The first 'Rin Tin Tin', who along with his heirs starred in numerous films and television series, was discovered during World War I, September 15, 1918, by US Air Corporal Lee Duncan and his battalion in Lorraine, France. At a bombed out dog kennel, Duncan found a mother Shepherd Dog and her scrawny litter of five pups. Duncan chose two of the dogs, a male and female, while members of his group took the mother and the others back to camp. The only survivors over the next few months were the two pups Duncan had claimed, naming them 'Rin Tin Tin' and 'Nannette' after tiny French puppets the French children would give to the American soldiers for good luck. When the war ended, Duncan made special arrangements to take his pups back to his home in Los Angeles, but during the Atlantic crossing, Nannette became ill and died, shortly after arriving in America. In 1922, Duncan and Rin Tin Tin attended an LA dog show, with 'Rinty' performing for the crowd by jumping 13 ½ feet. Following the show, producer Darryl Zanuck asked Duncan if he could try out his new 'moving pictures' camera on the dog and paid $350 to film Rinty in action. Contacting every studio in Hollywood with a Rin Tin Tin -starring script "Where The North Begins", Duncan unexpectedly stumbled onto a low-budget, Warner Bros (Vitaphone) film crew having difficulty shooting an exterior scene with a wolf. Duncan quickly approached the director and told them that Rinty could do the scene in one take. True to his word, Duncan's 'wonder' dog did the scene in one take and both were hired for the entire shoot of "Man From Hells River". The film was a hit and Rin Tin Tin was a sensation, making 26 pictures for Warners while starring in his own live 1930s radio show "The Wonder Dog". At the peak of his popularity, Warners maintained 18 trained stand-ins to reduce any stress on their dog star, while providing Rinty with a private chef who prepared daily lunches of tenderloin steak (consumed as live classical music was played to help ease the dog's digestion.) Rin Tin Tin died in 1932 at the age of 14, returned to his birthplace in France, and interred in "The Cimetière des Chiens (et Autres Animaux Exotiques)" in the suburb of Asnieres. Today, Rin Tin Tin's continuous bloodline carries on at a Texas kennel, where a litter of 8-11 pups are born each year.
This silvery, malleable poor metal is not easily oxidized in air and is used to coat other metals to prevent corrosion. The first alloy, used in large scale since 3000 BC, was bronze, an alloy of tin and copper. After 600 BC pure metallic tin was produced. Pewter, which is an alloy of 85% to 90% tin with the remainder commonly consisting of copper, antimony and lead, was used for flatware from the Bronze Age until the 20th century. In modern times tin is used in many alloys, most notably tin/lead soft solders, typically containing 60% or more of tin. Another large application for tin is corrosion-resistant tin plating of steel. Because of its low toxicity, tin-plated metal is also used for food packaging, giving the name to tin cans, which are made mostly of steel.
β-tin (the metallic form, or white tin), which is stable at and above room temperature, is malleable. In contrast, α-tin (nonmetallic form, or gray tin), which is stable below 13.2 °C, is brittle. α-tin has a diamond cubic crystal structure, similar to diamond, silicon or germanium. α-tin has no metallic properties at all because its atoms form a covalent structure where electrons cannot move freely. It is a dull-gray powdery material with no common uses, other than a few specialized semiconductor applications. These two allotropes, α-tin and β-tin, are more commonly known as ''gray tin'' and ''white tin'', respectively. Two more allotropes, γ and σ, exist at temperatures above 161 °C and pressures above several GPa. Although the α-β transformation temperature is nominally 13.2 °C, impurities (e.g. Al, Zn, etc.) lower the transition temperature well below 0 °C, and upon addition of Sb or Bi the transformation may not occur at all, increasing the durability of the tin.
Commercial grades of tin (99.8%) resist transformation because of the inhibiting effect of the small amounts of bismuth, antimony, lead and silver present as impurities. Alloying elements such as copper, antimony, bismuth, cadmium and silver increase its hardness. Tin tends rather easily to form hard, brittle intermetallic phases, which are often undesirable. It does not form wide solid solution ranges in other metals in general, and there are few elements that have appreciable solid solubility in tin. Simple eutectic systems, however, occur with bismuth, gallium, lead, thallium and zinc.
