The 1968 science fiction film 2001: A Space Odyssey featured numerous fictional future technologies, which have proven prescient in light of subsequent developments around the world. Before the film's production began, director Stanley Kubrick sought technical advice from over fifty organizations, and a number of them submitted their ideas to Kubrick of what kind of products might be seen in a movie set in the year 2001. The film is also praised for its accurate portrayal of spaceflight and vacuum.
2001 is, according to four NASA engineers who based their nuclear-propulsion spacecraft design in part on the film's Discovery One , "perhaps the most thoroughly and accurately researched film in screen history with respect to aerospace engineering." [1] Several technical advisers were hired for 2001, some of whom were recommended by co-screenwriter Arthur C. Clarke, who himself had a background in aerospace. Advisors included Marshall Spaceflight Center engineer Frederick I. Ordway III, who worked on the film for two years, [1] [2] [3] [4] and I. J. Good, whom Kubrick consulted on supercomputers because of Good's authorship of treatises such as "Speculations Concerning the First Ultraintelligent Machine" and "Logic of Man and Machine". [5] Dr. Marvin Minsky of MIT was the main artificial intelligence advisor for the film. [6] [7]
2001 accurately presents outer space as not allowing the propagation of sound, in sharp contrast to other films with space scenes in which explosions or sounds of passing spacecraft are heard.
2001's portrayal of weightlessness in spaceships and outer space is also more realistic. Tracking shots inside the rotating wheel providing artificial gravity contrast with the weightlessness outside the wheel during scenes such as the repair and Hal disconnection scenes, which depict extravehicular activity. There are also scenes which depict astronauts and flight attendants walking upright in zero-gravity with the aid of "grip shoes", which use hook-and-loop fasteners to keep the wearer connected to various surfaces inside the ship.
Other aspects that contribute to the film's realism include the depiction of the time delay in conversations between the astronauts and Earth due to the extreme distance between the two (which the in-film BBC announcer explains have been edited out of the broadcast), the attention to small details such as the sound of breathing inside the spacesuits, the conflicting spatial orientation of astronauts inside a zero-gravity spaceship, and the enormous size of Jupiter in relation to the spaceship.
The general approach to how space travel is engineered is highly accurate; in particular, the design of the ships was based on actual engineering considerations rather than attempts to look aesthetically "futuristic". [8] Many other science-fiction films give spacecraft an aerodynamic shape, which is superfluous in outer space. [lower-alpha 1] Kubrick's science advisor, Frederick Ordway, notes that in designing the spacecraft, they "insisted on knowing the purpose and functioning of each assembly and component, down to the logical labeling of individual buttons and the presentation on screens of plausible operating, diagnostic and other data." [3] Onboard equipment and panels on various spacecraft have specific purposes such as alarm, communications, condition display, docking, diagnostic, and navigation, the designs of which relied heavily on NASA's input. Aerospace specialists were also consulted on the design of the spacesuits and space helmets. The space dock at Moon base Clavius shows multiple underground layers, which could sustain high levels of air pressure typical of Earth. The lunar craft design takes into account the lower gravity and lighting conditions on the Moon. The Jupiter-bound Discovery is meant to be powered by a nuclear reactor at its rear, separated from the crew area at the front by hundreds of feet of fuel storage compartments. Although difficult to be recognized as such, actual nuclear reactor control panel displays appear in the astronaut's control area.[ original research? ]
The suspended animation of three of the astronauts on board was portrayed accurately according to the direction of consulting medical authorities. [9] Clarke's novelization implies that hibernation would likely be necessary to conserve resources on a flight of this kind. [10]
The depiction of early hominids was based on the writings of anthropologists such as Louis Leakey. [9]
The sequence in which Bowman re-enters Discovery shows him holding his breath just before ejecting from the pod into the emergency airlock. Holding one's breath before exposure to a vacuum would, in reality, rupture the lungs. In an interview on the 2007 DVD release of the film, Clarke states that had he been on the set the day they filmed this, he would have caught this error. [11] [12]
When spacecraft land on the Moon in the film, dust is shown billowing as it would in air, not moving in a sheet as it would in the vacuum of the Lunar surface, as can be seen in Apollo Moon landing footage. [13] [14] While on the Moon, all actors move as if in normal Earth gravity, not as they would in the 1/6 gravity of the Moon. Similarly, the behavior of Dave and Frank in the weightless pod bay is not fully consistent with a zero-G environment. Although the astronauts are wearing zero-G 'grip shoes' in order to walk normally, they are oddly leaning on the table while testing the AE-35 unit as if held down by gravity. Finally, in an environment with a radius as small as the main quarters, the simulated gravity would vary significantly from the center of the crew quarters to the 'floor', even varying between feet, waist, and head. The rotation speed of the crew quarters was meant to be only fast enough to generate an approximation of the Moon's gravity, not that of the Earth. However, Clarke felt this was enough to prevent the physical atrophy that would result from complete weightlessness. [15]
During Floyd's approach to the space station, parts of the spinning wheel appear to be under construction, consisting of nothing more than bare internal structure. Geophysicist Dr. David Stephenson in the Canadian TV documentary 2001 and Beyond notes that "Every engineer that saw [the space station] had a fit. You do not spin on a wheel that is not fully built. You have to finish it before you spin it or else you have real problems". [16]
Over fifty organizations contributed technical advice to the production, and a number of them submitted their ideas to Kubrick of what kind of products might be seen in a movie set in the year 2001. [17] Much was made by MGM's publicity department of the film's realism, claiming in a 1968 brochure that "Everything in 2001: A Space Odyssey can happen within the next three decades, and...most of the picture will happen by the beginning of the next millennium." [18] Although the predictions central to the plot—colonization of the Moon, crewed interplanetary travel and artificial intelligence—did not materialize by that date, some of the film's other futuristic elements have indeed been realized.
