Interstellar [dt./OV]. ()IMDb 8,62 Std. 49 MinX-Ray Die Zeit der Menschheit auf dieser Erde neigt sich dem Ende zu, und ein Forschungsteam reist. Interstellar. |12 |2 Std. 49 Min.|Abenteuer. Die Menschheit steht kurz vor dem Untergang, also fliegt eine Gruppe Astronauten durch ein Wurmloch, um nach. Über Filme auf DVD bei Thalia ✓»Interstellar«von Christopher Nolan, Jessica Chastain, Anne Hathaway, Matthew McConaughey, Michael Caine mit.
InterstellarDas komplexe Sci-Fi-Drama gipfelt in einem dritten Akt der besonderen Art. Wir erklären euch das Ende von „Interstellar“. Christopher Nolan verhandelt in "Interstellar" große Fragen der Menschheit: gottfern, spektakulär, erstaunlich plausibel. Dennoch wirkt Sci-Fi. Interstellar ist das erste Projekt von Christopher Nolan nach dem Abschluss der Dark-Knight-Trilogie und handelt von einer Gruppe von Wissenschaftl.
Intastellar Navigációs menü VideoInterstellar Main Theme - Extra Extended - Soundtrack by Hans Zimmer
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Crazy Credits. Alternate Versions. Rate This. A team of explorers travel through a wormhole in space in an attempt to ensure humanity's survival.
Director: Christopher Nolan. Writers: Jonathan Nolan , Christopher Nolan. Added to Watchlist. From metacritic.
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Stimmen auf Platz 29 mit einer Durchschnittswertung von 8,6. In Deutschland hatte der Film über 1,7 Millionen Kinobesucher. Bei einem geschätzten Produktionsbudget von Millionen US-Dollar konnte Interstellar zunächst im Jahr ungefähr Mio.
US-Dollar weltweit an den Kinokassen einspielen. Dabei wurden Mio. Kinos zeigten verstärkt ältere Produktionen. Interstellar konnte im Jahr weltweit 24 Mio.
US-Dollar einspielen und sein damaliges Einspielergebnis auf über Mio. US-Dollar anheben. Interstellar wurden über 40 Auszeichnungen verliehen und über weitere Nominierungen zugesprochen.
Einheitlich wurde die visuelle Umsetzung sowie die musikalische Untermalung des Films hervorgehoben. So erhielt Interstellar einen Oscar sowie British Academy Film Award in der erstgenannten Kategorie.
Weiterhin wurde Hans Zimmer für seine Komposition sowohl für den Oscar , den Golden Globe Award , den British Academy Film Award und den Grammy nominiert.
Die nachfolgende Auflistung stellt eine Auswahl der bekanntesten Preise und Nominierungen dar. Oscarverleihung Golden Globe Award British Academy Film Awards Saturn Award Following Memento Insomnia — Schlaflos Batman Begins Prestige — Die Meister der Magie The Dark Knight Inception The Dark Knight Rises Interstellar Dunkirk Tenet.
Film Deutscher Titel Interstellar Originaltitel Interstellar. Jonathan Nolan , Drehbuchautor. Darstellerin Anne Hathaway. Darstellerin Jessica Chastain.
Filme von Christopher Nolan. Kategorien : Filmtitel US-amerikanischer Film Britischer Film Science-Fiction-Film Zeitreisen im Film Klimawandel im Film Künstliche Intelligenz im Film Christopher Nolan Weltraum im Film.
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FSK 12  JMK 12 . The following could be considered prime targets for interstellar missions: . Existing and near-term astronomical technology is capable of finding planetary systems around these objects, increasing their potential for exploration.
Slow interstellar missions based on current and near-future propulsion technologies are associated with trip times starting from about one hundred years to thousands of years.
These missions consist of sending a robotic probe to a nearby star for exploration, similar to interplanetary probes like those used in the Voyager program.