Tin becomes a superconductor below 3.72 K. In fact, tin was one of the first superconductors to be studied; the Meissner effect, one of the characteristic features of superconductors, was first discovered in superconducting tin crystals.
This large number of stable isotopes is thought to be a direct result of tin possessing an atomic number of 50, which is a "magic number" in nuclear physics. There are 28 additional unstable isotopes that are known, encompassing all the remaining ones with atomic masses between 99 and 137. Aside from 126Sn, which has a half-life of 230,000 years, all the radioactive isotopes have a half-life of less than a year. The radioactive 100Sn is one of the few nuclides possessing a "doubly magic" nucleus and was discovered relatively recently, in 1994. Another 30 metastable isomers have been characterized for isotopes between 111 and 131, the most stable of which being 121mSn, with a half-life of 43.9 years.
The Latin name ''stannum'' originally meant an alloy of silver and lead, and came to mean 'tin' in the 4th century BCE—the earlier Latin word for it was ''plumbum candidum'' 'white lead'. ''Stannum'' apparently came from an earlier ''stāgnum'' (meaning the same thing), the origin of the Romance and Celtic terms for 'tin'. The origin of ''stannum''/''stāgnum'' is unknown; it may be pre-Indo-European. The ''Meyers Konversationslexikon'' speculates on the contrary that ''stannum'' is derived from Cornish ''stean'', and is proof that Cornwall in the first centuries AD was the main source of tin.
Tin extraction and use can be dated to the beginnings of the Bronze Age around 3000 BC, when it was observed that copper objects formed of polymetallic ores with different metal contents had different physical properties. The earliest bronze objects had tin or arsenic content of less than 2% and are therefore believed to be the result of unintentional alloying due to trace metal content in the copper ore It was soon discovered that the addition of tin or arsenic to copper increased its hardness and made casting much easier, which revolutionized metal working techniques and brought humanity from the Copper Age or Chalcolithic to the Bronze Age around 3000 BC. Early tin exploitation appears to have been centered on placer deposits of cassiterite.
The first evidence of tin use for making bronze appears in the Near East and the Balkans around 3000 BC. It is still unclear as to where the earliest tin was mined as tin deposits are very rare and evidence of early mining is scarce. Europe's earliest mining district appears to be located in Erzgebirge, on the border between Germany and Czech Republic and is dated to 2500 BC. From there tin was traded north to the Baltic Sea and south to the Mediterranean following the Amber Road trading route. Tin mining knowledge spread to other European tin mining districts from Erzgebirge and evidence of tin mining begins to appear in Brittany, Devon and Cornwall, and in the Iberian Peninsula around 2000 BC. These deposits saw greater exploitation when they fell under Roman control between the third century BC and the first century AD. Demand for tin created a large and thriving network amongst Mediterranean cultures of Classical times. By the Medieval period, Iberia's and Germany's deposits lost importance and were largely forgotten while Devon and Cornwall began dominating the European tin market.
In the Far East, the tin belt stretching from Yunnan province in China to the Malaysian Peninsula began being exploited sometime between the third and second millennium BC. The deposits in Yunnan province were not mined until around 700 BC, but by the Han Dynasty had become the main source of tin in China according to historical texts of the Han, Jin, Tang, and Song dynasties.
Other regions of the world developed tin mining industries at a much later date. In Africa, the Bantu culture extracted, smelted and exported tin between the 11th and 15th centuries AD, in the Americas tin exploitation began around 1000 AD, and in Australia it began with the arrival of Europeans in the 17th century.
In 1931 the tin producers founded the International Tin Committee, followed in 1956 by the International Tin Council, an institution to control the tin market. After the collapse of the market in October 1985 the price for tin nearly halved.
