose seem larger in comparison and also making the full face look narrower than it really is. this is caused by the camera being in close. The same relationship will be there with longer lenses, but their limited angle of view, greater magnification, and further closest focusing distance may not allow you to get the photo. You have to trust this condition being caused by distance and not focal length.

In the subsequent frames you see the look of the face compressing. As the camera moves back the relative sizes of the nose, eyes, and ears become closer and the image "compresses" even though I am still using the same wide-angle 35mm lens. Also notice that the background pattern gets larger as the camera is backed up. Go back to the italicized lines in the first paragraph again.

Just for comparison, here are a few more images. In the first set both images were taken at the same camera to subject distance using the 35mm lens and a 200mm lens. Notice that the perspective is the same. What changes between these images is the crop (the 35mm shot is cropped greatly, sacrificing resolution, the 200mm shot is the full frame) and Depth of Field (much larger in the image made with the 35mm lens, but that is another balancing act for another post).

200mm-vs-35mm.jpg

In this next pair of images both were taken with the 35mm lens, but at two different distances. In close you see the perspective "expansion" that comes from being in close. In the more distant image you see the perspective "compression" that is usually attributed to long lenses, but just comes from the distance. There is also an inset image to show the full frame that the image was cropped from. From the crop you can see that this isn't practical for most situations, but is here to show the point that the determining factor in the perspective of the image is distance, not focal length.

35mm-comparison.jpg

Bottom line is that you compress the scene by moving back, away from your subject. Then you use a long focal length lens to make the subject larger in the frame so you don't have to crop in and lose quality and resolution.

Thanks for following along! Hope this all made sense. Please follow up with any questions in the comments below.

John