As the central character of the "Jupiter Mission" segment of the film, HAL was shown by Kubrick to have as much intelligence as human beings, possibly more, while sharing their same "emotional potentialities". Kubrick agreed with computer theorists who believed that highly intelligent computers that can learn by experience will inevitably develop emotions such as fear, love, hate, and envy. Such a machine, he said, would eventually manifest human mental disorders as well, such as a nervous breakdown—as Hal did in the film. [19]
Clarke noted that, contrary to popular rumor, it was a complete coincidence that each of the letters of Hal's name immediately preceded those of IBM in the alphabet. [20] The meaning of HAL has been given both as "Heuristically programmed ALgorithmic computer" and as "Heuristic ALgorithmic computer". The former appears in Clarke's novel of 2001 and the latter in his sequel novel 2010. In computer science, a heuristic is a programmable procedure not necessarily based on fixed rules, producing informed guesses often using trial-and-error. The results can be false such as in predictions of stock market, sports scores, or the weather. [21] Sometimes this can entail selecting on-the-fly one of several methods to solve a problem based on previous experience. [22] On the other hand, an algorithm is a programmable procedure that produces reproducible results using invariant established methods (such as computing square roots). [21] A heuristic approach that usually works within a tolerable margin of error may be preferred over a perfect algorithm that requires a long time to run. [23]
During Apple and Samsung's patent war over consumer electronics design, in 2011 Samsung used a still image from the scene in which two astronauts are eating at a table with what appear to be tablet computers as an exhibit to counter Apple's patent claiming the original abstract design of tablet computers. [24]
Common 21st-century computer technology not depicted in the film include keyboards, mice, mobile phones, touch screens, interfaces with windows/menus/icons. Although there are devices that resemble tablet computers, they are only used in the film as portable video screens.
All of the vehicles in 2001 were designed with extreme care in order for the small-scale models as well as full-scale interiors to appear realistic. [9] The modeling team was led by Kubrick's two hirees from NASA, science advisor Fred Ordway and production designer Harry Lange, [25] along with Anthony Masters who was responsible for turning Lange's 2-D sketches into models. [26] Ordway and Lange insisted on knowing "the purpose and functioning of each assembly and component, down to the labeling of individual buttons and the presentation on screens of plausible operating, diagnostic and other data." [9] Kubrick's team of thirty-five designers [27] was often frustrated by script changes done after designs for various spacecraft had been created. Douglas Trumbull, chief special effects supervisor, writes "One of the most serious problems that plagued us throughout the production was simply keeping track of all ideas, shots, and changes and constantly re-evaluating and updating designs, storyboards, and the script itself. To handle all of this....a "control room"...was used to keep track of all progress on the film." [28] Ordway, who worked on designing the station and the five principal space vehicles, [lower-alpha 2] has noted that U.S. industry had problems satisfying Kubrick with its equipment suggestions, while design aspects of the vehicles had to be updated often to accommodate rapid screenplay changes, one crew member resigning over an unspecified related issue. [9] Eventually, conflicting ideas of what Kubrick had in mind, what Clarke was writing, and equipment and vehicular realities emerging from Ordway, Lange, Masters, and construction supervisor Dick Frift and his team were resolved, and coalesced into final designs and construction of the spacecraft before filming began in December 1965. [9]
One futuristic device shown in the film already under development when the film was released in 1968 was voice-print identification; the first prototype was released in 1976. [29] A credible prototype of a chess-playing computer already existed in 1968, even though it could be defeated by experts; computers did not defeat champions until the late 1980s. [30] While 10-digit phone numbers for long-distance national dialing originated in 1951, longer phone numbers for international dialing became a reality in 1970. [31] Installation of personal in-flight entertainment displays by major airlines began in the early-to-mid 1990s, offering video games, TV broadcasts and movies in a manner similar to that shown in the film. [32] The film also shows flat-screen TV monitors, of which the first real-world prototype appeared in 1972 produced by Westinghouse, but was not used for broadcast television until 1998. [33] Plane cockpit integrated system displays, known as "glass cockpits", were introduced in the 1970s [34] (originally in NASA Langley's Boeing 737 Flying Laboratory). Today such cockpits appear not only in high-tech aircraft like the Boeing 777, but have also been employed in space shuttles, the first being Atlantis in 1985. [35] Rudimentary voice-controlled computing began in the early 1980s with the SoftVoice Computer System and existed in more sophisticated form by the early 2000s, [36] although not as sophisticated as depicted in the film. The first picture phone was demonstrated at the 1964 New York World's Fair; [37] however, due to the bandwidth limitations of telephone lines, personal video communication did not succeed commercially and has only been practical over broadband internet connections. [38] Personal (audio) wireless telephones were ubiquitous in 2001, and yet no one in the movie had a small personal communication device. [39]
Some technologies portrayed as common in the film which had not materialized in the 2000s include commonplace civilian space travel, space stations with hotels, Moon colonization, suspended animation of humans, practical nuclear propulsion in spacecraft and strong artificial intelligence of the kind displayed by Hal.
