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Pilot (Joey)
"Pilot" is the first episode of the first season of the television situation comedy Joey.
First aired: September 9, 2004
This is the first episode of Joey. In this episode, Joey moves to Los Angeles to pursue his acting career. After accidentally taking a cab through Dallas (under the misapprehension that he was in LA) he arrives in an LA airport and is greeted by his sister Gina. Joey and Gina talk about Gina's recent boob job and about Joey's new start to his career. Joey tells Gina that he has been offered a part on a show about male nurses and another show, this on cable, in which he stars as a cop.
Joey and Gina go to Joey's apartment. There they meet up with Michael, Joey's nephew. Gina tells Joey not to tell Michael that she had him when she was only 16 - she has told him that he was born when she was 22. Michael, now a college student, expresses to Joey his wish to move out of his mother's house. Joey initially refuses.
Later, Joey is hanging out on his back porch, where he meets Alex, one of his neighbours, to whom he is initially attracted. When Joey proudly informs her that he is an actor, she tells him that most of the people in the building are actors including the guy in the apartment above hers, who is a porn actor ("It's not the best").
Joey later receives the news that his cop show is not going to air because it is too disgusting. Meanwhile, "Nurses" is becoming a huge success and Joey is out of work. When Michael makes meatballs for Joey to cheer him up, Joey agrees to let Michael move in with him.
After an unsuccessful audition to present Hollywood Minute, Joey returns to his apartment where he finds out that Alex is married.
He then takes on the difficult task of convincing Gina to let Michael move in with him, inadvertedly revealing in the process that Gina was only 16 when Michael was born. The episode ends with Gina reprising a childhood punishment she would often inflict on Joey - twisting his ear until he shouts "I'm gay for David Cassidy!"
1-01
Joey
Television:
Television is a telecommunication system for broadcasting and receiving moving pictures and sound over a distance. The term has come to refer to all the aspects of television programming and transmission as well.
programming ]]
History
The development of television technology can be partitioned along two lines: those developments that depended upon both mechanical and electronic principles, and those which are purely electronic. From the latter descended all modern televisions, but these would not have been possible without discoveries and insights from the mechanical systems.
The word television is a hybrid word, created from both Greek and Latin. Tele- is Greek for "far", while -vision is from the Latin visio, meaning "vision" or "sight". It is often abbreviated as TV or the telly.
Electromechanical television
The German student Paul Gottlieb Nipkow proposed and patented the first electromechanical television system in 1885. Nipkow's spinning disk design is credited with being the first television image rasterizer. However, it wasn't until 1907 that developments in amplification tube technology made the design practical. Meanwhile, Constantin Perskyi had coined the word television in a paper read to the International Electricity Congress at the International World Fair in Paris on August 25, 1900. Perskeyi's paper reviewed the existing electromechanical technologies, mentioning the work of Nipkow and others.
1900
In 1911, Boris Rosing and his student Vladimir Kosma Zworykin achieved a television system that used a mechanical mirror-drum scanner to transmit, in Zworykin's words, "very crude images" over wires to the electronic Braun tube (cathode ray tube) in the receiver. Moving images were not possible because, in the scanner, "the sensitivity was not enough and the selenium cell was very laggy." Zworykin later went to work for RCA to build a purely electronic television, the design of which was eventually found to violate patents by Philo Taylor Farnsworth.
On March 25, 1925, Scottish inventor John Logie Baird gave a demonstration of televised silhouette images at Selfridge's Department Store in London. But if television is defined as the transmission of live, moving, half-tone (grayscale) images, and not silhouette or still images, Baird achieved this privately on October 2, 1925, and gave the world's first public demonstration of a working television system to members of the Royal Institution and a newspaper reporter on January 26, 1926 at his laboratory in London. Unlike later electronic systems with several hundred lines of resolution, Baird's vertically scanned image, using a scanning disc embedded with a double spiral of lenses, had only 30 lines, just enough to reproduce a recognizable human face.
In 1928 Baird's company (Baird Television Development Company / Cinema Television) broadcast the first transatlantic television signal, between London and New York, and the first shore to ship transmission. He also demonstrated an electromechanical colour, infrared (dubbed "Noctovision"), and stereoscopic television, using additional lenses, disks and filters. In parallel he developed a video disk recording system dubbed "Phonovision"; a number of the Phonovision[http://www.tvdawn.com/tvimage.htm] recordings, dating back to 1927, still exist. In 1929 he became involved in the first experimental electromechanical television service in Germany. In 1931 he made the first live transmission, of the Epsom Derby. In 1932 he demonstrated ultra-short wave television. Baird's electromechanical system reached a peak of 240 lines of resolution on BBC television broadcasts in 1936, before being discontinued in favor of a 405 line all-electronic system.
In the U.S., Charles Francis Jenkins was able to demonstrate on June 13, 1925, the transmission of the silhouette image of a toy windmill in motion from a naval radio station to his laboratory in Washington, using a lensed disc scanner with 48 lines per picture, 16 pictures per second. AT&T's Bell Telephone Laboratories transmitted half-tone images of transparencies in May 1925. But Bell Labs gave the most dramatic demonstration of television yet on April 7, 1927, when it field tested reflected-light television systems using small-scale (2 by 2.5 inches) and large-scale (24 by 30 inches) viewing screens over a wire link from Washington to New York City, and over-the-air broadcast from Whippany, New Jersey. The subjects, which included Secretary of Commerce Herbert Hoover, were illuminated by a flying spot beam and scanned by a 50-aperture disc at 16 pictures per second.
Electronic television
Herbert Hoover
Although the discoveries of Nipkow, Rosing, Baird and others were extraordinary, little of their technology is used in modern television. By 1934, all electromechanical television systems were outmoded, although electromechanical broadcasts continued on some stations until 1939.
A.A. Campbell-Swinton wrote a letter to Nature on the 18 June 1908 describing his concept of electronic television using the cathode ray tube, which had been invented in 1897 by the German physicist and Nobel prize winner Karl Ferdinand Braun. He proposed using an electron beam in both the camera and the receiver, which could be steered electronically to produce moving pictures. He lectured on the subject in 1911 and displayed circuit diagrams, but no one, including Swinton, knew how to realize the design. Although his system was never built, the cathode ray tube did come to be used to display images in almost all television sets and computer monitors until the invention of the LCD panel.
A fully electronic system was first achieved by Philo Taylor Farnsworth on September 7, 1927, although the low-resolution, light-insensitive camera tube limited the image to a plate of glass painted black, with a straight line etched across it, rotated in front of a bright carbon arc lamp. Seven years later, on August 25, 1934, at the Franklin Institute in Philadelphia, Farnsworth gave the world's first public demonstration of a working, all-electronic television system, with 220 lines per picture, 30 pictures per second. Over a three week period, vaudeville acts, athletic and sports demonstrations, politicians, and hundreds of ordinary citizens were captured on Farnsworth's cameras in the open air and simultaneously shown on his receiving sets.
