(/spoiler) The time dilation on that planet—one hour equals 7 Earth years—seems extreme. Instead, what the team encounters is a shallow water world with 1.2-kilometer high waves.
These ticks happen every 1.25 seconds.
These ticks happen every 1.25 seconds. It takes its name from Dr. Miller, who landed on the planet and activated the “thumbs up” beacon, and it’s also the first location the crew of the Endurance visit. The time involved also includes the time NEAR the planet, when the team is entering and exiting the planet's vicinity. In the movie Interstellar, Joseph Cooper (Matthew McConaughey) lands the Ranger 1 on Miller’s planet, a water world orbiting the supermassive black hole, Gargantua.Initial scans show the planet rich with the organic molecules, water, and sunlight necessary for life. The reason why time runs differently on the planet Miller is primarily because of the extreme gravity of the black-hole Gargantua. The time dilation factor is exactly 1 hour on Milller per 7 years of Earth time due to the gravitational forces of Gargantua moving the planet through empty space at roughly 99.99999998% the speed of light. Each tick you hear is a … I'll explain this as simply as possible.
- Duration: 8:15. The film "Interstellar" relies on real science for many of its stunning visuals. In Interstellar on the water planet, the soundtrack in the background has a prominent ticking noise. No, you cannot generate large waves in shallow water! The total time dilation coming from comparing the integrated proper time lengths for each observer and these will be different for Miller’s planet, the Endurance, and for Earth. One of the big points of the film is that the team was ill-prepared for this mission (as Cooper blurts out on the surface). Gravitational Time Dilation. The huge waves in "Interstellar" were the one serious physics blunder in that movie. Interstellar Miller's planet Scene 720p [HD] - Duration: 6 ... Time Dilation - Einstein's Theory Of Relativity Explained!
This would equate to roughly 7 years of time outside of the black hole's cusp (in orbit, where Endurance is).] Now, if we make some maths: The trip from Earth takes 8 months + 14 months = ~2 years to reach that system. There isn't enough water present. In the Water planet, 1 hour equals 7 years in earth time.
At most, they could have spent only about 1 hour 15 minutes on or near the planet. The speed of light is taken to be a constant. In Interstellar on the water planet, the soundtrack in the background has a prominent ticking noise. This considers flight time in and out, the brief time spent walking outside the ship, the time riding the wave, and the time spent waiting for the engines to drain. So even though the beacon seemed to be active for a decade in earth time, the reality is that Miller (The astronaut assigned for the water planet) was killed as soon as she entered the planet and the beacon was active only for 1+ hr. Yes, you can have large amounts of water coming in from afar. Each tick you hear is a …
The film "Interstellar" relies on real science for many of its stunning visuals. To get that, you’d apparently need to be at the event horizon of a black hole. From a comment by Jesse Pollard below arises the question of Miller’s planet being realistically inhabitable. In interstellar, the first planet they visit is the closest one to Gargantua, and hence the one with the biggest time dilation effect (1 hour on the planet = 7 years in the Earth).