There are corporate logos and entities in the film that either didn't exist, no longer exist, or were broken up by anti-trust lawsuits. Still others changed their business model or represent countries that no longer exist.
The British Broadcasting Corporation never expanded to have a BBC-12. BBC Three and Four came into existence in 2003 and 2002 respectively and newer channels used names such as BBC News and BBC Parliament. The corporations IBM, Aeroflot, Howard Johnson's, Whirlpool Corporation and Hilton Hotels, visual references of which appear in the film, have survived beyond 2001, although by 2001 Howard Johnson's had switched its business focus to hotels, rather than the restaurants shown in the film. The film depicts a still-existing Pan Am (which went out of business in 1991) and a still-existing Bell System telephone company (which was broken up in 1984 as a result of an anti-monopoly lawsuit filed by the U.S. Justice Department). [lower-alpha 3] The Bell System logo seen in the film was modified in 1969 and dropped entirely in 1983. [40]
HAL 9000 is a fictional artificial intelligence character and the main antagonist in Arthur C. Clarke's Space Odyssey series. First appearing in the 1968 film 2001: A Space Odyssey, HAL is a sentient artificial general intelligence computer that controls the systems of the Discovery One spacecraft and interacts with the ship's astronaut crew. While part of HAL's hardware is shown toward the end of the film, he is mostly depicted as a camera lens containing a red and yellow dot, with such units located throughout the ship. HAL 9000 is voiced by Douglas Rain in the two feature film adaptations of the Space Odyssey series. HAL speaks in a soft, calm voice and a conversational manner, in contrast to the crewmen, David Bowman and Frank Poole.
2010: Odyssey Two is a 1982 science fiction novel by British writer Arthur C. Clarke. It is the sequel to his 1968 novel 2001: A Space Odyssey, though Clarke changed some elements of the story to align with the film version of 2001.
Apollo 13 is a 1995 American docudrama film directed by Ron Howard and starring Tom Hanks, Kevin Bacon, Bill Paxton, Gary Sinise, Ed Harris and Kathleen Quinlan. The screenplay by William Broyles Jr. and Al Reinert dramatizes the aborted 1970 Apollo 13 lunar mission and is an adaptation of the 1994 book Lost Moon: The Perilous Voyage of Apollo 13, by astronaut Jim Lovell and Jeffrey Kluger.
The Space Odyssey series is a series of science fiction novels by the writer Arthur C. Clarke. The first novel was developed concurrently with Stanley Kubrick's film version and published after the release of the film. The second was made into a feature film, released in 1984, respectively. Two of Clarke's early short stories have ties to the series.
In Arthur C. Clarke's Space Odyssey series, Monoliths are machines in black cuboids whose sides extend in the precise ratio of 1 : 4 : 9 (12 : 22 : 32) built by an unseen extraterrestrial species whom Clarke dubbed the Firstborn and who he suggests are the earliest highly intelligent species to evolve in the Milky Way. In the series of novels (and the films based on these), three Monoliths are discovered in the Solar System by australopithecines and their human descendants. The characters' responses to their discoveries drive the plot of the series and influence its fictional history, particularly by encouraging humanity to progress with technological development.
Artificial gravity is the creation of an inertial force that mimics the effects of a gravitational force, usually by rotation. Artificial gravity, or rotational gravity, is thus the appearance of a centrifugal force in a rotating frame of reference, as opposed to the force experienced in linear acceleration, which by the equivalence principle is indistinguishable from gravity. In a more general sense, "artificial gravity" may also refer to the effect of linear acceleration, e.g. by means of a rocket engine.
