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2. Light becomes partially polarized as it reflects off nonmetallic surfaces such as glass, water, or a road surface. The polarized light consists of waves vibrate in a plane that is ____________ (parallel, perpendicular) to the reflecting surface.

First, though, if you haven’t used a polarizing filter before, one of the considerations to factor in is that they cut down the amount of light coming into the lens. Precisely how much varies filter to filter, but it’s generally somewhere around 1 to 2 stops. Cheaper filters tend to be on the higher end of that, whereas better-quality (and usually more expensive) filters tend to be around 1.2-1.4 stops. There are also CPL filters known as high-transmission, or HT, that block less light and typically have less of a polarizing effect.

Our model of the polarization of light provides some substantial support for the wavelike nature of light. It would be extremely difficult to explain polarization phenomenon using a particle view of light. Polarization would only occur with a transverse wave. For this reason, polarization is one more reason why scientists believe that light exhibits wavelike behavior.

Because of the way that circular polarizing filters work, there can be some variance in the strength of the effect based on the rotation. And the “right” spot is something you just eyeball. I’ve tried hard to keep these consistent with the point of rotation where the maximum effect is applied, but it’s naturally an imprecise process.

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Polarization can also occur by the refraction of light. Refraction occurs when a beam of light passes from one material into another material. At the surface of the two materials, the path of the beam changes its direction. The refracted beam acquires some degree of polarization. Most often, the polarization occurs in a plane perpendicular to the surface. The polarization of refracted light is often demonstrated in a Physics class using a unique crystal that serves as a double-refracting crystal. Iceland Spar, a rather rare form of the mineral calcite, refracts incident light into two different paths. The light is split into two beams upon entering the crystal. Subsequently, if an object is viewed by looking through an Iceland Spar crystal, two images will be seen. The two images are the result of the double refraction of light. Both refracted light beams are polarized - one in a direction parallel to the surface and the other in a direction perpendicular to the surface. Since these two refracted rays are polarized with a perpendicular orientation, a polarizing filter can be used to completely block one of the images. If the polarization axis of the filter is aligned perpendicular to the plane of polarized light, the light is completely blocked by the filter; meanwhile the second image is as bright as can be. And if the filter is then turned 90-degrees in either direction, the second image reappears and the first image disappears. Now that's pretty neat observation that could never be observed if light did not exhibit any wavelike behavior.

The most common method of polarization involves the use of a Polaroid filter. Polaroid filters are made of a special material that is capable of blocking one of the two planes of vibration of an electromagnetic wave. (Remember, the notion of two planes or directions of vibration is merely a simplification that helps us to visualize the wavelike nature of the electromagnetic wave.) In this sense, a Polaroid serves as a device that filters out one-half of the vibrations upon transmission of the light through the filter. When unpolarized light is transmitted through a Polaroid filter, it emerges with one-half the intensity and with vibrations in a single plane; it emerges as polarized light.

Polarization is also used in the entertainment industry to produce and show 3-D movies. Three-dimensional movies are actually two movies being shown at the same time through two projectors. The two movies are filmed from two slightly different camera locations. Each individual movie is then projected from different sides of the audience onto a metal screen. The movies are projected through a polarizing filter. The polarizing filter used for the projector on the left may have its polarization axis aligned horizontally while the polarizing filter used for the projector on the right would have its polarization axis aligned vertically. Consequently, there are two slightly different movies being projected onto a screen. Each movie is cast by light that is polarized with an orientation perpendicular to the other movie. The audience then wears glasses that have two Polaroid filters. Each filter has a different polarization axis - one is horizontal and the other is vertical. The result of this arrangement of projectors and filters is that the left eye sees the movie that is projected from the right projector while the right eye sees the movie that is projected from the left projector. This gives the viewer a perception of depth.

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Polarizer Filter Sheet

While I’ve been spending some time down at Washington DC’s Tidal Basin for the annual blooming of the cherry blossoms I decided to take the opportunity to do some side-by-side testing of polarizing filters (aka CPL filters).