Proposed concepts include Project Daedalus , Project Icarus , Project Dragonfly , Project Longshot ,  and more recently Breakthrough Starshot.
Near-lightspeed nano spacecraft might be possible within the near future built on existing microchip technology with a newly developed nanoscale thruster.
Researchers at the University of Michigan are developing thrusters that use nanoparticles as propellant.
Their technology is called "nanoparticle field extraction thruster", or nanoFET. These devices act like small particle accelerators shooting conductive nanoparticles out into space.
Michio Kaku , a theoretical physicist, has suggested that clouds of "smart dust" be sent to the stars, which may become possible with advances in nanotechnology.
Kaku also notes that a large number of nanoprobes would need to be sent due to the vulnerability of very small probes to be easily deflected by magnetic fields, micrometeorites and other dangers to ensure the chances that at least one nanoprobe will survive the journey and reach the destination.
Given the light weight of these probes, it would take much less energy to accelerate them. With onboard solar cells, they could continually accelerate using solar power.
One can envision a day when a fleet of millions or even billions of these particles swarm to distant stars at nearly the speed of light and relay signals back to Earth through a vast interstellar communication network.
As a near-term solution, small, laser-propelled interstellar probes, based on current CubeSat technology were proposed in the context of Project Dragonfly.
In crewed missions, the duration of a slow interstellar journey presents a major obstacle and existing concepts deal with this problem in different ways.
A generation ship or world ship is a type of interstellar ark in which the crew that arrives at the destination is descended from those who started the journey.
Generation ships are not currently feasible because of the difficulty of constructing a ship of the enormous required scale and the great biological and sociological problems that life aboard such a ship raises.
Scientists and writers have postulated various techniques for suspended animation. These include human hibernation and cryonic preservation. Although neither is currently practical, they offer the possibility of sleeper ships in which the passengers lie inert for the long duration of the voyage.
A robotic interstellar mission carrying some number of frozen early stage human embryos is another theoretical possibility. This method of space colonization requires, among other things, the development of an artificial uterus , the prior detection of a habitable terrestrial planet , and advances in the field of fully autonomous mobile robots and educational robots that would replace human parents.
Interstellar space is not completely empty; it contains trillions of icy bodies ranging from small asteroids Oort cloud to possible rogue planets.
There may be ways to take advantage of these resources for a good part of an interstellar trip, slowly hopping from body to body or setting up waystations along the way.
Physicists generally believe faster-than-light travel is impossible. Relativistic time dilation allows a traveler to experience time more slowly, the closer their speed is to the speed of light.
Upon return, there would be a difference between the time elapsed on the astronaut's ship and the time elapsed on Earth.
For example, a spaceship could travel to a star 32 light-years away, initially accelerating at a constant 1. After a short visit, the astronaut could return to Earth the same way.
After the full round-trip, the clocks on board the ship show that 40 years have passed, but according to those on Earth, the ship comes back 76 years after launch.
From the viewpoint of the astronaut, onboard clocks seem to be running normally. The star ahead seems to be approaching at a speed of 0.
The universe would appear contracted along the direction of travel to half the size it had when the ship was at rest; the distance between that star and the Sun would seem to be 16 light years as measured by the astronaut.
At higher speeds, the time on board will run even slower, so the astronaut could travel to the center of the Milky Way 30, light years from Earth and back in 40 years ship-time.
But the speed according to Earth clocks will always be less than 1 light year per Earth year, so, when back home, the astronaut will find that more than 60 thousand years will have passed on Earth.
Regardless of how it is achieved, a propulsion system that could produce acceleration continuously from departure to arrival would be the fastest method of travel.
A constant acceleration journey is one where the propulsion system accelerates the ship at a constant rate for the first half of the journey, and then decelerates for the second half, so that it arrives at the destination stationary relative to where it began.
If this were performed with an acceleration similar to that experienced at the Earth's surface, it would have the added advantage of producing artificial "gravity" for the crew.