Farnsworth, a Mormon farm boy from Rigby, Idaho, first envisioned his system at age 14. He discussed the idea with his high school chemistry teacher, who could think of no reason why it would not work (Farnsworth would later credit this teacher, Justin Tolman, as providing key insights into his invention). He continued to pursue the idea at Brigham Young Academy (now Brigham Young University). At age 21, he demonstrated a working system at his own laboratory in San Francisco. His breakthrough freed television from reliance on spinning discs and other mechanical parts. All modern picture tube televisions descend directly from his design.
Vladimir Kosma Zworykin is also sometimes cited as the father of electronic television because of his invention of the iconoscope in 1923 and his invention of the kinescope in 1929. His design was one of the first to demonstrate a television system with all the features of modern picture tubes. His previous work with Rosing on electromechanical television gave him key insights into how to produce such a system, but his (and RCA's) claim to being its original inventor was largely invalidated by three facts: a) Zworykin's 1923 patent presented an incomplete design, incapable of working in its given form (it was not until 1933 that Zworykin achieved a working implementation), b) the 1923 patent application was not granted until 1938, and not until it had been seriously revised, and c) courts eventually found that RCA was in violation of the television design patented by Philo Taylor Farnsworth, whose lab Zworykin had visited while working on his designs for RCA.
The controversy over whether it was first Farnsworth or Zworykin who invented modern television is still hotly debated today. Some of this debate stems from the fact that while Farnsworth appears to have gotten there first as an inventor, RCA brought television sets to market before Farnsworth, and it was RCA employees who first wrote the history of television. Even though Farnsworth eventually won the legal battle over this issue, he was never able to fully capitalize financially on his invention.
Color television
Most television researchers appreciated the value of color image transmission, with an early patent application in Russia in 1889 for a mechanically-scanned color system showing how early the importance of color was realized. John Logie Baird demonstrated the world's first color transmission on July 3, 1928, using scanning discs at the transmitting and receiving ends with three spirals of apertures, each spiral with filters of a different primary color; and three light sources at the receiving end, with a commutator to alternate their illumination.
Color television in the United States had a protracted history due to conflicting technical systems vying for approval by the Federal Communications Commission for commercial use. Mechanically scanned color television was demonstrated by Bell Laboratories in June 1929 using three complete systems of photoelectric cells, amplifiers, glow-tubes, and color filters, with a series of mirrors to superimpose the red, green, and blue images into one full color image.
In the electronically scanned era, the first color television demonstration was on February 5, 1940, when RCA privately showed to members of the FCC at the RCA plant in Camden, New Jersey, a television receiver producing images in color by a field sequential color system. CBS began non-broadcast color experiments using film as early as August 28, 1940, and live cameras by November 12. The CBS "field sequential" color system was partly mechanical, with a disc made of red, blue, and green filters spinning inside the television camera at 1,200 rpm, and a similar disc spinning in synchronization in front of the cathode ray tube inside the receiver set. RCA's later "dot sequential" color system had no moving parts, using a series of dichroic mirrors to separate and direct red, green, and blue light from the subject through three separate lenses into three scanning tubes, and electronic switching that allowed the tubes to send their signals in rotation, dot by dot. These signals were sorted by a second switching device in the receiver set and sent to red, green, and blue picture tubes, and combined by a second set of dichroic mirrors into a full color image.
The first field test (i.e., broadcast) of color television was by NBC (owned by RCA) on February 20, 1941. CBS began daily color field tests on June 1, 1941. These color systems were not compatible with existing black and white television sets, and as no color television sets were available to the public at this time, viewership of the color field tests was limited to RCA and CBS engineers and the invited press. The War Production Board halted the manufacture of television and radio equipment for civilian use from April 1, 1942 to October 1, 1945, limiting any opportunity to introduce color television to the general public.
The post-war development of color television was dominated by three systems competing for approval by the FCC as the U.S. color broadcasting standard: CBS's field sequential system, which was incompatible with existing black and white sets without an adaptor; RCA's dot sequential system, which in 1949 became compatible with existing black and white sets; and CTI's system (also incompatible with existing black and white sets), which used three camera lenses, behind which were color filters that produced red, green, and blue images side by side on a single scanning tube, and a receiver set that used lenses in front of the picture tube (which had sectors treated with different phosphorescent compounds to glow in red, green, or blue) to project these three side by side images into one combined picture on the viewing screen.
After a series of hearings beginning in September 1949, the FCC found the RCA and CTI systems fraught with technical problems, inaccurate color reproduction, and expensive equipment, and so formally approved the CBS system as the U.S. color broadcasting standard on October 11 1950. An unsuccessful lawsuit by RCA delayed the world's first network color broadcast until June 25 1951, when a musical variety special titled simply Premiere was shown over a network of five east coast CBS affiliates. Viewership was again extremely limited: the program could not be seen on black and white sets, and Variety estimated that only thirty prototype color receivers were available in the New York area. Regular color broadcasts began that same week with the daytime series The World Is Yours and Modern Homemakers.
While the CBS color broadcasting schedule gradually expanded to twelve hours per week (but never into prime time), and the color network expanded to eleven affiliates as far west as Chicago, its commercial success was doomed by the lack of color receivers necessary to watch the programs, the refusal of television manufacturers to create adaptor mechanisms for their existing black and white sets, and the unwillingness of advertisers to sponsor broadcasts seen by almost no one. In desperation, CBS bought a television manufacturer, and on September 20, 1951, production began on the first and only CBS color television model. But it was too little, too late. Only 200 sets had been shipped, and only 100 sold, when CBS pulled the plug on its color television system on October 20, 1951, and bought back all the CBS color sets it could to prevent law suits by disappointed customers.
Starting before CBS color even got on the air, the U.S. television industry, represented by the National Television System Committee, worked in 1950-1953 to develop a color system that was compatible with existing black and white sets and would pass FCC quality standards, with RCA developing the hardware elements. When CBS testified before Congress in March 1953 that it had no further plans for its own color system, the path was open for the NTSC to submit its petition for FCC approval in July 1953, which was granted in December. The first publicly announced experimental TV broadcast of a program using the NTSC-RCA "compatible color" system was an episode of NBC's Kukla, Fran and Ollie on August 30, 1953.
NBC made the first coast-to-coast color broadcast when it covered the Tournament of Roses Parade on January 1 1954, with public demonstrations given across the United States on prototype color receivers. A few days later Admiral brought out the first commercially made color television set using the RCA standards, followed in March by RCA's own model. Television's first prime time network color series was The Marriage, a situation comedy broadcast live by NBC in the summer of 1954. NBC's anthology series Ford Theatre became the first color filmed series that October.
NBC was naturally at the forefront of color programming because its parent company RCA manufactured the most successful line of color sets in the 1950s. CBS and ABC, which were not affiliated with set manufacturers, and were not eager to promote their competitor's product, dragged their feet into color, with ABC delaying its first color series (The Flintstones and The Jetsons) until 1962. The Du Mont network, although it did have a television-manufacturing parent company, was in financial decline by 1954 and was dissolved two years later. Thus the relatively small amount of network color programming, combined with the high cost of color television sets, meant that as late as 1964 only 3.1 percent of television households in the U.S. had a color set. NBC provided the catalyst for rapid color expansion by announcing that its prime time schedule for fall 1965 would be almost entirely in color (the exception being I Dream of Jeannie). All three broadcast networks were airing full color prime time schedules by the 1966–67 broadcast season. But the number of color television sets sold in the U.S. did not exceed black and white sales until 1972, which was also the first year that more than fifty percent of television households in the U.S. had a color set.
