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Encyclopedia > Projectionist

A movie projector is an opto-mechanical device for displaying moving pictures. Most of the optical and mechanical elements, except for the illumination, are present in movie cameras. For other uses see film (disambiguation) Film refers to the celluliod media on which movies are printed Film — also called movies, the cinema, the silver screen, moving pictures, photoplays, picture shows, flicks, or motion pictures, — is a field that encompasses motion pictures as an art form or as part of... The Eyemo spyder model 71QM in action, fitted with a metal accessory on the camera door. ...

Contents

Physiology

The viewing of motion pictures appears continuous only because of the slow response of the eye, optic nerves, and brain to changes (called persistence of vision). If your persistence was very short you would perceive a movie as a single frame picture, followed by black, followed by the next frame, etc. The optic nerve is the nerve that transmits visual information from the retina to the brain. ... According to the theory of persistence of vision, the perceptual processes of the brain or the retina of the human eye retains an image for a split second. ...


It is possible to view the black space between frames and the passing of the shutter by the following technique:


Close your eyelids, then periodically rapidly blink open and closed. If done fast enough you will be able to randomly "trap" the image between frames, or during shutter motion. This will not work with television due to the persistence of the phosphors nor with LCD or DLP light projectors due to the continuity of image, although certain color artifacts may appear with some digital projection technologies.


Principles of operation

Projection elements

As in a slide projector there are essential optical elements: A carousel slide projector, the most common form of projector A slide projector is an opto-mechanical device to view photographic slides. ...


Light source

An incandescent lamp or an electric arc light produces illuminating photons. The traditional carbon arc or modern xenon arc light source produces sufficient heat to burn the film should the film remain stationary for more than a fraction of a second. Xenons were introduced in the 1950s and are now the more common source, being easier and safer to maintain for the most part. The incandescent light bulb uses a glowing wire filament heated to white-hot by electrical resistance, to generate light (a process known as thermal radiation). ... The 300,000-watt Plasma Arc Lamp in the Infrared Processing Center (IPC) at Oak Ridge National Laboratory An arc lamp is a device that produces light by the sparking (or arcing, from voltaic arc or electric arc) of a high current between two carbon rod electrodes. ... The photon can be perceived as a wave or a particle, depending on how it is measured In physics, the photon (from Greek φοτος, meaning light) is a quantum of the electromagnetic field, for instance light. ...


Douser

(Also spelled dowser.)


A metal blade which cuts off light before it can get to the film - usually this is part of the lamphouse. Some projectors have both a manually controlled and electronically one each; the electronic one is used for changeovers. Dousers protect the film when the lamp is on but the film is not moving, preventing the film from melting from prolonged exposure to the direct heat of the lamp.


Reflector and condenser lens

A curved reflector redirects light that would otherwise be wasted toward the condensing lens.


A positive curvature lens concentrates the reflected and direct light toward the film gate. A lens is a device for either concentrating or diverging light, usually formed from a piece of shaped glass. ...


Film gate and single image

A single image of the series of images comprising the movie is positioned and held flat within an aperture called the gate. The gate also provides a slight amount of friction so that the film does not advance or retreat except when driven to advance the film to the next image.


Shutter

A rotating petal or gated cylindrical shutter interrupts the emitted light during the time the film is advanced to the next frame. Modern shutters are designed with a flicker-rate of two or even sometimes three times the frame rate of the film, so as to reduce the perception of screen flickering. (See Frame rate and Flicker fusion threshold.) Frame rate, or frame frequency, is the measurement of how quickly an imaging device can produce several consecutive images, called frames. ... The flicker fusion threshold (or flicker fusion rate) is a concept in the psychophysics of vision. ...


Imaging lens and Aperture plate

A lens system with multiple optical elements directs the image of the film to a viewing screen. Different lenses are used for different aspect ratios. Each of these lenses comes with an aperture plate, a piece of metal with a precisely cut rectangular hole in the middle of equivalent aspect ratio. The aperture plate is placed just behind the gate, and masks off any light from hitting the image outside of the area intended to be shown (most modern films have extra image on the frame that is meant to be masked off in the projector). A lens is a device for either concentrating or diverging light, usually formed from a piece of shaped glass. ...