Supplying the energy required, however, would be prohibitively expensive with current technology. From the perspective of a planetary observer, the ship will appear to accelerate steadily at first, but then more gradually as it approaches the speed of light which it cannot exceed.
It will undergo hyperbolic motion. From the perspective of an onboard observer, the crew will feel a gravitational field opposite the engine's acceleration, and the universe ahead will appear to fall in that field, undergoing hyperbolic motion.
As part of this, distances between objects in the direction of the ship's motion will gradually contract until the ship begins to decelerate, at which time an onboard observer's experience of the gravitational field will be reversed.
When the ship reaches its destination, if it were to exchange a message with its origin planet, it would find that less time had elapsed on board than had elapsed for the planetary observer, due to time dilation and length contraction.
All rocket concepts are limited by the rocket equation , which sets the characteristic velocity available as a function of exhaust velocity and mass ratio, the ratio of initial M 0 , including fuel to final M 1 , fuel depleted mass.
Very high specific power , the ratio of thrust to total vehicle mass, is required to reach interstellar targets within sub-century time-frames.
Thus, for interstellar rocket concepts of all technologies, a key engineering problem seldom explicitly discussed is limiting the heat transfer from the exhaust stream back into the vehicle.
A type of electric propulsion, spacecraft such as Dawn use an ion engine. In an ion engine, electric power is used to create charged particles of the propellant, usually the gas xenon, and accelerate them to extremely high velocities.
By contrast, ion engines have low force, but the top speed in principle is limited only by the electrical power available on the spacecraft and on the gas ions being accelerated.
Nuclear-electric or plasma engines, operating for long periods at low thrust and powered by fission reactors, have the potential to reach speeds much greater than chemically powered vehicles or nuclear-thermal rockets.
Such vehicles probably have the potential to power solar system exploration with reasonable trip times within the current century. Because of their low-thrust propulsion, they would be limited to off-planet, deep-space operation.
With fission, the energy output is approximately 0. For maximum velocity, the reaction mass should optimally consist of fission products, the "ash" of the primary energy source, so no extra reaction mass need be bookkept in the mass ratio.
Based on work in the late s to the early s, it has been technically possible to build spaceships with nuclear pulse propulsion engines, i.
This propulsion system contains the prospect of very high specific impulse space travel's equivalent of fuel economy and high specific power.
Project Orion team member Freeman Dyson proposed in an interstellar spacecraft using nuclear pulse propulsion that used pure deuterium fusion detonations with a very high fuel- burnup fraction.
In each case saving fuel for slowing down halves the maximum speed. The concept of using a magnetic sail to decelerate the spacecraft as it approaches its destination has been discussed as an alternative to using propellant, this would allow the ship to travel near the maximum theoretical velocity.
The principle of external nuclear pulse propulsion to maximize survivable power has remained common among serious concepts for interstellar flight without external power beaming and for very high-performance interplanetary flight.
In the s the Nuclear Pulse Propulsion concept further was refined by Project Daedalus by use of externally triggered inertial confinement fusion , in this case producing fusion explosions via compressing fusion fuel pellets with high-powered electron beams.
Since then, lasers , ion beams , neutral particle beams and hyper-kinetic projectiles have been suggested to produce nuclear pulses for propulsion purposes.
A current impediment to the development of any nuclear-explosion-powered spacecraft is the Partial Test Ban Treaty , which includes a prohibition on the detonation of any nuclear devices even non-weapon based in outer space.
This treaty would, therefore, need to be renegotiated, although a project on the scale of an interstellar mission using currently foreseeable technology would probably require international cooperation on at least the scale of the International Space Station.
Another issue to be considered, would be the g-forces imparted to a rapidly accelerated spacecraft, cargo, and passengers inside see Inertia negation.
In theory, a large number of stages could push a vehicle arbitrarily close to the speed of light. Because fusion yields about 0.