This one is in their “high-transmission” range, which lets more light in but trades off against a lighter polarizing effect. That makes it a good choice for low-light situations where you need to squeeze out all the available light you can while still having a polarizing effect. On a wide-angle lens like the 24mm, that more subtle effect is an advantage because it doesn’t result in as much banding. And just in looking at this through the camera, I could see that its polarizing effect of this was less aggressive than some of the others–in bright conditions and scenes that don’t include large smooth regions ripe for polarizing (like the sky in this shot) it can be a little trickier to eyeball where to rotate the filter to.

1. Suppose that light passes through two Polaroid filters whose polarization axes are parallel to each other. What would be the result?

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It is possible to transform unpolarized light into polarized light. Polarized light waves are light waves in which the vibrations occur in a single plane. The process of transforming unpolarized light into polarized light is known as polarization. There are a variety of methods of polarizing light. The four methods discussed on this page are:

Unpolarized light can also undergo polarization by reflection off of nonmetallic surfaces. The extent to which polarization occurs is dependent upon the angle at which the light approaches the surface and upon the material that the surface is made of. Metallic surfaces reflect light with a variety of vibrational directions; such reflected light is unpolarized. However, nonmetallic surfaces such as asphalt roadways, snowfields and water reflect light such that there is a large concentration of vibrations in a plane parallel to the reflecting surface. A person viewing objects by means of light reflected off of nonmetallic surfaces will often perceive a glare if the extent of polarization is large. Fishermen are familiar with this glare since it prevents them from seeing fish that lie below the water. Light reflected off a lake is partially polarized in a direction parallel to the water's surface. Fishermen know that the use of glare-reducing sunglasses with the proper polarization axis allows for the blocking of this partially polarized light. By blocking the plane-polarized light, the glare is reduced and the fisherman can more easily see fish located under the water.

Hoya 72mm DMC PRO1 Digital Circular Polarizer Glass Filter Wide Band Circular PL. Eliminates discoloration in the viewfinderDMC: Digital Multi-Coated Filter. Greatly reduces the appearance of lens flare and ghosting caused by... Check Price at Amazon Hoya have traditionally targeted the consumer end of the market, aiming for good filters at affordable prices. This one includes a front thread, which is handy if you want to attach some other kind of filter or threaded accessory on top of it.

Images and product information from Amazon PA-API were last updated on 2024-12-13 at 08:43. Product prices and availability are accurate as of the date/time indicated and are subject to change. Any price and availability information displayed on Amazon Site at the time of purchase will apply to the purchase of this product.

Cameralens filters

In use, I ran into an issue I’ve come across with other Hoya filters I’ve tried–a slight color shift. The results are a little muddier and not quite as crisp as the other filters here, and it’s a shade more aggressive than the others here.

Polarization also occurs when light is scattered while traveling through a medium. When light strikes the atoms of a material, it will often set the electrons of those atoms into vibration. The vibrating electrons then produce their own electromagnetic wave that is radiated outward in all directions. This newly generated wave strikes neighboring atoms, forcing their electrons into vibrations at the same original frequency. These vibrating electrons produce another electromagnetic wave that is once more radiated outward in all directions. This absorption and reemission of light waves causes the light to be scattered about the medium. (This process of scattering contributes to the blueness of our skies, a topic to be discussed later.) This scattered light is partially polarized. Polarization by scattering is observed as light passes through our atmosphere. The scattered light often produces a glare in the skies. Photographers know that this partial polarization of scattered light leads to photographs characterized by a washed-out sky. The problem can easily be corrected by the use of a Polaroid filter. As the filter is rotated, the partially polarized light is blocked and the glare is reduced. The photographic secret of capturing a vivid blue sky as the backdrop of a beautiful foreground lies in the physics of polarization and Polaroid filters.

The transverse nature of an electromagnetic wave is quite different from any other type of wave that has been discussed in The Physics Classroom Tutorial. Let's suppose that we use the customary slinky to model the behavior of an electromagnetic wave. As an electromagnetic wave traveled towards you, then you would observe the vibrations of the slinky occurring in more than one plane of vibration. This is quite different than what you might notice if you were to look along a slinky and observe a slinky wave traveling towards you. Indeed, the coils of the slinky would be vibrating back and forth as the slinky approached; yet these vibrations would occur in a single plane of space. That is, the coils of the slinky might vibrate up and down or left and right. Yet regardless of their direction of vibration, they would be moving along the same linear direction as you sighted along the slinky. If a slinky wave were an electromagnetic wave, then the vibrations of the slinky would occur in multiple planes. Unlike a usual slinky wave, the electric and magnetic vibrations of an electromagnetic wave occur in numerous planes. A light wave that is vibrating in more than one plane is referred to as unpolarized light. Light emitted by the sun, by a lamp in the classroom, or by a candle flame is unpolarized light. Such light waves are created by electric charges that vibrate in a variety of directions, thus creating an electromagnetic wave that vibrates in a variety of directions. This concept of unpolarized light is rather difficult to visualize. In general, it is helpful to picture unpolarized light as a wave that has an average of half its vibrations in a horizontal plane and half of its vibrations in a vertical plane.