Tin foil was once a common wrapping material for foods and drugs; replaced in the early 20th century by the use of aluminium foil, which is now commonly referred to as ''tin foil''. Hence one use of the slang term "tinnie" or "tinny" for a small pipe for use of a drug such as cannabis or for a can of beer. Today, the word "tin" is often improperly used as a generic term for any silvery metal that comes in sheets. Most everyday materials that are commonly called "tin", such as aluminium foil, beverage cans, corrugated building sheathing and tin cans, are actually made of steel or aluminium, although tin cans (tinned cans) do contain a thin coating of tin to inhibit rust. Likewise, so-called "tin toys" are usually made of steel, and may have a coating of tin to inhibit rust. The original Ford Model T was known colloquially as the "Tin Lizzy".
Tin(II) chloride (also known as stannous chloride) is the most important tin halide in a commercial sense. Illustrating the routes to such compounds, chlorine reacts with tin metal to give SnCl4 whereas the reaction of hydrochloric acid and tin gives SnCl2 and hydrogen gas. Alternatively SnCl4 and Sn combine to stannous chloride via a process called comproportionation: :SnCl4 + Sn → 2 SnCl2
Tin can form many oxides, sulfides, and other chalcogenide derivatives. The dioxide SnO2 (cassiterite) forms when tin is heated in the presence of air. SnO2 is amphoteric, which means that it dissolves in both acidic and basic solutions. There are also stannates with the structure
Most organotin compounds are colorless liquids or solids that are stable to air and water. They adopt tetrahedral geometry. Tetraalkyl- and tetraaryltin compounds can be prepared using Grignard reagents: : + 4 RMgBr → + 4 MgBrCl The mixed halide-alkyls, which are more common and more important commercially than the tetraorgano derivatives, are prepared by redistribution reactions: : + → 2 SnCl2R2
Divalent organotin compounds are uncommon, although more common than related divalent organogermanium and organosilicon compounds. The greater stabilization enjoyed by Sn(II) is attributed to the "inert pair effect". Organotin(II) compounds include both stannylenes (formula: R2Sn, as seen for singlet carbenes) and distannylenes (R4Sn2), which are roughly equivalent to alkenes. Both classes exhibit unusual reactions.
Tin is generated via the long S-process in low-medium mass stars (0.6 -> 10 solar masses). It arises via beta decay of heavy isotopes of indium.
Tin is the 49th most abundant element in the Earth's crust, representing 2 ppm compared with 75 ppm for zinc, 50 ppm for copper, and 14 ppm for lead.
Tin does not occur as the native element but must be extracted from various ores. Cassiterite (SnO2) is the only commercially important source of tin, although small quantities of tin are recovered from complex sulfides such as stannite, cylindrite, franckeite, canfieldite, and teallite. Minerals with tin are almost always associated with granite rock, usually at a level of 1% tin oxide content.
Because of the higher specific gravity of tin dioxide, about 80% of mined tin is from secondary deposits found downstream from the primary lodes. Tin is often recovered from granules washed downstream in the past and deposited in valleys or under sea. The most economical ways of mining tin are through dredging, hydraulic methods or open cast mining. Most of the world's tin is produced from placer deposits, which may contain as little as 0.015% tin.
It was estimated in January 2008 that there were 6.1 million tons of economically recoverable primary reserves, from a known base reserve of 11 million tons. Below are listed the nations with the largest known reserves.
Estimates of tin production have historically varied with the dynamics of economic feasibility and the development of mining technologies, but it is estimated that, at current consumption rates and technologies, the Earth will run out of tin that can be mined in 40 years. However Lester Brown has suggested tin could run out within 20 years based on an extremely conservative extrapolation of 2% growth per year.
Secondary, or scrap, tin is also an important source of the metal. The recovery of tin through secondary production, or recycling of scrap tin, is increasing rapidly. Whereas the United States has neither mined since 1993 nor smelted tin since 1989, it was the largest secondary producer, recycling nearly 14,000 tons in 2006.
New deposits are reported to be in southern Mongolia,
+World tin mine reserves and reserve base in tons | ||
!Country | Reserves | |
1,700,000 | 3,500,000 | |
1,000,000 | 1,200,000 | |
710,000 | 1,000,000 | |
800,000 | 900,000 | |
540,000 | 2,500,000 | |
450,000 | 900,000 | |
300,000 | 350,000 | |
170,000 | 250,000 | |
150,000 | 300,000 | |
Other | 180,000 | 200,000 |
+Estimated economically recoverable world tin reserves | !Year | !million tons |
1965 | 4,265 | |
1970 | 3,930 | |
1975 | 9,060 | |
1980 | 9,100 | |
1985 | 3,060 | |
1990 | 7,100 | |
2008 | 6,100 |
The table below shows the countries with the largest mine production and the largest smelter output.