In Mexico, Guillermo González Camarena (1917–1965), invented the early color television transmission system. He received patents for color television systems in 1940 (U.S. Patent 1942 (2296019), 1960 and 1962. The 1942 patent was for a mechanically scanned color filter adapter for an existing monochrome electronic transmission system.
In August 31, 1946 he sent his first color transmission from his lab in the offices of The Mexican League of Radio Experiments in Lucerna St. #1, in Mexico City. The video signal was transmitted at a frequency of 115 MHz. and the audio in the 40 metre band.
European color television was developed somewhat later and was hindered by a continuing division on technical standards. Having decided to adopt a higher-definition 625-line system for monochrome transmissions, with a lower frame rate but with a higher overall bandwidth, Europeans could not directly adopt the U.S. color standard, which was widely perceived as wanting anyway, because of its tint control problems. There was also less urgency, since there were fewer commercial motivations, European television broadcasters being predominantly state-owned at the time.
As a consequence, although work on various color encoding systems started already in the 1950s, with the first SECAM patent being registered in 1956, many years had passed till the first broadcasts actually started in 1967. Unsatisfied with the performance of NTSC and of initial SECAM implementations, the Germans unveiled PAL (phase alternating line) in 1963, staying closer to NTSC but borrowing some ideas from SECAM. The French continued with SECAM, notably involving Russians in the development.
The first regular colour broadcasts in Europe were by BBC2 beginning on July 1, 1967, using PAL. Germans did their first broadcast in September (PAL), while the French in October (SECAM). PAL was eventually adopted by West Germany, the UK, Australia, New Zealand, much of Africa, Asia and South America, and most Western European countries except France.
In addition to France and Luxembourg, SECAM was adopted by Soviet Union, much of Eastern Europe, much of Africa and of the Middle East. Both systems broadcast on UHF frequencies, the VHF being used for legacy black and white, 405 lines in UK or 819 lines in France, till the beginning of the eighties.
It should be noted that some British television programmes, particularly those made by or for ITC Entertainment, were made in colour before the introduction of colour television to the UK, for the purpose of sales to US networks. The first British show to be made in colour was the drama series The Adventures of Sir Lancelot (1956-57), which was initially made in black and white but later shot in colour for sale to the NBC network in the United States.
In Japan, NHK introduced color television in the year 1960.
Broadcast television
NHK
The first regularly scheduled television service in the United States began on July 2, 1928. The Federal Radio Commission authorized C.F. Jenkins to broadcast from experimental station W3XK in a suburb of Washington, D.C. But for at least the first eighteen months, only silhouette images from motion picture film were broadcast due to the narrow 10kHz bandwidth allotted by the FRC.
General Electric's experimental station in Schenectady, New York, on the air sporadically since January 13, 1928, was able to broadcast reflected-light, 48-line images via shortwave as far as Los Angeles, and by September was making four television broadcasts weekly.
CBS's New York City station W2XAB began broadcasting the first regular seven days a week television schedule in the United States on July 21, 1931, with a 60-line electromechanical system. The first broadcast included Mayor Jimmy Walker, the Boswell Sisters, Kate Smith, and George Gershwin. The service ended in February 1933.
By 1935, electromechanical television broadcasting had ceased in the United States except for a handful of stations run by public universities that continued to 1939. The Federal Communications Commission saw television in the continual flux of development with no consistent technical standards, hence all such stations in the U.S. were granted only experimental and not commercial licenses, hampering television's economic development. Just as importantly, Philo Farnsworth's 1934 demonstration of an all-electronic system pointed the direction of television's future.
On June 15, 1936, Don Lee Broadcasting began a month-long demonstration of all-electronic television in Los Angeles on W6XAO (later KTSL) with a 300-line image from motion picture film. RCA demonstrated in New York City a 343-line electronic television broadcast, with live and film segments, to its licensees on July 7, 1936, and made its first public demonstration to the press on November 6. By April 1939, regularly scheduled 441-line electronic television broadcasts were available in New York City and Los Angeles, and by November on General Electric's station in Schenectady. With the adoption of NTSC television engineering standards in 1941, the FCC saw television ready for commercial licensing, with the first such licenses issued to NBC and CBS owned stations in New York on July 1, 1941, followed by Philco's station in Philadelphia.
Electromechanical broadcasts began in Germany in 1929, but were without sound until 1934. Network electronic service started on March 22, 1935, on 180 lines using only telecine transmission of film or an intermediate film system. Live transmissions began on January 15, 1936. The Berlin Summer Olympic Games were televised, using both direct television and intermediate film cameras, to 28 public television rooms in Berlin and Hamburg in August 1936. The Germans had a 441-line system on the air in February 1937, and during World War II brought it to France, where they broadcast off the Eiffel Tower.
The first British television broadcast was made by Baird Television's electromechanical system over the BBC radio transmitter in September 1929. Baird provided a limited amount of programming five days a week by 1930. On August 22, 1932, BBC launched its own regular service using Baird's 30-line electromechanical system, continuing until September 11, 1935. On November 2, 1936 the BBC began broadcasting a dual-system service, alternating on a weekly basis between Marconi-EMI's 405-line standard and Baird's improved 240-line standard, from Alexandra Palace in London, making the BBC the world's first regular high-definition television service. The corporation decided that Marconi-EMI's electronic picture gave the superior picture, and the Baird system was dropped in February 1937. The outbreak of the Second World War caused the BBC service to be suspended on September 1, 1939, resuming from Alexandra Palace on June 7, 1946.
The Soviet Union began offering 30-line electromechanical test broadcasts in Moscow on October 31, 1931, and a commercially manufactured television set in 1932. The first experimental transmissions of electronic television took place in Moscow on March 9, 1937, using equipment manufactured and installed by RCA. Regular broadcasting began on December 31, 1938.
The first regular television transmissions in Canada began in 1952 when the CBC put two stations on the air, one in Montreal, Quebec on September 6, and another in Toronto, Ontario two days later.
two days later
The first live transcontinental television broadcast took place in San Francisco, California from the Japanese Peace Treaty Conference on September 4, 1951. In 1958, the CBC completed the longest television network in the world, from Sydney, Nova Scotia to Victoria, British Columbia. Reportedly, the first continuous live broadcast of a breaking news story in the world was conducted by the CBC during the Springhill Mining Disaster which began on October 23 of that year.
Programming is broadcast on television stations (sometimes called channels). At first, terrestrial broadcasting was the only way television could be distributed. Because bandwidth was limited, government regulation was normal. In the U.S., the Federal Communications Commission allowed stations to broadcast advertisements, but insisted on public service programming commitments as a requirement for a license. By contrast, the United Kingdom chose a different route, imposing a television licence fee on owners of television reception equipment, to fund the BBC, which had public service as part of its Royal Charter. Development of cable and satellite means of distribution in the 1970s pushed businessmen to target channels towards a certain audience, and enabled the rise of subscription-based television channels, such as HBO and Sky. Practically every country in the world now has developed at least one television channel. Television has grown up all over the world, enabling every country to share aspects of their culture and society with others.