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3. Consider the three pairs of sunglasses below. Identify the pair of glasses is capable of eliminating the glare resulting from sunlight reflecting off the calm waters of a lake? _________ Explain. (The polarization axes are shown by the straight lines.)

Referring to the above question, the glare is the result of a large concentration of light aligned parallel to the water surface. To block such plane-polarized light, a filter with a vertically aligned polarization axis must be used.

The alignment of these molecules gives the filter a polarization axis. This polarization axis extends across the length of the filter and only allows vibrations of the electromagnetic wave that are parallel to the axis to pass through. Any vibrations that are perpendicular to the polarization axis are blocked by the filter. Thus, a Polaroid filter with its long-chain molecules aligned horizontally will have a polarization axis aligned vertically. Such a filter will block all horizontal vibrations and allow the vertical vibrations to be transmitted (see diagram above). On the other hand, a Polaroid filter with its long-chain molecules aligned vertically will have a polarization axis aligned horizontally; this filter will block all vertical vibrations and allow the horizontal vibrations to be transmitted.

Polarization has a wealth of other applications besides their use in glare-reducing sunglasses. In industry, Polaroid filters are used to perform stress analysis tests on transparent plastics. As light passes through a plastic, each color of visible light is polarized with its own orientation. If such a plastic is placed between two polarizing plates, a colorful pattern is revealed. As the top plate is turned, the color pattern changes as new colors become blocked and the formerly blocked colors are transmitted. A common Physics demonstration involves placing a plastic protractor between two Polaroid plates and placing them on top of an overhead projector. It is known that structural stress in plastic is signified at locations where there is a large concentration of colored bands. This location of stress is usually the location where structural failure will most likely occur. Perhaps you wish that a more careful stress analysis were performed on the plastic case of the CD that you recently purchased.

Here’s an illustration of what that light loss looks like in practical terms. The first shot is without a polarizing filter. The second is with a polarizing filter but using exactly the same exposure settings (aperture, shutter speed, ISO, etc.) without compensating for the light loss.

A picket-fence analogy is often used to explain how this dual-filter demonstration works. A picket fence can act as a polarizer by transforming an unpolarized wave in a rope into a wave that vibrates in a single plane. The spaces between the pickets of the fence will allow vibrations that are parallel to the spacings to pass through while blocking any vibrations that are perpendicular to the spacings. Obviously, a vertical vibration would not have the room to make it through a horizontal spacing. If two picket fences are oriented such that the pickets are both aligned vertically, then vertical vibrations will pass through both fences. On the other hand, if the pickets of the second fence are aligned horizontally, then the vertical vibrations that pass through the first fence will be blocked by the second fence. This is depicted in the diagram below.

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Tiffen 77CP 77mm Circular Polarizer Essential for outdoor photographyDeepens intensity of blue skies Check Price at Amazon Another company that has long aimed at the affordable end of the market, Tiffen started with filters but has since branched out into acquiring some other notable accessory companies like Domke and Steadicam. Tiffen actually puts out a whole range of polarizers, including a warm polarizer and a low-light polarizer. This one is their general-use model. It has a front thread; there’s also a slimmer version for wide-angle lenses that dispenses with the thread.

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There are, of course, other polarizing filters available, and as the opportunity arises, I’ll aim to add them to this list.

The first filter will polarize the light, blocking one-half of its vibrations. The second filter will have no affect on the light. Being aligned parallel to the first filter, the second filter will let the same light waves through.