+Mine and smelter production (tons), 2006 | |||
!Country | Mine production | ||
Indonesia | 117,500 | 80,933 | |
China | 114,300 | 129,400 | |
Peru | 38,470 | 40,495 | |
Bolivia | 17,669 | 13,500 | |
Thailand | 225 | 27,540 | |
Malaysia | 2,398 | 23,000 | |
Belgium | 0 | 8,000 | |
Russia | 5,000 | 5,500 | |
Democratic Republic of Congo | Congo-Kinshasa ('08) | 15,000 | 0 |
After the discovery of tin in what is now Bisie, North Kivu in the Democratic Republic of Congo in 2002, illegal production has increased there to around 15,000 tons. This is largely fueling the ongoing and recent conflicts there, as well as affecting international markets.
+Largest tin mining companies by production in tons | ||||
!Company | Polity| | 2006 | 2007 | %Change |
Yunnan Tin | China | 52,339 | 61,129 | |
PT Timah | Indonesia | 44,689 | 58,325 | |
Minsur | Peru | 40,977 | 35,940 | |
Malay | China | 52,339 | 61,129 | |
Malaysia Smelting Corp | Malaysia | 22,850 | 25,471 | |
Thaisarco | Thailand | 27,828 | 19,826 | |
Yunnan Chengfeng | China | 21,765 | 18,000 | |
Liuzhou China Tin | China | 13,499 | 13,193 | |
EM Vinto | Bolivia | 11,804 | 9,448 | |
Gold Bell Group | China | 4,696 | 8,000 |
Prices of tin were at $11,900 per ton as of Nov 24, 2008. Prices reached an all-time high of nearly $25,000 per ton in May 2008, largely because of the effect of the decrease of tin production from Indonesia, and have been volatile because of reliance from mining in Congo-Kinshasa.
The niobium-tin compound Nb3Sn is commercially used as wires for superconducting magnets, due to the material's high critical temperature (18 K) and critical magnetic field (25 T). A superconducting magnet weighing only a couple of kilograms is capable of producing magnetic fields comparable to a conventional electromagnet weighing tons.
A addition of a few percent tin is commonly used in zirconium alloys for the cladding of nuclear fuel.
Before the modern era, in some areas of the Alps, a goat or sheep's horn would be sharpened and a tin panel would be punched out using the alphabet and numbers from one to nine. This learning tool was known appropriately as "the horn". Modern reproductions are decorated with such motifs as hearts and tulips.
In America, pie safes and food safes came into use in the days before refrigeration. These were wooden cupboards of various styles and sizes - either floor standing or hanging cupboards meant to discourage vermin and insects and to keep dust from perishable foodstuffs. These cabinets had tinplate inserts in the doors and sometimes in the sides, punched out by the homeowner, cabinetmaker or a tinsmith in varying designs to allow for air circulation. Modern reproductions of these articles remain popular in North America.