By the late 1980s, 98% of all homes in the U.S. had at least one TV set. On average, Americans watch four hours of television per day. An estimated two-thirds of Americans got most of their news about the world from TV, and nearly half got all of their news from TV. These figures are now estimated to be significantly higher.
Technology
Broadcasting
There are many means of distributing television broadcasts, including both analogue and digital versions of:
- Terrestrial television
- Stratovision (From aircraft flying in a loop)
- Satellite television
- Cable television
- MMDS (Wireless cable)
Receiving
Television sets
In television's electromechanical era, commercially made television sets were sold from 1928 to 1934 in the United Kingdom, United States, and Russia. The earliest commercially made sets sold by Baird in the U.K. and the U.S. in 1928 were radios with the addition of a television device consisting of a neon tube behind a mechanically spinning disk (the Nipkow disk) with a spiral of apertures that produced a red postage-stamp size image, enlarged to twice that size by a magnifying glass. The "televisor" was also available without the radio. The Baird televisor sold in 1930-1933 is considered the first mass-produced set, selling about a thousand units.
The first commercially made electronic television sets with cathode ray tubes were manufactured by Telefunken in Germany in 1934, followed by other makers in Britain (1936) and America (1938). The cheapest of the pre-War World II factory-made American sets, a 1938 image-only model with a 3-inch (8 cm) screen, cost US$125, the equivalent of US$1,732 in 2005. The cheapest model with a 12-inch (30 cm) screen was $445 ($6,256).
An estimated 19,000 electronic television sets were manufactured in Britain, and about 1,600 in Germany, before World War II. About 7,000-8,000 electronic sets were made in the U.S. before the War Production Board halted manufacture in April 1942, which resumed in October 1945.
Television usage in the United States skyrocketed after World War II with the lifting of the manufacturing freeze, war-related technological advances, the gradual expansion of the television networks westward, the drop in set prices caused by mass production, increased leisure time, and additional disposable income. While only 0.5% of U.S. households had a television set in 1946, 55.7% had one in 1954, and 90% by 1962. In Britain, there were 15,000 television households in 1947, 1.4 million in 1952, and 15.1 million by 1968.
For many years different countries used different technical standards. France initially adopted the German 441-line standard but later upgraded to 819 lines, which gave the highest picture definition of any analogue TV system, approximately four times the resolution of the British 405-line system. Eventually the whole of Europe switched to the 625-line PAL standard, once more following Germany's example. Meanwhile in North America the original NTSC 525-line standard from 1941 was retained.
NTSC
Television in its original form involves sending images and sound over radio waves in the VHF and UHF bands, which are received by a television set. Over-the-air broadcast television requires an antenna (aerial). This can be an outdoor Yagi antenna. In strong signal areas the antenna can be indoors, attached to or near the receiver, such as an adjustable dipole antenna called "rabbit ears" for the VHF band and a small loop antenna for the UHF band.
Specifications
Modern displays
Starting in the 1990s, modern television sets diverged into three different trends:
- standalone TV sets;
- integrated systems with DVD players and/or VHS VCR capabilities built into the TV set itself (mostly for small size TVs with up to 21" screen, the main idea is to have a complete portable system);
- component systems with separate big-screen video monitor, tuner, audio system which the owner connects the pieces together as a high-end home theater system. This approach appeals to videophiles who prefer components that can be upgraded separately.
There are many kinds of video monitors used in modern TV sets. The most common are direct view CRTs for up to 40in (100cm) (in 4:3) and 46in (115cm) (in 16:9) diagonally; most big screen TVs (up to over 100 inch (254 cm)) use projection technology. Three types of projection systems are used in projection TVs: CRT-based, LCD-based, and DLP(reflective micromirror chip)-based.
Modern advances have brought flat panels to TV that use active matrix LCD or plasma display technology. Flat panel LCDs and plasma displays are as little as 4in (10cm) thick and can be hung on a wall like a picture or put over a pedestal. They are multifunctional, because they are used like computer monitors too (VGA and DVI or HDMI connections).
Some TVs integrate a pair of ports to connect computer cases and peripherals to it or to connect the set to an A/V home network (HAVI) (USB port for cord connection and BlueTooth/WiFi for wireless).
Today, some LCD and Plasma sets have SD Card slots, so users can view pictures from a digital camera. On the new Panasonic LCDs and Plasmas (Viera), users have the capability to record onto SD card and then play it back on a hand-held PC or digital camera (anything that allows MPEG4). With SD cards now available with 1G of memory (soon 2GB, and Panasonic is also working on one that contains over 30GB of memory), a user can record over 1,000 minutes at low quality, and around 80 minutes on the highest quality. The playback of the recording is not brilliant, but these are the first generation. They will get better with time.
Signal connections
The number of ways to connect a video device to a television has increased over the years:
WiFi
- HDMI - a compact 19 to 29 pin connector that carries digital video and digital audio signals. Essentially an enhanced version of DVI that includes digital audio. This is the most advanced form of connection currently available.
DVI
- DVI - a 17 to 29 pin connector that carries digital video signals, designed to carry HDTV but also used in current DVD players and latest digital displays. Copy protection is available using HDCP.
HDCP
- Component video - three separate RCA jacks (colored red, green and blue) carry three video signals, one brightness (luminance) and two colors (chromas), and is usually referred to as "Y, B-Y, R-Y", "Y Cr Cb" (interlaced) or "Y Pr Pb" (progressive), or YUV. Audio is not carried on this cable. This connection provides for picture quality superior to S-Video and is typically used in home theater for DVDs, satellite and analogue HDTV; less common in Europe but is starting to become more widely available.
Europe
- SCART - a large 21 pin connector that may carry: one video signal composite video; or two video signals S-Video; or for picture quality similar to component video, three signals of separate red, green and blue or RGB; or for best picture quality, four video signals of separate red, green, blue and sync or RGBS; plus right and left line-level audio channels; along with a number of control signals including an aspect-ratio flag (e.g. widescreen). This system has been standard in Europe since mid-1980s for all consumer electronics, which meant that RGBS was available on even the earliest PAL DVD players and satellite receivers. Japan uses a 21 pin RGB connector which is visually similar to SCART but with different pin configurations.
Japan
- S-Video - small round connector with two separate video signals, one carrying brightness (luminance), the other carrying color (chroma). Also referred to as Y/C video. Provides most of the benefit of component video, with slightly less color fidelity. Use started in the 1980s for S-VHS, Hi-8, and early NTSC DVD players to relay high quality video before component was available. Audio is not carried on this cable.
Hi-8
- Composite video - The most common form of connecting external devices, putting all the video information into one signal. Most televisions provide this option with a yellow RCA jack. Audio is not carried on this cable, though two separate cables with similar red and white RCA jacks for right and left line-level audio are commonly bonded to composite video cables.
- Coaxial RF - All audio channels and picture components are transmitted through one coaxial cable and modulated on a radio frequency. Most TVs manufactured during the past 15–20 years accept coaxial connection, and the video is typically "tuned" on channel 3 or 4. This is the type of cable usually used for cable television. Most modern DVD players and other video devices no longer modulate RF output, so very old TV sets made before composite video jacks became commonplace will need a modulator.