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Polarizing lens glasses

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A Polaroid filter is able to polarize light because of the chemical composition of the filter material. The filter can be thought of as having long-chain molecules that are aligned within the filter in the same direction. During the fabrication of the filter, the long-chain molecules are stretched across the filter so that each molecule is (as much as possible) aligned in say the vertical direction. As unpolarized light strikes the filter, the portion of the waves vibrating in the vertical direction are absorbed by the filter. The general rule is that the electromagnetic vibrations that are in a direction parallel to the alignment of the molecules are absorbed.

Nikon 77 mm Circular Polar II Filter Nikon polarising 77mm filterDramatically reduces reflections from water and glass as well as rendering blue skies darker Check Price at Amazon Nikon are better known for their lenses, but they’ve always applied that outstanding expertise in working with optical glass to make top-shelf filters. They don’t tend to go in for the fancy model names or marketing, but you can count on a Nikon filter being very good. It includes a front thread.

B + W Circular Polarizer Kaesemann - Xtra Slim Mount (XS-PRO), HTC, 16... A MUST-HAVE – Whether you’re indoors or outdoors, the right polarizing filter is a must for every...EASY TO USE CAMERA FILTER - The Käsemann polarization filter can easily be screwed onto the filter... Check Price at Amazon B+W consistently make some of the best filters available. I’ve used a lot of their filters over the years and am yet to come across one that I didn’t think was excellent. Like the others tested here, this uses coated glass for protection and glare reduction. This one also includes a front thread.

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Polarized cameraFilter

In the same manner, two Polaroid filters oriented with their polarization axes perpendicular to each other will block all the light. Now that's a pretty cool observation that could never be explained by a particle view of light.

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In practice, polarizing filters are something I use less often these days. But they can make a dramatic difference, especially on skies and water.

Polarization of light by use of a Polaroid filter is often demonstrated in a Physics class through a variety of demonstrations. Filters are used to look through and view objects. The filter does not distort the shape or dimensions of the object; it merely serves to produce a dimmer image of the object since one-half of the light is blocked as it passed through the filter. A pair of filters is often placed back to back in order to view objects looking through two filters. By slowly rotating the second filter, an orientation can be found in which all the light from an object is blocked and the object can no longer be seen when viewed through two filters. What happened? In this demonstration, the light was polarized upon passage through the first filter; perhaps only vertical vibrations were able to pass through. These vertical vibrations were then blocked by the second filter since its polarization filter is aligned in a horizontal direction. While you are unable to see the axes on the filter, you will know when the axes are aligned perpendicular to each other because with this orientation, all light is blocked. So by use of two filters, one can completely block all of the light that is incident upon the set; this will only occur if the polarization axes are rotated such that they are perpendicular to each other.

I’ve been putting some of the most popular circular polarizing filters (CPL filters) to the test. Here are some side-by-side results.

A light wave is an electromagnetic wave that travels through the vacuum of outer space. Light waves are produced by vibrating electric charges. The nature of such electromagnetic waves is beyond the scope of The Physics Classroom Tutorial. For our purposes, it is sufficient to merely say that an electromagnetic wave is a transverse wave that has both an electric and a magnetic component.

This one definitely has a stronger polarizing effect than the B+W one above, but its optics are, as expected, excellent.

Polarizing Filter for phone

Polarizedlens filter Canon

Considering its lower price point (Tiffen’s MSRP is $44.99), this one came as a nice surprise. While it has a slightly cooler color, its performance is remarkably good, rivaling even the much more expensive Nikon filter. The Nikon’s effect is a bit smoother, especially near the edges, but the Tiffen performs surprisingly well. For the price, it’s very hard to argue with.

It’s worth noting that even though this is a Nikon filter, that does not mean you can only use it on Nikon lenses. It has a standard filter thread that can be found on most DSLR lenses, regardless of the brand of the lens.

They were shot on a Nikon D810 with a Nikon AF-S NIKKOR 24mm f/1.4G ED lens, with the camera mounted on a sturdy tripod. The 24mm lens has a 77mm filter thread. As you can see in these examples, there are issues when using a circular polarizer on a wide-angle lens, but I did that deliberately because it also shows more clearly how aggressively the polarizing effect is being applied.

Since I had all of the filters on hand, I shot a series of side-by-side tests. These are all on the same camera with the same lens with exactly the same exposure settings (including white balance).