However, the most easily achievable fusion reactions release a large fraction of their energy as high-energy neutrons, which are a significant source of energy loss.
Thus, although these concepts seem to offer the best nearest-term prospects for travel to the nearest stars within a long human lifetime, they still involve massive technological and engineering difficulties, which may turn out to be intractable for decades or centuries.
Early studies include Project Daedalus , performed by the British Interplanetary Society in —, and Project Longshot , a student project sponsored by NASA and the US Naval Academy , completed in News of Iceland.
September 21, Archived from the original on December 4, September 9, Archived from the original on September 17, Archived from the original on April 4, Archived from the original on December 21, Retrieved December 20, Archived from the original on June 26, Retrieved June 10, Thompson on Hollywood.
Retrieved October 7, Paramount Pictures. Archived from the original on October 4, Archived from the original on February 2, Business Insider.
Archived from the original on July 19, Retrieved July 19, The Atlantic. Archived from the original on December 1, Archived from the original on July 4, Retrieved June 26, Franklin on Interstellar".
Studio Daily. Archived from the original on February 12, Retrieved February 12, Archived from the original on November 5, Retrieved November 5, Archived from the original on October 31, Retrieved October 31, Archived from the original on October 19, Retrieved October 19, Archived from the original on January 19, Retrieved January 22, Archived from the original on October 5, Retrieved October 5, November 7, Archived from the original on February 21, Mother Jones.
Archived from the original on December 15, Retrieved December 13, Archived from the original on December 27, Stein, Ben November 14, Inside Science.
Archived from the original on January 16, Classical and Quantum Gravity. Bibcode : CQGra.. American Journal of Physics.
AIP Publishing. Bibcode : AmJPh.. July 31, Building Interstellar's black hole: the gravitational renderer. Association for Computing Machinery.
Archived from the original on November 19, Retrieved May 26, New Scientist. Archived from the original on August 23, Retrieved August 1, Archived from the original on The Shadow of the Supermassive Black Hole".
The Astrophysical Journal Letters. Bibcode : ApJ Archived from the original on May 1, Archived from the original on January 10, Archived from the original on May 20, Archived from the original on May 25, Archived from the original on August 2, Retrieved July 30, Retrieved October 4, Archived from the original on September 21, Retrieved September 19, Archived from the original on April 13, Retrieved February 5, Archived from the original on February 5, Archived from the original on October 23, Archived from the original on July 14, Retrieved July 11, Associated Press.
Archived from the original on September 29, Retrieved September 29, Interstellar: The Official Movie Novelization.
Titan Books. Page Six. Archived from the original on October 29, Retrieved October 27, The Guardian. Archived from the original on March 10, Ikon London Magazine.
October 30,Astronomy. situated or occurring between the stars: interstellar dust. Interstellar travel is the hypothetical travel by interstellar probes between stars or planetary systems in a galaxy. Interstellar travel would be much more difficult than interplanetary spaceflight. Captured here by the NASA/ESA Hubble Space Telescope, ESO is one such chaotic planetary nebula, located in the constellation of Scorpius (The Scorpion). Interstellar was released on home video on March 31, , in both the United Kingdom and United States. It topped the home video sales chart for a total of two weeks. It was reported that Interstellar was the most pirated film of , with an estimated million downloads on BitTorrent. Avi Loeb has spent a lot of time thinking about how to explore the interstellar wilds. A prolific astrophysicist at Harvard University and chair of the advisory committee for Breakthrough Starshot. The Ranger, Enduranceand Lander spacecraft were created using miniature effects by Nathan Crowley in collaboration with effects company New Deal Studios, as opposed to using computer generated imagery, as Nolan felt they offered the best way to give the ships a tangible presence The Girl In The Book Stream space. Intastellar August Autokino Dillingen, Crazy Credits. Mann dies during a failed manual docking operation, severely damaging Endurance.