Category:Chemical elements Category:Poor metals Category:Tin
af:Tin am:ቆርቆሮ ar:قصدير an:Estanyo (elemento) ast:Estañu ay:Chayanta az:Qalay bn:টিন zh-min-nan:Siah be:Волава be-x-old:Волава bs:Kalaj br:Staen bg:Калай ca:Estany (element) cv:Тăхлан ceb:Tansan cs:Cín co:Stagnu cy:Tun da:Tin de:Zinn nv:Béésh Dildǫʼí et:Tina el:Κασσίτερος myv:Валдо киве es:Estaño eo:Stano eu:Eztainu fa:قلع hif:Tin fr:Étain fy:Tin (elemint) fur:Stagn ga:Stán gv:Stainney gl:Estaño hak:Siak xal:Цанхорһлҗн ko:주석 (원소) hy:Անագ hi:त्रपु hr:Kositar io:Stano id:Timah ia:Stanno is:Tin it:Stagno he:בדיל jv:Timah kn:ತವರ ka:კალა (ელემენტი) kk:Қалайы kw:Sten sw:Stani kv:Озысь ht:Eten ku:Pîl (metal) koi:Озісь lbe:Къалай la:Stannum lv:Alva lb:Zënn lt:Alavas lij:Stagno (metallo) jbo:tinci hu:Ón mk:Калај ml:വെളുത്തീയം mr:टिन ms:Timah mdf:Валдакиви my:တင်း(ဓာတုဗေဒ) nah:Amochitl mrj:Вулны nl:Tin (element) ja:スズ no:Tinn (grunnstoff) nn:Grunnstoffet tinn oc:Estam uz:Qalay pa:ਟੀਨ pnb:ٹن nds:Tinn pl:Cyna pt:Estanho ro:Staniu qu:Chayanta ru:Олово sah:Хорҕолдьун sa:बङ्गम् stq:Tin sq:Kallaj scn:Stagnu simple:Tin sk:Cín sl:Kositer sr:Калај sh:Kalaj fi:Tina sv:Tenn tl:Lata ta:வெள்ளீயம் te:తగరము th:ดีบุก tg:Қалъ tr:Kalay uk:Олово ur:قلع ug:قەلەي vi:Thiếc fiu-vro:Tina zh-classical:錫 war:Lata wuu:锡 yi:צין yo:Tin zh-yue:錫 zh:锡This text is licensed under the Creative Commons CC-BY-SA License. This text was originally published on Wikipedia and was developed by the Wikipedia community.
name | Future Islands |
---|---|
background | group_or_band |
origin | Greenville, NC, United States |
instrument | Synthesizer, keyboard, bass guitar, Drum machine |
genre | Synthpop, Future Shock, Post-Wave Dance |
years active | 2006–present |
label | Thrill Jockey, Upset the Rhythm |
associated acts | Art Lord & the Self Portraits, Moss of Aura, The Snails, Ruin Yer Stereo |
website | www.myspace.com/futureislands |
current members | J. Gerrit Welmers William Cashion Samuel Herring |
past members | Erick Murillo Samuel N. Ortiz-Payero |
notable instruments | }} |
Future Islands released ''Little Advances'' in April 2006 and a self-released split CD with Welmers' solo project Moss of Aura in January 2007. They recorded their debut album "Wave Like Home" with Chester Gwazda at Backdoor Skateshop in Greenville, NC later that year. London-based label Upset the Rhythm released ''Wave Like Home'' in the Summer of 2008. The cover art was designed by Kymia Nawabi, a former member of Art Lord & the Self-Portraits.
In late 2007/early 2008, the band relocated to Baltimore, MD. The "Feathers and Hallways" 7" was recorded in Oakland, CA during their first US tour and was their first release as a focused three-piece. Their second album, "In Evening Air", was recorded in the band's living room in the historic Marble Hill neighborhood in Baltimore.
In 2009 the band signed to Chicago independent record company Thrill Jockey.
Category:Synthpop groups Category:American pop music groups
fr:Future IslandsThis text is licensed under the Creative Commons CC-BY-SA License. This text was originally published on Wikipedia and was developed by the Wikipedia community.
name | Christopher Tin |
---|---|
birth date | 1976 |
birth place | California |
occupation | Composer |
yearsactive | 2001–present |
influences | Thomas Newman, Elliott Goldenthal |
website | http://christophertin.com/ |
grammyawards | }} |
Tin returned to Los Angeles and continued his career by producing TV show music and working as an intern with Hans Zimmer, composer for ''The Lion King'' and ''Gladiator'', and Joel McNeely, with whom he worked on ''Mulan II''. John Ottman contacted him to work on ''X-Men 2'', for which he composed several original themes. He also composed "Daydream" for Apple Inc.'s music software, ''GarageBand'', and the music for an international advertisement of Puma AG. He also worked on TV show music, notably for ''Nova'', The History Channel, and Discovery Channel.
On December 5, 2010, it was reported that "Baba Yetu" was nominated for the 53rd Annual Grammy Awards in the category for 'Best Instrumental Arrangement Accompanying Vocalists', making it the first video game theme nominated for a Grammy Award. On February 13, 2011, it was announced as the winner of its category, making it also the first piece of music composed for a video game to win a Grammy Award.