Viewing screen

In most cases this is a reflective surface which may be either aluminized (for high contrast in moderate ambient light) or a white surface with small glass beads (for high brilliance under dark conditions). In a commercial theater, the screen also has hundreds of small, evenly spaced holes in order to allow the passage of air to and from the speakers and subwoofer which often are directly behind it.


Film transport elements

Film supply and takeup

Two reel system

The two reel system is also known as a changeover system, after the switching mechanism that operates between the end of one reel and the beginning of the next. In a two reel system the feed reel has a slight drag to maintain tensioning in the film, while the takeup reel is driven with a constant tension by a mechanism that is allowed to slip.


The two reel system was almost universally used before the advent of the single reel system for movie theaters in order to be able to show feature-length films. Although one reel long-play systems tend to be more popular with the newer multiplexes, the two reel system is still in significant use to this day. The projector operator operates two projectors, threading one with the next reel while the other projector plays the current reel. As the current reel approaches its end, the projectionist looks for cues, also known as cigarette burns, at the upper right corner of the picture. Usually these are dots or circles, although they can also be slashes. (Some older films have occasionally been known to have used squares or triangles, and even positioned the cues in the middle of the right edge of the picture.) The first cue appears twelve feet (3.7 m) or eight seconds at 24 frame/s before the end of the reel, and signals the projectionist to start the motor of the projector containing the next reel. After another ten and a half feet (3.2 m) or seven seconds at 24 frame/s, the changeover cue should appear, which signals the projectionist to actually make the changeover. When this second cue appears, the projectionist has one and a half feet (457 mm) or one second at 24 frame/s to make the changeover - if it doesn't occur within one second, the tail black leader of the exhausted reel will be projected on the screen. On some projectors, the operator would be alerted to the change by a bell that operated when the feed reel rotation exceeded a certain speed (that reel rotates faster as the film is exhausted), although many such projectors do not have such an auditory system.


During the actual operation of a changeover, the two projectors use an interconnected electrical control connected to the changeover button so that as soon as the button is pressed, the douser on the old reel is closed in sync with the douser for the new reel. If done properly, a changeover should be virtually unnoticeable to an audience.


The size of the reels can vary based on the projectors, but generally films are divided and distributed in reels of roughly 2000 feet (610 m) about 22 minutes at 24 frame/s. Some projectors can even accommodate up to 6000 feet (1,830 m), which minimizes the number of changeovers in a showing. Certain countries also divide their film reels up differently; Russian films, for example, often come on 1000 foot (305 m) reels, although it's likely that most projectionists working with changeovers would combine them into longer reels of at least 2000 feet (610 m), to minimize changeovers and also give sufficient time for threading and any possibly needed troubleshooting time.


Single reel system

There are two largely used single reel systems (also known as long-play systems) today: the tower system (vertical feed and takeup) and the platter system (horizontal feed and takeup).


The tower system largely resembles the two reel system, except in that the tower itself is generally a separate piece of equipment used with a slightly modified standard projector. The feed and takeup reels are held vertically on the axis, except behind the projector, on oversized spools with 12,000 foot (3,660 m) capacity or about 133 minutes at 24 frame/s. This large capacity alleviates the need for a changeover on an average-length feature; all of the reels are spliced together into one giant one. The tower is designed with four spools, two on each side, each with its own motor. This allows the whole spool to be immediately rewound after a showing; the extra two spools on the other side allow for a film to be shown while another is being rewound or even made up directly onto the tower. Each spool requires its own motor in order to set proper tensioning for the film, since it has to travel (relatively) much further between the projector film transport and the spools. As each spool gains or loses film, the tension must be periodically checked and adjusted so that the film can be transported on and off the spools without either sagging or snapping.


In a platter system the individual 20 minute reels of film are also spliced together as one large reel, but the film is then wound onto a horizontal rotating table called a platter. Three or more platters are stacked together to create a platter system. Most of the platters in a platter system will be occupied by film prints; whichever platter happens to be empty serves as the "take-up reel" to receive the film that is playing from another platter.