2010: The Year We Make Contact is a 1984 American science fiction film written, produced, shot and directed by Peter Hyams. Serving as a sequel to Stanley Kubrick's 1968 film 2001: A Space Odyssey and based on Arthur C. Clarke's 1982 sequel novel, 2010: Odyssey Two, the film follows a joint American and Soviet crew who are sent to Jupiter to discover the reason behind the failure of the Discovery One mission. The film stars Roy Scheider, Helen Mirren, Bob Balaban and John Lithgow, along with Keir Dullea and Douglas Rain of the cast of the previous film.
2001: A Space Odyssey is a 1968 science fiction novel by British writer Arthur C. Clarke. It was developed concurrently with Stanley Kubrick's film version and published after the release of the film. Clarke and Kubrick worked on the book together, but eventually only Clarke ended up as the official author. The story is based in part on various short stories by Clarke, including "The Sentinel". By 1992, the novel had sold three million copies worldwide. An elaboration of Clarke and Kubrick's collaborative work on this project was made in the 1972 book The Lost Worlds of 2001.
Poole vs. HAL 9000 is a chess game depicted in the 1968 science fiction film 2001: A Space Odyssey. Astronaut Frank Poole (White) plays the supercomputer HAL 9000 (Black) using a video screen as a chessboard. Each player takes turns during a game in progress, making their moves orally using descriptive notation and natural language. Poole resigns the game once HAL indicates a certain path to checkmate; however, the move which HAL suggests Frank might make is not forced. Stanley Kubrick, director of 2001, was an avid chess player.
A rotating wheel space station, also known as a von Braun wheel, is a concept for a hypothetical wheel-shaped space station. Originally proposed by Konstantin Tsiolkovsky in 1903, the idea was expanded by Herman Potočnik in 1929.
The United States Spacecraft Discovery One is a fictional spaceship featured in the first two novels of the Space Odyssey series by Arthur C. Clarke and in the films 2001: A Space Odyssey (1968) directed by Stanley Kubrick and 2010: The Year We Make Contact (1984) directed by Peter Hyams. The ship is a nuclear-powered interplanetary spaceship, crewed by two men and controlled by the AI on-board computer HAL 9000. The ship is destroyed in the second novel and makes no further appearances.
Since its premiere in 1968, the film 2001: A Space Odyssey has been analysed and interpreted by numerous people, ranging from professional movie critics to amateur writers and science fiction fans. The director of the film, Stanley Kubrick, and the writer, Arthur C. Clarke, wanted to leave the film open to philosophical and allegorical interpretation, purposely presenting the final sequences of the film without the underlying thread being apparent; a concept illustrated by the final shot of the film, which contains the image of the embryonic "Starchild". Nonetheless, in July 2018, Kubrick's interpretation of the ending scene was presented after being newly found in an early interview.
To The Moon and Beyond is a special motion picture produced for and shown at the 1964/1965 New York World's Fair. It depicted traveling from Earth out to an overall view of the universe and back again, zooming down to the atomic scale. It was filmed in a Cinerama process using a camera with a single fisheye lens and projected onto a dome screen.
2001: A Space Odyssey is a 1968 epic science fiction film produced and directed by Stanley Kubrick. The screenplay was written by Kubrick and the science fiction author Arthur C. Clarke, and it was inspired by multiple short stories written by Clarke, including his 1951 short story "The Sentinel". Clarke also published a novelisation of the film, in part written concurrently with the screenplay, after the film's release. The film stars Keir Dullea, Gary Lockwood, William Sylvester, and Douglas Rain and follows a voyage by astronauts, scientists, and the sentient supercomputer HAL to Jupiter to investigate an alien monolith.
In his lifetime Arthur C. Clarke participated in film, television, radio and other media in a number of different ways.
Road to the Stars is a 1957 Soviet biographical film by Pavel Klushantsev. Combining elements of science educational films and speculative science fiction, the film was groundbreaking for its use of special effects to depict life in space.
Piers Bizony is a science journalist, space historian, author, and exhibition organiser. Bizony specialises in the topics of outer space, special effects, and technology. He has written articles for The Independent, BBC Focus and Wired. His 1997 book The Rivers of Mars was shortlisted for the Eugene M. Emme Astronautical Literature Award. His book 2001: Filming the Future is an authoritative reference about Stanley Kubrick's film 2001: A Space Odyssey. His 2017 book Moonshots was inspired by Michael Light's 1999 book Full Moon.
In popular culture, Stanley Kubrick's 1968 science fiction film 2001: A Space Odyssey has had a significant impact in such diverse cultural forms and media as film, literature, music and technology.
Space travel, or space flight is a science fiction theme that has captivated the public and is almost archetypal for science fiction. Space travel, interplanetary or interstellar, is usually performed in space ships, and spacecraft propulsion in various works ranges from the scientifically plausible to the totally fictitious.