"Baba Yetu" has also been performed at various venues and events around the world, such as the opening ceremonies of the 2009 World Games in Kaohsiung Taiwan, The Dubai Fountain (the world’s largest water feature), concert programs at The Kennedy Center and Disney Concert Hall, and many more. Additionally, "Baba Yetu" is one of the most widely performed pieces of contemporary choral music, with hundreds of amateur choirs singing it internationally. In January 2011, ''Calling All Dreams'' was nominated for The 10th Annual Independent Music Awards in the Contemporary Classical Album category. Additionally, "Baba Yetu" won in the Song Used in Film/TV/Multimedia and World Beat Song category.
The album is a song-cycle in three uninterrupted movements: Day, Night, and Dawn (corresponding to life, death, and rebirth). The twelve songs are sung in twelve languages, ranging from Swahili to Polish, from French to Persian to Maori. The lyrics are taken from diverse sources, including the Torah, the Bhagavad Gita, ancient Persian and Japanese poetry, and lyrics by contemporary writers. Vocal traditions include African choral music, opera, medieval chant, Irish keening, and more.
The album features performances from over 200 musicians on six continents, including Frederica von Stade, Anonymous 4, the Soweto Gospel Choir, Dulce Pontes, Sussan Deyhim and many more.
Category:21st-century classical composers Category:Alumni of the Royal College of Music Category:Alumni of the University of Oxford Category:American film score composers Category:American musicians of Chinese descent Category:Fulbright Scholars Category:Living people Category:Stanford University alumni Category:Video game composers Category:1976 births
id:Christopher Tin pl:Christopher Tin fi:Christopher TinThis text is licensed under the Creative Commons CC-BY-SA License. This text was originally published on Wikipedia and was developed by the Wikipedia community.
: ''This article is about the 1971 film. For the wrestler of a similar name, see Billy Jack Haynes.''
name | Billy Jack |
---|---|
director | T. C. Frank |
producer | Mary Rose Solti |
writer | Frank ChristinaTheresa Christina |
starring | Tom LaughlinDelores TaylorClark HowatJulie WebbDavid RoyaKenneth TobeyHoward HessemanBert Freed |
music | Mundell Lowe |
cinematography | Fred KoenekampJohn Stephens |
editing | Larry HeathMarion Rothman |
distributor | Warner Bros. |
released | May 1, 1971 |
runtime | 114 min. |
country | |
language | English |
budget | $800,000 (estimated) |
gross | $32,500,000 |
preceded by | ''The Born Losers'' |
followed by | ''The Trial of Billy Jack'' }} |
''Billy Jack'' is a 1971 action film. It is the second, and highest grossing, in a series of motion pictures centering on a character of the same name, played by Tom Laughlin who also directed and co-wrote the script. Filming began in Prescott, Arizona, in fall 1969, but the movie was not completed until 1971. American International Pictures pulled out of the production, halting filming. Twentieth Century Fox came in and filming eventually resumed, but when that studio refused to distribute the film, Warner Bros. took over.
The film lacked distribution, so Laughlin took it to theatres himself in 1971. The film died at the box office in its initial run but took in more than $40 million in its 1973 re-release, which was supervised by Laughlin.
This changes with the second film, ''Billy Jack'', in which the hero must defend the hippie-themed Freedom School and its students from townspeople who do not understand or like the counterculture students. The school is organized by Jean Roberts (Delores Taylor).
In one scene, a group of Indian children from the school go into town for ice cream and are refused service and then abused and humiliated by Bernard Posner and his gang. This prompts a violent outburst by Billy. Later, Billy's girlfriend Jean is raped and one of the Indian students is murdered by Bernard (David Roya), the corrupt son of the county's most successful (and ruthless) businessman (Bert Freed). Billy confronts Bernard and sustains a gunshot wound before killing him with a hand strike to the throat. After a climactic shootout with the police, and much pleading from Jean, he surrenders to the authorities and is arrested. As he is being driven away, a large crowd of supporters raise their fists into the air as a show of defiance and support. The plot continues in the sequel, ''The Trial of Billy Jack''.