Aspect ratios
Mechanically scanned television as first demonstrated by John Logie Baird in 1926 used a 7:3 vertical aspect ratio, oriented for the head and shoulders of a single person in close-up.
Most of the early electronic TV systems from the mid-1930s onward shared the same aspect ratio of 4:3 which was chosen to match the Academy Ratio used in cinema films at the time. This ratio was also square enough to be conveniently viewed on round cathode-ray tubes (CRTs), which were all that could be produced given the manufacturing technology of the time. (Today's CRT technology allows the manufacture of much wider tubes, and the flat screen technologies which are becoming steadily more popular have no aspect ratio limitations at all.) The BBC's television service used a more squarish [http://tcc.members.beeb.net/tchistory.html 5:4] ratio from 1936 to circa 1949, when it too switched to a 4:3 ratio.
In the 1950s, movie studios moved towards widescreen aspect ratios such as Cinerama in an effort to distance their product from television. Although this was initially just a gimmick widescreen is still the format of choice today and square aspect ratio movies are rare. Some people argued that widescreen is actually a disadvantage when showing objects that are tall instead of panoramic, others would say that natural vision is more panoramic than tall, and therefore widescreen is easier on the eye.
The switch to digital television systems has been used as an opportunity to change the standard television picture format from the old ratio of 4:3 (approximately 1.33:1) to an aspect ratio of 16:9 (approximately 1.78:1). This enables TV to get closer to the aspect ratio of modern widescreen movies, which range from 1.78:1 through 1.85:1 to 2.35:1. There are two methods for transporting widescreen content, the better of which uses what is called anamorphic widescreen format. This format is very similar to the technique used to fit a widescreen movie frame inside a 1.33:1 35mm film frame. The image is squashed horizontally when recorded, then expanded again when played back. The anamorphic widescreen 16:9 format was first introduced via European PAL-Plus television broadcasts and then later on "widescreen" DVDs; the ATSC HDTV system uses straight widescreen format, no image squashing or expanding is used.
Recently "widescreen" has spread from television to computing where both desktop and laptop computers are commonly equipped with widescreen displays, and it remains to be seen whether Work or movie enjoyment will take over. There are some complaints about distortions of movie picture ratio due to some DVD playback software not taking account of aspect ratios; but this will subside as the DVD playback software matures. Furthermore, computer and laptop widescreen displays are in the 16:10 aspect ratio both physically in size and in pixel counts, and not in 16:9 of consumer televisions, leading to further complexity. This was a result of widescreen computer display engineers' uninformed assumption that people viewing 16:9 content on their computer would prefer that an area of the screen be reserved for playback controls or subtitles, as opposed to viewing content full-screen.
Aspect ratio incompatibility
The television industry changing aspect ratios is not without teething difficulties, and can present a considerable problem.
Displaying a widescreen aspect (rectangular) image on a conventional aspect (square) display can be shown:
- in "letterbox" format, with black horizontal bars at the top and bottom
- with part of the image being cropped, usually the extreme left and right of the image being cut off (or in "pan and scan", parts selected by an operator)
- with the image horizontally compressed
A conventional aspect (square) image on a widescreen aspect (rectangular) display can be shown:
- in "pillarbox" format, with black vertical bars to the left and right
- with upper and lower portions of the image cut off
- with the image horizontally distorted
A common compromise is to shoot or create material at an aspect ratio of 14:9, and to lose some image at each side for 4:3 presentation, and some image at top and bottom for 16:9 presentation.
Horizontal expansion has advantages in situations in which several people are watching the same set, as it compensates for watching at an oblique angle.
Sound
Television add-ons
Today there are many add-ons for the television set. A few add-ons include Video Game Consoles, VCRs, Cable Boxes, Satellite Boxes, DVD players, or Digital Video Recorders, the television add-on market is ever growing.
New developments
- Broadcast flag
- CableCARD™
- Digital Light Processing (DLP)
- Digital Rights Management (DRM)
- Digital television (DTV)
- Digital Video Recorders
- Direct Broadcast Satellite TV (DBS)
- DVD
- Flicker-free (100Hz)
- High Definition TV (HDTV)
- High-Definition Multimedia Interface (HDMI)
- IPTV
- Internet television
- LCD and Plasma display Flat Screen TV
- Pay Per View
- Picture-in-picture (PiP)
- Video on-demand (VOD)
- Ultra High Definition Video (UHDV)
- Web TV
Geographical usage
Content
Advertising
Since their inception in the USA in 1941, TV commercials have become one of the most effective, most pervasive, and most popular methods of selling products of many sorts, especially consumer goods. U.S. advertising rates are determined primarily by Nielsen ratings. The exception to this is the publicly-funded British Broadcasting Corporation.
Programming
Getting TV programming shown to the public can happen in many different ways. After production the next step is to market and deliver the product to whatever markets are open to using it. This typically happens on two levels:
#Original Run or First Run - a producer creates a program of one or multiple episodes and shows it on a station or network which has either paid for the production itself or to which a license has been granted by the producers to do the same.
#Syndication - this is the terminology rather broadly used to describe secondary programming usages (beyond original run). It includes secondary runs in the country of first issue, but also international usage which may or may not be managed by the originating producer. In many cases other companies, TV stations or individuals are engaged to do the syndication work, in other words to sell the product into the markets they are allowed to sell into by contract from the copyright holders, in most cases the producers.
In most countries, the first wave occurs primarily on FTA television, while the second wave happens on subscription TV and in other countries. In the U.S. however, the first wave occurs on the FTA networks and subscription services, and the second wave travels via all means of distribution.
First run programming is increasing on subscription services outside the U.S., but few domestically produced programs are syndicated on domestic FTA elsewhere. This practice is increasing however, generally on digital only FTA channels, or with subscriber-only first run material appearing on FTA.
Unlike the U.S., repeat FTA screenings of a FTA network program almost only occur only on that network. Also, affiliates rarely buy or produce non-network programming that isn't intensely local.
Social aspects
Alleged dangers
Paralleling television's growing primacy in family life and society, an increasingly vocal chorus of legislators, scientists and parents are raising objections to the uncritical acceptance of the medium. For example, the Swedish government imposed a total ban on advertising to children under twelve in 1991 (see advertising). In the U.S., the [http://www.mediafamily.org/facts/facts_tveffect.shtml National Institute on Media and the Family] (not a government agency) points out that U.S. children watch an average of 25 hours of television per week and features studies showing it interferes with the educational and maturational process.
A February 23 2002 article in [http://www.sciam.com/print_version.cfm?articleID=0005339B-A694-1CC5-B4A8809EC588EEDF Scientific American] suggested that compulsive television watching was no different from any other addiction, a finding backed up by reports of withdrawal symptoms among families forced by
Joey (sitcom)
Joey is a sitcom starring Matt LeBlanc, reprising his role as Joseph Francis Tribbiani from the popular sitcom Friends.