The way the film is fed from the platter to the projector is not unlike an eight-track audio cartridge. Film is unwound from the center of the platter through a mechanism called a "brain" which controls the speed of the platter's rotation so that it matches the speed of the film as it is fed to the projector. The film winds through a series of rollers from the platter stack to the projector, through the projector, through another series of rollers back to the platter stack, and then onto the platter serving as the take-up reel. The 8-track cartridge is a now-obsolete audio storage magnetic tape cartridge technology, popular during the 1960s and 1970s. ...


This system makes it possible to project a film several times a day without needing to rewind it. As the projectionist threads the projector for each showing, he transfers the brain mechanism from the empty platter to the full platter and the film then plays back onto the platter it came from. In the case of a double feature, each film plays from a full platter onto an empty platter, swapping positions on the platter stack throughout the day.


The advantage of a platter is that the film isn't subjected to the stresses of being rewound each show. Rewinding risks rubbing the film against itself, which can cause scratching of the film and smearing of the emulsion which carries the pictures. The disadvantages of the platter system are that the film can acquire diagonal scratches on it if proper care is not taken while threading film from platter to projector, and the film has more opportunity to collect dust and dirt as long lengths of film are exposed to the air. A clean projection booth kept at the proper humidity is of great importance, as are cleaning devices that can remove dirt from the film print as it plays.


Automation and the rise of the multiplex

The single reel system can allow for the complete automation of the projection booth operations, given the proper auxiliary equipment. Since films are still transported in multiple reels they must be joined together when placed on the projector reel and taken apart when the film is to be returned to the distributor. It is the complete automation that has enabled the modern "multiplex" cinema - a single site typically containing from 16 to 24 theaters with only a few projection and sound technicians, rather than a platoon of projectionists. The multiplex also offers a great amount of flexibility to a theater operator, enabling multiple theaters to exhibit the same popular production in multiple theaters with staggered starting times. Automation (ancient Greek: = self dictated) or Industrial Automation is the use of computers to control industrial machinery and processes, replacing human operators. ... A typical megaplex (AMC Rolling Hills 20 in Rolling Hills Estates, California). ...


Feed and extraction sprockets

Smooth wheels with triangular pins called sprockets engage perforations punched into one or both edges of the film stock. These serve to set the pace of film movement through the projector and any associated sound playback system. Sprockets was a fictional television chat show created by actor, writer and comedian Mike Myers for the American sketch comedy show Saturday Night Live. ...


Film loop

As with motion picture cameras, the intermittent motion of the gate requires that there be loops above and below the gate in order to serve as a buffer between the constant speed enforced by the sprockets above and below the gate and the intermittent motion enforced at the gate. Some projectors also have a sensitive trip pin above the gate to guard against the upper loop becoming too big. If the loop hits the pin, it will close the dousers and stop the motor to prevent an excessively large loop from jamming the projector. Buffer can have various meanings: In chemistry, the term buffer refers to a buffer solution, usually used to stabilize the acidity (pH) of a liquid. ...


Film gate pressure plate

A spring loaded pressure plate functions to align the film in a consistent image plane, both flat and perpendicular to the optical axis. It also provides sufficient drag to prevent film motion during the frame display, while still allowing free motion under control of the intermittent mechanism. The plate also has spring-loaded runners to help hold film while in place and advance it during motion.


Intermittent mechanism

For smaller gauge projectors, a pawl mechanism engages the film's sprocket hole one side, or holes on each side. This pawl advances only when the film is to be moved to the next image. As the pawl retreats for the next cycle it is drawn back and does not engage the film. This is similar to the claw mechanism in a motion picture camera.


In 35 mm and 70 mm projectors, there usually is a special sprocket immediately underneath the pressure plate known as the intermittent sprocket. Unlike the all the other sprockets in the projector, which run continuously, the intermittent sprocket operates in tandem with the shutter, and only moves while the shutter is blocking the lamp, so that the motion of the film cannot be seen. It also moves in a discrete amount at a time, equal to the number of perforations that make up a frame (4 for 35 mm, 5 for 70 mm).


IMAX projectors, interestingly, don't use an intermittent mechanism at all; they use what's known as the rolling loop method, in which each frame is sucked into the gate by a vacuum, and positioned by registration pins for all its perforations on that frame.