In his ''Movie and Video Guide,'' film critic Leonard Maltin writes: "Seen today, its politics are highly questionable, and its 'message' of peace looks ridiculous, considering the amount of violence in the film."
Roger Ebert disagreed on what the message of the film was, saying "I'm also somewhat disturbed by the central theme of the movie. "Billy Jack" seems to be saying the same thing as "Born Losers," that a gun is better than a constitution in the enforcement of justice."
Billy Jack's wardrobe (black T-shirt, blue denim jacket, blue jeans, and a black hat with a beadwork band) would become nearly as iconic as the character. The film's theme song, "One Tin Soldier" by Coven, became a Top 40 hit in 1971, and featured the chorus:
Category:1971 films Category:Native American film Category:Prescott, Arizona Category:Films shot in Arizona Category:Films shot in New Mexico Category:Films shot in California Category:Counterculture of the 1960s Category:Hippie films Jack, Billy Category:Hapkido films Category:Vigilante films
ja:明日の壁をぶち破れThis text is licensed under the Creative Commons CC-BY-SA License. This text was originally published on Wikipedia and was developed by the Wikipedia community.
name | John Lasseter |
---|---|
birthname | John Alan Lasseter |
birth date | January 12, 1957 |
birth place | Hollywood, California |
occupation | Animator, film director, Chief Creative Officer, Pixar, Walt Disney Animation Studios, Principal Creative Advisor, Walt Disney Imagineering |
yearsactive | 1978–present |
spouse | Nancy Lasseter (1979–present) |
website | }} |
John Alan Lasseter (born January 12, 1957) is an American animator, director and the chief creative officer at Pixar and Walt Disney Animation Studios. He is also currently the Principal Creative Advisor for Walt Disney Imagineering.
Lasseter's first job was with The Walt Disney Company, where he became an animator. Next, he joined Lucasfilm, where he worked on the then-groundbreaking use of CGI animation. After the Graphics Group of the Computer Division of Lucasfilm was sold to Steve Jobs and became Pixar in 1986, Lasseter oversaw all of Pixar's films and associated projects as executive producer and he directed ''Toy Story'', ''A Bug's Life'', ''Toy Story 2'', ''Cars'', and ''Cars 2''.
He has won two Academy Awards, for Animated Short Film (''Tin Toy''), as well as a Special Achievement Award (''Toy Story'').
His education began at Pepperdine University. It was the alma mater of both his parents and his siblings. However, he heard of a new program at California Institute of the Arts and decided to leave Pepperdine to follow his dream of becoming an animator. His mother further encouraged him to take up a career in animation, and in 1975 he enrolled as the second student in a new animation course at the California Institute of the Arts. Lasseter was taught by three members of Disney's Nine Old Men – Eric Larson, Frank Thomas and Ollie Johnston – his classmates included Brad Bird, John Musker, Henry Selick and Tim Burton. During his time there, he produced two animated shorts; ''Lady and the Lamp'' (1979) and ''Nitemare'' (1980), which both won the student Academy Award for Animation.
In 1980 or 1981 he coincidently came across some video tapes from one of the then new computer-graphics conferences, who showed some of the very beginnings of computer animation, primarily floating spheres and such, which he experienced as a revelation. But it wasn't until shortly after, when he was invited by his friends Jerry Rees and Bill Kroyer, while working on ''Mickey's Christmas Carol'', to come and see the first lightcycle sequences for an upcoming film entitled ''Tron'', featuring (then) state-of-the-art computer generated imagery, that he really saw the huge potential of this new technology in animation. Up to that time, the studio had used a multiplane camera to add depth to its animation. Lasseter realized that computers could be used to make movies with three dimensional backgrounds where traditionally animated characters could interact to add a new, visually stunning depth that had not been conceived before.
