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12 de oct. de 2021 · The science of Interstellar : Thorne, Kip S., author : Free Download, Borrow, and Streaming : Internet Archive. by. Thorne, Kip S., author. Publication date. 2014. Topics. Interstellar (Motion picture), Science in motion pictures. Publisher. New York : W.W. Norton & Company. Collection. internetarchivebooks; printdisabled. Contributor.
Near the speed of light, it turns out. In my science interpretation of Interstellar, the Endurance, parked at ten Gargantua radii while the crew visit Miller’s planet, moves at one-third the speed of light: c/3, where c represents the speed of light. Miller’s planet moves at 55 percent the speed of light, 0.55c.
Download Free PDF. Kip Thorne, Christopher Nolan - The Science of Interstellar. Kip Thorne, Christopher Nolan - The Science of Interstellar. ... Backed by quantum mechanics, general relativity, and planetary science, Interstellar's depiction of the worm hole, Miller's planet, and Gargantua are more or less accurate with a few minor discrepancies.
the sciencef interstellar - Free download as PDF File (.pdf), Text File (.txt) or read online for free. Kip Thorne's book "The Science of Interstellar" provides an in-depth look at the science behind the film Interstellar. The book explains both established science and speculations presented in the movie.
The Science of Interstellar Kip Thorne - Free download as PDF File (.pdf), Text File (.txt) or read online for free. Kip Thorne, a theoretical physicist, has proposed several mind-bending scientific theories that sometimes border on science fiction.
7 de nov. de 2014 · The Science of Interstellar. Kip Thorne. W. W. Norton & Company, Nov 7, 2014 - Science - 336 pages. A journey through the otherworldly science behind Christopher Nolan’s award-winning film,...
The Science of Interstellar. light speed, your time flows far more slowly than on Earth. If you are close enough to light speed, you can make it to your target in a few years or less, as measured by you—slowing down with the aid of a highly elliptical black-hole binary at your target, if you can find one! See Figure 13.6.