Types of projectors

Projectors are classified by the size of the film used. Typical film sizes:


8 mm

Long used for home movies before the video camera, this uses double sprocketed 16 mm film, which is run through the camera twice. The 16 mm film is then split lengthwise into two 8 mm pieces that are sliced to make a single projectable film with sprockets on one side. See the 8 mm film article for more information. 8 mm film is a motion picture film format where the filmstrip is eight millimeters wide. ...


Super 8

Developed by Kodak this film stock uses very small sprocket holes close to the edge that allow more of the film stock to be used for the images. This increases the quality of the image. The film is premade in the 8 mm width, not split during processing as is the earlier 8 mm. Magnetic stripes could be added to carry encoded sound to be added after film development. See the Super 8 mm film article for more information. Eastman Kodak Company (NYSE: EK) is a large multinational public company producing photographic equipment. ... Super 8mm film is a motion picture film format that was developed in the 1960s and released on the market in 1965 by Eastman Kodak as an improvement of the older 8mm home movie format. ...


16 mm

This was a popular format for audio-visual use in schools and as a high-end home entertainment system before the advent of broadcast television. It is also the smallest format that can carry an optically encoded sound track. See the 16 mm film article for more information. 16mm film was initially created in the 1920s as an inexpensive amateur alternative to the conventional 35 mm film format. ...


35 mm

The most common film size for theatrical productions during the first half of the 20th century. In fact, the common 35 mm camera, developed by Leica was designed to use this film stock and was originally intended to be used for test shots by movie directors and cinematographers. See the 35 mm film article for more information. the Leica I, 1925, 1:3,5 Leica is a camera produced by a German company of the same name. ... Simulated 35 mm film with soundtracks _ The outermost strips (on either side) contain the SDDS soundtrack as an image of a digital signal. ...


70 mm

High end movie productions are often shot using this size and some theaters are capable of projecting it. 70 mm film is also used in both the flat and domed IMAX projection system. In IMAX the film is oriented for even more effective image area than in other formats. An IMAX dome in Guayaquil, Ecuador IMAX (for Image Maximum) is a film projection system which has the capacity to display images of far greater size and resolution than conventional film display systems. ...


Some high quality productions intended for 35 mm anamorphic release are shot in and the master prints constructed using 70 mm film stock. A 35 mm print made from a 70 mm master print is significantly better in appearance than an all 35 mm process.


See the 70 mm film article for more information. 70 mm film (or 65 mm film) is a high-resolution motion picture film format. ...


Sound

Regardless of the sound format, any sound represented on the film image itself will not be the sound for the particular frame it occupies. All optical sound formats must be offset from the image because the image is projected with intermittent motion. If the sound head on the projector was adjacent to the gate, the sound would be a jerky start-stop-start-stop and so on. Therefore the sound head requires continuous motion and will be located a certain number of frames before or after the gate.


See the 35 mm film article for more information on both digital and analog methods. Simulated 35 mm film with soundtracks _ The outermost strips (on either side) contain the SDDS soundtrack as an image of a digital signal. ...


Optical

With 16 mm and the larger sizes it is practical to add a narrow channel of optically encoded sound track. This is read using an illuminating light or laser and a photo-sensor solar cell. In 16 mm, this is a single mono track, and the sound head is 26 frames after the gate. In 35 mm, this can be mono or stereo, the latter including several different Dolby sound matrixing systems (including Dolby A and Dolby SR). The sound head is located twenty frames after the gate for 35 mm projectors. Originally optical sound was variable density, where the transparency/opacity level of the sound track was used to represent sound. This had disadvantages because the grain of the fill caused a background hiss, and so was replaced with the now-universal standard variable area. In this system, a clear waveform on black background represents the sound, and the width of the waveform is equivalent to the amplitude. Variable area does have slightly less frequency response than variable density, it should be noted.


Digital

Modern theatrical systems use optical representations of digitally encoded multi-channel sound. An advantage of digital systems is that the offset between the sound and picture heads can be varied and then set with the digital processors. Digital sound heads are usually above the gate. All digital sound systems currently in use have the ability to instantly and virtually imperceptibly fall back to the optical sound system should the digital data be corrupt or the whole system fail.