Overview
Rumors of Joey, a spin-off show from Friends and produced by Bright-San Productions, Silver & Gold Productions and Warner Bros. Television, began to surface towards the end of the final season of Friends. First aired on 9 September 2004 on American television network NBC, Joey continues the story of popular character Joey Tribbiani, moving to Los Angeles in an attempt to boost his acting career. Possibly he is also seeking distance from his quintet of friends in New York, as his best friend Ross Geller has just gotten together with the only woman Joey has ever truly loved, Rachel Green. Joey, with Matt LeBlanc reprising the role, meets up with his sister Gina, and her son Michael, who help him acclimatize to the differences between New York and LA.
The advertising image shows LeBlanc on a lounger in a pool in a suit but with bare feet.
Despite middling ratings, the sitcom was renewed for a second season, 2005-2006.
During its second season, ratings fell 42%.
In the second season, Joey becomes a bigger star. He also gets a new best friend named Zach Miller, played by actor Miguel A. Nunez Jr (who will be a series regular). Also, Jennifer Coolidge will have a more prominent role this season.
Recurring characters
- Richard Ruccolo as Glen, Joey's assistant
- Mädchen Amick as Sara, Joey's girlfriend
- Ben Falcone as Howard J. Peckerman, Joey's neighbor
- Danneel Harris as Katie Harper, Joey's daughter in his new show Deep Powder
- Lucy Liu as Lauren Beck, the obsessive-compulsive executive producer of Deep Powder
- Simon Helberg as Seth Tobin, Michael's rival at Caltech
- Matt Letscher as Eric Garrett, Alex's (ex)husband
- Alex Ball as Todd/Producer, On the set of the filming of Deep Powder in both Season 1 and 2
List of guest stars
The show has had the following celebrities as guest stars:
- Peter Stormare [1.7] -- as Viktor
- Kelly Preston [1.8-9] -- as Donna Di Gregorio
- Danny Nucci [1.9] -- as Ron
- Bob Saget [1.11] -- as Himself
- Lucy Liu [1.12-14] -- as Lauren Beck
- Brent Spiner [1.14] -- as Himself
- Jay Leno [1.16] -- as Himself
- Christina Ricci [1.19] -- as Mary Teresa Tribbiani
- Carmen Electra [1.22] -- as Herself
- Kevin Smith [2.1] -- as Himself
- John Larroquette [2.3,6] -- as Benjamin Lockwood
Development of the show
Cast and filmed in the series pilot as married next-door neighbour Allison, actress Ashley Scott was released when test audiences responded poorly to her character. The role was renamed as Alex, recast with Andrea Anders, and her scenes in the pilot reshot in July 2004. The episode aired in September 2004 was this reshot version. Joey has been renewed for a second season.
The show was pulled from its Thursday-night timeslot in December 2005, but it will return in the spring of 2006, after the 2006 Winter Olympics, which will air on NBC.
Episode list
See List of Joey episodes.
Region 2 DVD releases
Season releases
Trivia
List of Joey episodes
- The pilot episode was released in screener form for test audiences and members of the entertainment industry to preview the show and drum up business. The screener was subsequently leaked onto the Internet, and thus has received a much wider critical review process than initially conceived.
- The theme song for the show is Sunny Hours by Long Beach Dub Allstars featuring will.i.am of the Black Eyed Peas.
- The fifth and the thirteenth episodes were directed by David Schwimmer (who played Ross Geller on Friends).
- The sixteenth episode, aired on February 3, makes reference to Johnny Carson, who died on January 23, 2005.
- Drea de Matteo and Paulo Costanzo, who play mother and son, were born six years apart. Costanzo's character is twenty years old, while de Matteo's is in her mid-thirties. This is probably referenced by Joey's role on Deep Powder, where he plays the father of a woman just five years his junior.
- The duckling and the chick, bought on the last episode of Friends have yet to appear in Joey.
- There is a picture of Joey & Chandler in a green picture frame on the cabinet next to the door into the apartment
- Joey's classic pick-up line of "How you doin'?" was first spoken in the show by Gina.
- The boxes of ordered Chinese food from which the characters of the show can be seen eating, have the Chinese character for friend (or friends, as Chinese lacks plural forms of nouns) printed on them.
Broadcasters
First-run
- NBC (United States)
- five (United Kingdom)
- CH Television (Canada)
- Global (Canada)
- Rai Due (Italy)
- TV 2 (Norway)
- Warner Channel (Latin America)
- MTV3 (Finland)
- RTÉ (Republic of Ireland)
- Xtra HOT (Israel)
- Nine Network (Australia)
- TV2 (New Zealand)
- Stöð 2 (Iceland)
- Veronica (The Netherlands)
- Kanal 5 (Sweden)
- TV 2 (Denmark)
- HBO (Romania)
- 8TV (Malaysia)
- CNBC-e (Turkey)
- RTV Pink (Serbia)
- FOX (Spain)
Reruns/syndication
- None announced as of March 2005 though the first episode rerun on NBC, in the place of a new episode.
External links
- [http://www.nbc.com/Joey/ Official Joey site]
-
- [http://www.tv.com/joey/show/20952/summary.html TV.com Entry for Joey] (including an episode guide)
- [http://www.Joeytv.net/ JoeyTV.net] – fansite
- [http://www.joey-page.webzdarma.cz/ Joey page] – fansite
Category:Friends
Category:NBC network shows
Category:Sitcoms
Category:Television spin-offs
Category:2000s TV shows in the United States
ja:ジョーイ
September 9September 9 is the 252nd day of the year (253rd in leap years). There are 113 days remaining.
Events
- 1000 - Battle of Swold somewhere in the Baltic Sea between Norway and other Scandinavians.
- 1087 - William the Conqueror dies near Rouen, France.
- 1379 - Treaty of Neuberg, splitting the Austrian Habsburg lands between the Habsburg Dukes Albert III and Leopold III.
- 1513 - James IV of Scotland is defeated and dies in the Battle of Flodden Field, ending Scotland's involvement in the War of the League of Cambrai.
- 1543 - Mary Stuart, at nine months old, is officially crowned "Queen of Scots" in the central Scottish town of Stirling.
- 1739 - Stono Rebellion, the largest slave uprising in Britains mainland North American colonies prior to the American Revolution, erupts near Charleston, South Carolina.
- 1776 - The Continental Congress officially names their new country the United States.
- 1839 - John Herschel takes the first glass plate photograph.
- 1850 - California is admitted as the thirty-first U.S. state.
- 1850 - The Compromise of 1850 strips Texas of a third of its claimed territory (now parts of Colorado, Kansas, New Mexico, Oklahoma, and Wyoming) in return for the U.S. federal government assuming $10 million of Texas's pre-annexation debt.
- 1863 - American Civil War: The Union Army enters Chattanooga, Tennessee.
- 1870 - Redmond, Washington, founded
- 1886 - The Berne Convention for the Protection of Literary and Artistic Works is finalized.
- 1914 - World War I: The creation of the Canadian Automobile Machine Gun Brigade, the first fully mechanized unit in the British Army.
- 1922 - Greek-Turkish war has ended with Turkish victory over the Greeks. The largest part of the city of Smyrna (on the Minor Asia coast, now Izmir) is burned. Non-Turkic population flees.
- 1923 - Mustafa Kemal Atatürk, the founder of the Republic of Turkey, founds the Republican People's Party (CHP).
- 1924 - Hanapepe Massacre occurs on Kauai, Hawaii.
- 1926 - The U.S. National Broadcasting Company formed.