Later he and Glen Keane talked about how great it would be to make an animated feature where the background was computer animated, and then showed Keane the book ''The Brave Little Toaster'' by Thomas Disch, which he thought would be a good candidate for the film. Keane agreed, but first they decided to do a short test film to see how it worked out, and chose ''Where the Wild Things Are'', a decision based on the fact that Disney had considered producing a feature based on the works of Maurice Sendak. Satisfied with the result, Lasseter, Keane and Thomas L. Wilhite went on with the project, especially Lasseter who dedicated himself to it, while Keane eventually went on to work with ''The Great Mouse Detective''.
Lasseter and his colleagues unknowingly stepped on some of their direct superiors' toes by circumventing them in their enthusiasm to get the project into motion. During a pitch meeting for the film to two of them, animation administrator Ed Hansen, and head of Disney studios, Ron W. Miller, the project was cancelled, due to lack of perceived cost benefits for the mix of traditional and computer animation. A few minutes after the meeting, Lasseter was summoned by Hansen to his office, where John was told that his employment in the Walt Disney Studios had been terminated. ''The Brave Little Toaster'' would later become a 2D animated feature film directed by one of John's friends, Jerry Rees, and some of the staff of Pixar would be involved in the film alongside Lasseter.
George Lucas's interest in the experimentations began to fade so Lucasfilm Computer Graphics was acquired by Steve Jobs in 1986, and became Pixar. Lasseter oversaw all of Pixar's films and associated projects as executive producer. He also personally directed ''Toy Story'', ''A Bug's Life'', ''Toy Story 2'', ''Cars'', and ''Cars 2''.
He has won two Academy Awards, for Animated Short Film (''Tin Toy''), as well as a Special Achievement Award (''Toy Story''). Lasseter has been nominated on four other occasions – in the category of Animated Feature, for both ''Monsters, Inc.'' (2001) and ''Cars'' (2006), in the Original Screenplay category for ''Toy Story'' (1995) and in the Animated Short category for ''Luxo, Jr.'' (1986), while the short ''Knick Knack'' (1989) was selected by Terry Gilliam as one of the ten best animated films of all time.
In December 2006, he announced that Disney will start producing animated shorts that will be released theatrically once more. Lasseter said he sees this medium as an excellent way to train and discover new talent in the company as well as a testing ground for new techniques and ideas. The shorts will be in 2D, CGI or a combination of both. However, in a recent interview, it was revealed that all new Disney Shorts have been put on hold until further notice.
Lasseter is a close friend and admirer of Japanese animator Hayao Miyazaki, and has been executive producer on several of Miyazaki's films for their release in the United States, also overseeing the dubbing of the films for their English language soundtrack. The gentle forest spirit Totoro from Miyazaki's ''My Neighbor Totoro'' makes an appearance as a plush toy in ''Toy Story 3''.
He owns the "Marie E." steam locomotive, which is an H.K. Porter engine. The "Marie E." was once owned by Ollie Johnston, who was one of Walt Disney's "Nine Old Men". In May 2007 and again in June 2010, the locomotive visited, and was run by Lasseter at the Pacific Coast Railroad in Santa Margarita, CA alongside the original Santa Fe & Disneyland Railroad "Retlaw 1" coaches.
On May 2, 2009, Lasseter received an Honorary Doctorate degree from Pepperdine University. He gave a commencement address where he encouraged the graduating class of more than 500 students never to let anyone tarnish their dreams.
Category:1957 births Category:American animators Category:American film directors Category:American screenwriters Category:Animated film directors Category:California Institute of the Arts alumni Category:Directors of Best Animated Short Academy Award winners Category:Disney people Category:Living people Category:People from Glen Ellen, California Category:People from Los Angeles, California Category:Animated film producers Category:Academy Special Achievement Award winners Category:Computer animation people
ca:John Lasseter cy:John Lasseter de:John Lasseter el:Τζον Λάσιτερ es:John Lasseter fa:جان لستر fr:John Lasseter id:John Lasseter it:John Lasseter he:ג'ון לסטר nl:John Lasseter ja:ジョン・ラセター no:John Lasseter pl:John Lasseter pt:John Lasseter ro:John Lasseter ru:Лассетер, Джон fi:John Lasseter sv:John Lasseter zh:约翰·雷斯特This text is licensed under the Creative Commons CC-BY-SA License. This text was originally published on Wikipedia and was developed by the Wikipedia community.
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