Cinema Digital Sound (CDS)

Created by Kodak and ORC (Optical Radiation Corporation), Cinema Digital Sound was the first attempt to bring multi-channel digital sound to first-run theaters. CDS was available on both 35 mm and 70 mm films. Film prints equipped with CDS did not have the conventional analog optical or magnetic soundtracks to serve as a "back-up" in case the digital sound was unreadable. Another disadvantage of not having an analog back-up track is that CDS required extra film prints be made for the theaters equipped to play CDS. The three formats that followed, Dolby Digital, DTS and SDDS, can co-exist with each other and the analog optical soundtrack on a single version of the film print. This means that a film print carrying all three of these formats (and the analog optical format, usually Dolby SR) can be played in whichever format the theater is equipped to handle. CDS did not achieve wide-spread use and ultimately failed. It premiered with the film Dick Tracy and was used with several other films, such as Days of Thunder and Terminator 2: Judgement Day.


Sony Dynamic Digital Stereo (SDDS)

SDDS sound runs on the outside of 35 mm film, between the perforations and the edges, on both edges of the film. It is the only digital system that can handle up to eight tracks of sound. The additional two tracks are for an extra pair of screen channels (Left Center and Right Center) located between the 3 regular screen channels (Left, Center and Right). A pair of CCD's located in a unit above the projector read the two SDDS tracks. The information is decoded and decompressed before being passed along to a Sony cinema sound processor, which means it can be equalized in the digital domain. In contrast, DTS and Dolby Digital soundtracks both are passed through to standard analog Dolby cinema sound processors which are also used for analog optical sound, so equalization of the sound is only analog. The digital compression of SDDS is better than DTS, but inferior to Dolby Digital. SDDS premiered with the film The Last Action Hero. A charge-coupled device (CCD) is a sensor for recording images, consisting of an integrated circuit containing an array of linked, or coupled, capacitors. ...


Dolby Digital

Also known to enthusiasts as Spectral Recording Digital or "SR-D." Sound is printed between the perforations and is 26 frames before the picture (the offset can be varied based on processing presets). It can handle up to six tracks, and has the best compression of the digital formats. The images between each perforation are read by a CCD located either above the projector or in the regular analog sound head below the film gate. The information is then decoded, decompressed, and converted to analog by an SR-D processor before going to a standard Dolby analog multi-format cinema sound processor. A consumer version of Dolby Digital is also used on most DVD's, often at higher data rates than the original film. Dolby Digital officially premiered with the film Batman Returns, but it was earlier tested at some screenings of Star Trek: The Undiscovered Country. A charge-coupled device (CCD) is a sensor for recording images, consisting of an integrated circuit containing an array of linked, or coupled, capacitors. ... DVD is an optical disc storage media format that can be used for storing data, including movies with high video and sound quality. ...


Digital Theater Systems (DTS)

DTS actually stores the sound information on separate CD-ROMs supplied with the film. The CDs are fed into a special modified computer (usually a 386 or 486 system) which syncs up with the film through the use of DTS time code, decompresses the sound, and passes it through to a standard analog Dolby processor. The time code is placed between the optical sound tracks and the actual picture, and is read by an optical LED ahead of the gate. The time code is actually the only sound system which is not offset within the film from the picture, but still needs to be physically set offset ahead of the gate in order to maintain continuous motion. Each disc can hold slightly over two hours of sound, so longer films will require a second disc, which means that the sound will temporarily revert back to the optical track while changing discs. DTS is a six track system (although it has an earlier, discontinued four track counterpart), and as might be expected of the oldest of the three digital systems, has the most inferior compression. Of the three digital formats currently in use, DTS is the only one that has been used with 70 mm presentations. DTS was premiered on Jurassic Park. A consumer version of DTS is available on some DVD's. DVD is an optical disc storage media format that can be used for storing data, including movies with high video and sound quality. ...