- 1942 - World War II: A Japanese floatplane drops an incendiary bomb on Oregon.
- 1943 - World War II: The Allies land at Salerno and Taranto, Italy.
- 1944 - World War II: Bulgaria is occupied by Soviet Union.
- 1945 - Second Sino-Japanese War: Japan formally surrenders to China.
- 1947 - "First actual case of (a computer) bug being found": a moth lodges in a relay of a Mark II computer at Harvard University.
- 1948 - The Republic Day of Democratic People's Republic of Korea
- 1954 - Marilyn Bell swims for 20 hours and 57 minutes under grueling conditions to become the first person to swim across Lake Ontario.
- 1956 - Elvis Presley appears on The Ed Sullivan Show for the first time.
- 1965 - The United States Department of Housing and Urban Development is established.
- 1965 - Sandy Koufax throws a perfect game against the Chicago Cubs
- 1966 - The National Traffic and Motor Vehicle Safety Act signed into law by U.S. President Lyndon Johnson.
- 1970 - Elvis Presley begins a 6 city tour at the Phoenix Veterans Memorial Coliseum. This show is filmed for inclusion in the movie Elvis: That's The Way It Is.
- 1971 - Attica Prison riots
- 1983 - Aaron Pryor beats Alexis Arguello by knockout in round ten of a rematch of their 1982 controversial fight, dubbed The Battle of The Champions.
- 1991 - Tajikstan gains independence from the Soviet Union.
- 1995 - The Sony Playstation is released in North America.
- 1999 - The Sega Dreamcast is released in North America.
- 2001, 01:46:40 UTC - the Unix billennium.
- 2001 - Ahmed Shah Massoud, leader of the Northern Alliance, is assassinated in Afghanistan.
- 2004 - 2004 Jakarta embassy bombing: A bomb explodes outside the Australian embassy in Jakarta, killing 10 people.
- 2004 - Serbian Prime Minister Vojislav Koštunica reverses a decision by Minister of Education and Sport Ljiljana Čolić to require the teaching of both creationism and evolution in schools, and announces that Čolić will be replaced.
- 2004 - Friends spin off Joey premieres.
Births
- 1349 - Duke Albert III of Austria (d. 1395)
- 1427 - Thomas de Ros, 10th Baron de Ros, English politician (b. 1464)
- 1466 - Ashikaga Yoshitane, Japanese shogun (d. 1523)
- 1558 - Philippe Emmanuel, Duke of Mercoeur, French soldier (d. 1602)
- 1585 - Armand Jean du Plessis, Cardinal Richelieu, French statesman (d. 1642)
- 1629 - Cornelis Tromp, Dutch admiral (d. 1691)
- 1711 - Thomas Hutchinson, American colonial governor of Massachusetts (d. 1780)
- 1737 - Luigi Galvani, Italian physician and physicist (d. 1798)
- 1754 - William Bligh, British naval officer (d. 1817)
- 1755 - Benjamin Bourne, American politician (d. 1808)
- 1828 (N.S.) - Leo Tolstoy, Russian novelist (d. 1910)
- 1855 - Anthony Francis Lucas Croatian-born oil exploration pioneer (d. 1921)
- 1868 - Mary Hunter Austin, American writer (d. 1934)
- 1873 - Max Reinhardt, German film director and actor (d. 1943)
- 1878 - Adelaide Crapsey, American poet (d. 1914)
- 1887 - Alf Landon, American politician (d. 1987)
- 1890 - Colonel Harland Sanders, American fast food entrepreneur (d. 1980)
- 1894 - Arthur Freed, American songwriter and film producer (d. 1973)
- 1894 - Bert Oldfield, Australian cricketer (d. 1976)
- 1898 - Frankie Frisch, baseball player (d. 1973)
- 1899 - Waite Hoyt, baseball player (d. 1984)
- 1903 - Phyllis Whitney, American writer
- 1904 - Feroze Khan, Pakistani field hockey player (d. 2005)
- 1908 - Cesare Pavese, Italian poet and novelist (d. 1950)
- 1911 - John Gorton, nineteenth Prime Minister of Australia (d. 2002)
- 1918 - Jimmy Snyder, American bookmaker and sports commentator (d. 1996)
- 1922 - Hans Georg Dehmelt, German-born physicist, Nobel Prize laureate
- 1923 - Daniel Carleton Gajdusek, American virologist, recipient of the Nobel Prize in Physiology or Medicine
- 1924 - Jane Greer, American actress (d. 2001)
- 1924 - Rik Van Steenbergen, Belgian cyclist (d. 2003)
- 1925 - Cliff Robertson, American actor
- 1928 - Julian "Cannonball" Adderley, American musician (d. 1975)
- 1929 - Claude Nougaro, French singer (d. 2004)
- 1935 - Chaim Topol, Israeli actor
- 1939 - Ron McDole, American football player
- 1939 - Carlos Ortiz, Puerto Rican boxer
- 1941 - Peter Bonetti, British footballer
- 1941 - Otis Redding, American singer and songwriter (d. 1967)
- 1941 - Dennis Ritchie, American computer scientist
- 1946 - Bruce Palmer, Canadian musician (Buffalo Springfield) (d. 2004)
- 1946 - Billy Preston, American musician
- 1949 - Joe Theismann, American football player and commentator
- 1951 - Alexander Downer, Australian politician
- 1951 - Tom Wopat, American actor and singer
- 1952 - David A. Stewart, English musician (Eurythmics)
- 1954 - Jeffrey Combs, American actor
- 1957 - Pierre-Laurent Aimard, French pianist
- 1960 - Hugh Grant, British actor
- 1963 - Lauren Allen, American Porn Star
- 1966 - Georg Hackl, German luger
- 1966 - Adam Sandler American actor and comedian
- 1969 - Rachel Hunter, New Zealand model and actress
- 1974 - Mathias Färm, Swedish Guitarist (Millencolin)
- 1982 - Ai Otsuka, Japanese singer and songwriter
- 1986 - Max Olesen, Canadian sex symbol
Deaths
- 701 - Pope Sergius I
- 1000 - Olaf I of Norway
- 1087 - King William I of England
- 1398 - King James I of Cyprus (b. 1334)
- 1487 - Chenghua, Emperor of China (b. 1447)
- 1488 - Francis II, Duke of Brittany (fell from a horse) (b. 1433)
- 1513 - King James IV of Scotland (b. 1473)
- 1569 - Pieter Bruegel the Elder, Flemish painter
- 1612 - Nakagawa Hidenari, Japanese warlord (b. 1570)
- 1680 - Henry Marten, English regicide (b. 1602)
- 1755 - Johann Lorenz von Mosheim, German historian (b. 1694)
- 1806 - William Paterson, Signer of the U.S. Constitution, Governor of New Jersey (b. 1745)
- 1815 - John Singleton Copley, American painter (b. 1738)
- 1841 - Augustin Pyrame de Candolle, Swiss botanist (b. 1778)
- 1891 - Jules Grévy, President of France (b. 1813)
- 1898 - Stéphane Mallarmé, French poet (b. 1842)
- 1901 - Henri de Toulouse-Lautrec, French painter (b. 1864)
- 1909 - Edward Henry Harriman, American railroad entrepreneur (b. 1848)
- 1915 - Albert Spalding, baseball player and sporting goods manufacturer (b. 1850)
- 1960 - Jussi Björling, Swedish tenor (b. 1911)
- 1976 - Mao Zedong, Chinese head of state (b. 1893)
- 1978 - Jack Warner, Canadian-born film studio founder (b. 1892)
- 1980 - John Howard Griffin, American writer (b. 1920)
- 1985 - Paul Flory, American chemist, Nobel Prize laureate (b. 1910)
- 1990 - Doc Cramer, baseball player (b. 1905)
- 1990 - Samuel Doe, President of Liberia
- 1993 - Helen O'Connell, American singer (b. 1920)
- 1997 - Burgess Meredith, American actor (b. 1907)
- 1999 - Jim "Catfish" Hunter, baseball player (b. 1946)
- 2001 - Ahmed Shah Massoud, Afghani military leader
- 2003 - Larry Hovis, American actor (b. 1936)
- 2003 - Edward Teller, Hungarian-born physicist (b. 1908)
- 2005 - John Wayne Glover, the North Shore Granny Murderer, hanging suicide.
Holidays and observances
- Eastern Orthodoxy - Synaxis of the Theopatores Joachim and Anna
- Japan - ChrysanthemumDay (Kiku no Sekku)
- North Korea - Republic Day (1948)
- Tajikistan - Independence Day (from USSR, 1991)
External links
- [http://news.bbc.co.uk/onthisday/hi/dates/stories/september/9 BBC: On This Day]
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September 8 - September 10 - August 9 - October 9 – listing of all days
ko:9월 9일
ms:9 September
ja:9月9日
simple:September 9
th:9 กันยายน
2004
2004 (MMIV) was a leap year starting on Thursday of the Gregorian calendar. It was designated the:
- International Year of Rice (by the United Nations)
- International Year to Commemorate the Struggle against Slavery and its Abolition (by UNESCO)
- 2004 World Health Day topic was Road Safety (by World Health Organization)
- Year of the Monkey (by the Chinese calendar)
See the world in 2004 for a description of the state of the world in this year.
See also Wikipedia's almanac of events for this year.
Events
- January 1 - Pervez Musharraf gets a vote of confidence from an electoral college consisting of Parliament and the provincial assemblies, confirming him as President of Pakistan until 2007.
- January 3 - Flash Airlines Flight 604 crashes into the Red Sea off the coast of Egypt, killing all 148 aboard.
- January 4 - Mikhail Saakashvili wins the presidential elections in Georgia.
- January 4 -NASA's MER-A (Spirit) lands on Mars.
- January 8 - Queen Elizabeth II christens the RMS Queen Mary 2 cruise liner, currently the largest ocean liner in the world.
- January 13 - An Uzbekistan Airways plane crashes in Uzbekistan's capital of Tashkent, killing 37.
- January 22 - The European Union bans the import of poultry from Thailand, as bird flu spreads throughout Southeast Asia.
- January 24 - NASA's MER-B (Opportunity) lands on Mars.
- January 27 - The British government narrowly wins a House of Commons vote on the proposed introduction of tuition top-up fees in British universities.
- January 28 - The findings of the Hutton Inquiry are published in London. The British Government is found not to have falsified information in the "sexed up dossier". The report criticises the BBC's role in the death of David Kelly, a weapons expert on Iraq.
- January 28 - At a hearing of the National Commission on Terrorist Attacks Upon the United States, it is revealed that the September 11, 2001, terrorists used Mace (a brand of tear gas) or pepper spray in overpowering the flight crew of American Airlines Flight 11.
- February 1 - A hajj stampede in Mina, Saudi Arabia, kills 251 pilgrims.
- February 3 - The CIA admits that there was no imminent threat from weapons of mass destruction before the 2003 invasion of Iraq.
- February 6 - A suicide bomber kills 41 people on a metro car in Moscow.
- February 7 - Several leaders of Abnaa el-Balad arrested in Israel.
- February 10 - At least 50 people killed in a car bomb attack on a police recruitment centre south of Baghdad.
- February 10 - The French National Assembly votes to pass a law banning religious items and clothing from schools.
- February 12 - Same sex marriage in the United States: The City and County of San Francisco begins issuing marriage licenses to same-sex couples as an act of civil disobedience.
- February 13 - Scientists in South Korea announce the cloning of 30 human embryos.
- February 14 - Riots break out between New South Wales Police and Aboriginal residents of Redfern, a suburb of Sydney, Australia.
- February 18 - A train carrying a convoy of petrol, fertiliser, and sulfur derails and explodes in Iran, killing 320 people.
- February 20 - Conservatives win a majority in the Iranian parliament election.
- February 24 - 6.5 Richter scale earthquake in Northern Morocco hits in the Rif mountains near the city of Al Hoceima - over 400 dead. Ait Kamara is destroyed. 517 dead.
- February 25- Ash Wednesday. Also, the religious docudrama, The Passion of the Christ was released.
- February 26 - The United States lifts a ban on travel to Libya, ending travel restrictions to the nation that had lasted for 23 years.
- February 26 - Macedonian President Boris Trajkovski is killed in a plane crash near Mostar, Bosnia and Herzegovina.
- February 29 - 2004 Haiti rebellion: Jean-Bertrand Aristide resigns as president of Haiti. The chief justice of the Haitian Supreme Court, Boniface Alexandre, is sworn in as interim president.
- February 29 - The film The Lord of the Rings: The Return of the King directed by Peter Jackson wins 11 Academy Awards in every category it was nominated.
- March 2 - John Kerry effectively clinches the 2004 U.S. Democratic Party presidential nomination by winning nine out of 10 "Super Tuesday" primaries and caucuses.
- March 2 - NASA announces that the Mars rover MER-B (Opportunity), has confirmed that the area of Mars they landed in was once drenched in water.
- March 10 - Five British men released from detention at Camp Delta, Guantanamo Bay land at RAF Brize Norton. Four are immediately arrested for questioning.
- March 11 - Simultaneous explosions on rush hour trains in Madrid kill 190 people.
- March 12 - Following the terrorist attacks in Madrid on March 11, millions of protesters take to the streets of Spanish cities against terrorism.
- March 14 - Two suicide bombers kill eleven Israeli civilians in Ashdod, Israel.
- March 14 - The Spanish parliamentary elections of 2004 take place. The incumbent government led by José María Aznar is defeated by the Socialist José Luis Rodríguez Zapatero.
- March 14 - Presidential elections in Russia are held. Vladimir Putin easily wins a second term.
- March 15 - A trio of astronomers announce they have discovered a large trans-Neptunian object, the largest object found in the solar system since Pluto was discovered in 1930. Initially designated 2003 VB12, it was named 90377 Sedna in late September.
- March 15 - The new Spanish government announces that it will withdraw Spain's 1,300 troops in Iraq.
- March 17 - Organized violence breaks out over two days in Kosovo. Nineteen people are killed, 139 Serbian homes are burned, schools and businesses are vandalized, and over 30 orthodox monasteries and churches are burned and destroyed.
- March 19 - The UN launches a corruption investigation due to the scandal over its Iraqi Oil for Food program.
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