Magnetic sound

70 mm, which had no optical sound, used the 5 millimeters gained between the 65 mm negative and the final release print to place three magnetic tracks on each side of the perforations, for a total of six tracks. Unlike all other non-double head magnetic sound, 70 mm magnetic heads are located before the gate. Until the introduction of digital sound, it was fairly common for 35 mm films to be blown up to 70 mm often just to take advantage of the greater number of sound tracks. 35 mm four-track magnetic sound was used from the 1950s through the mid 1970s for big-budget feature prints. It was of excellent quality, although somewhat prone to damage and erasure over time. As analog optical stereo gained popularity (it was also more durable and far less expensive to include on a film print), 35 mm four-track magnetic sound was increasingly only used for special road show screenings, and the development of digital sound systems made it completely obsolete.


35 mm and 16 mm each are sometimes run in sync with a separate reel of magnetic sound (known as double head projection because two reels are running on one projector in sync); the image goes through a gate while the magnetic reel passes over a sound head. Since the sound is on a separate reel, it does not need to be offset from the image. This system is usually used only for very low-budget or student productions, or for screening rough cuts of films before the creation of a final married print. Sync between the two reels is checked with SMPTE Academy leader, also known as countdown leader. If the two reels are synced, there should be one frame of "plop" sound exactly on the "3" frame of the countdown.


On certain stocks of Super 8 and 16 mm it an iron-oxide sound recording strip was added for the direct synchronous recording of sound which could then be played by projectors with a magnetic sound head. It has since been discontinued by Kodak on both gauges.


Types of lenses and screens

Orthographic

Before the advent of certain wide screen technologies, lenses always reproduced the exact proportions of the film image onto the screen. Such lenses are relatively simple to design and manufacture. Prior to modern wide screen, the industry standard image ratio of width to height was 4:3.


35 mm VistaVision was a wide screen orthographic system. The wide image was obtained by running the film horizontally across the gate so that the width limitation of the film was transformed to a height limitation. See the VistaVision article for more information. VistaVision is a variant of the 35mm motion picture film format created by Paramount Studios in the 1950s. ... VistaVision is a variant of the 35mm motion picture film format created by Paramount Studios in the 1950s. ...


Anamorphic

Simulated wide screen image with 1.96 to 1 ratio as it would be seen in a camera viewfinder or on a theater screen
Simulated wide screen image with 1.96 to 1 ratio as it would be seen in a camera viewfinder or on a theater screen
Simulated anamorphed image with 1.333 to 1 ratio (4:3) as it would appear on a frame of film
Simulated anamorphed image with 1.333 to 1 ratio (4:3) as it would appear on a frame of film

The 1950's saw the development of wide screen films using special lenses for filming and projection. The images on these films retained the same proportions as in the earlier films (a 4:3 width to height ratio). The wide image is compressed onto the film in the camera using additional cylindrical elements within the lens, with a corresponding lens used in the projector to expand the image to the wide screen. This technique is called anamorphic projection and various implementations have been marketed under several brand names, including CinemaScope, Panavision and Superscope, with Technirama implementing a slightly different anamorphic technique using vertical expansion to the film rather than horizontal compression. Of the anamorphic methods, arguably the best image was produced by the Todd-AO (for Michael Todd and American Optical) using 70 mm film and a large, curved screen. Around the World in Eighty Days starring David Niven and Cantinflas was the leading general release production using this process. A popular film recently released (2004) as a remake, the original was also released as a Cinemascope print, by comparison to the Todd-AO original as watching television is to being in a movie theater. Similar 70 mm processes include Super (and Ultra) Panavision and VistaVision. An edit of Non Anamorphed image for movie projector page File history Legend: (cur) = this is the current file, (del) = delete this old version, (rev) = revert to this old version. ... An edit of Non Anamorphed image for movie projector page File history Legend: (cur) = this is the current file, (del) = delete this old version, (rev) = revert to this old version. ... An edit of Image:WpGreatWallReproWeapons. ... An edit of Image:WpGreatWallReproWeapons. ... A 32inch CRT widescreen television A widescreen image is a film image with a greater aspect ratio than the ordinary 35 millimeter frame. ... Anamorphic widescreen is a cinematography and photography technique for capturing a widescreen picture on standard 35mm film. ... Cinemascope, or more strictly CinemaScope, was a widescreen movie format used from 1953 to 1967. ... Panavision is a motion picture equipment company specializing in camera, lens, and grip equipment, along with related accessories. ... Several people have been called Michael Todd: Michael Todd (Movie Industry Executive) Michael Todd (Computer Pioneer) This is a disambiguation page — a navigational aid which lists other pages that might otherwise share the same title. ... Around the World in Eighty Days is a 1956 movie based on the novel of the same name by Jules Verne. ... David Niven was the second unofficial James Bond. ... Mario Moreno Reyes (August 12, 1911 - April 20, 1993), better known as Cantinflas, was a Mexican actor, circus performer and comedian. ... Categories: Movie stubs | 2004 films | Comedy films ...


Fish eye with dome

The IMAX® dome projection method (called "OMNIMAX®") uses 70 mm film oriented to maximize the image area and extreme wide angle lenses to obtain an almost hemispherical image. The field of view is tilted, as is the projection hemisphere, so one may view a portion of the ground in the foreground. Owing to the great area covered by the picture it is not as bright as seen with flat screen projection, but the immersive qualities are quite convincing. While there are not many theaters capable of displaying this format there are regular productions in the fields of nature, travel, science, and history, and productions may be viewed in most U.S. large urban regions. These dome theaters are mostly located in large and prosperous science and technology museums.


Wide and deep flat screen

The IMAX® flat screen system uses large format film, a wide and deep screen, and close and quite steep "stadium" seating. The effect is to fill the visual field to a greater degree than is possible with conventional wide screen systems. Like the IMAX® dome, this is found in major urban areas, but unlike the dome system it is practical to reformat existing movie releases to this method. Also, the geometry of the theater and screen are more amenable to inclusion within a newly constructed but otherwise conventional multiple theater complex than is the dome style theater. An IMAX dome in Guayaquil, Ecuador IMAX (for Image Maximum) is a film projection system which has the capacity to display images of far greater size and resolution than conventional film display systems. ...


Multiple cameras and projectors

One wide screen development during the 1950's used non-anamorphic projection, but used three side by side synchronised projectors. Called Cinerama, the images were projected onto an extremely wide, curved screen. Some seams were said to be visible between the images but the almost complete filling of the visual field made up for this. This showed some commercial success as a limited location (only in major cities) exhibition of the technology in This is Cinerama, but the only memorable story-telling film of two made for this technology was How the West Was Won, widely seen only in its Cinemascope re-release. For the UK rock group, see: Cinerama (band) The original Cinerama system is a widescreen process which works by simultaneously projecting images from three synchronized projectors onto a huge, deeply-curved screen, subtending 146º of arc. ... This is Cinerama is a 1952 film which shows how film makers could use the new technology of Cinerama to make movies more realistic by broadening the aspect ratio so the viewers peripheral vision was involved. ... How the West Was Won is an epic 1962 western film which follows several generations of a family as they move ever Westwards, from western New York state to the Pacific Ocean. ...


While neither a technical nor a commercial success, the business model survives as implemented by the documentary production, limited release locations, and long running exhibitions of IMAX® dome movies. A business model (also called a business design) is the mechanism by which a business intends to generate revenue and profits. ...


Three dimensional

For techniques used to display pictures with a three dimensional appearance, see the 3-D film article for some movie history and the Stereoscopy article for technical information. For 3D computer graphics and related software, see 3D computer graphics. ... Stereoscopy, stereoscopic imaging or 3-D (three-dimensional) imaging is a technique to create the illusion of depth in a photograph, movie, or other two-dimensional image, by presenting a slightly different image to each eye. ...


See also

Movie film formats Amateur formats: 8 mm Single-8 Super 8 mm Polavision 9,5 mm film 17. ... This is a disambiguation page — a navigational aid which lists other pages that might otherwise share the same title. ...

External links


  Results from FactBites:
 
Addison Bragg's Ode to the Projectionist (738 words)
And the more attentive the projectionist to his equipment, the less chance there was of "losing" an arc and with it, losing the light on the screen.
And, in case you're wondering how the projectionist knew when film was running out and how he knew when to switch, the last part of this lesson is about cue marks.
But no sooner was it done than the projectionist was at the business of rewinding the old reel of film, threading up the other machine, checking his sound and light - and having (just possibly) a cigarette before time for the next changeover.
  More results at FactBites »

 
 

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