The Problem With Interstellar's Black Hole that Everyone Ignores

Astrum

4 Jan 202418:20

Summary

TLDRThis video delves into the scientific concepts explored in Christopher Nolan's *Interstellar*, particularly black holes, wormholes, and time dilation. While the film pushes boundaries between science and science fiction, it stays grounded in modern physics theories like Einstein's relativity and Kip Thorne's research. The video examines the plausibility of key elements such as wormholes, gravitational time dilation, and black hole travel, highlighting where the film aligns with and diverges from current scientific understanding. It concludes with a discussion on time paradoxes and the challenges of time travel portrayed in the movie.

Takeaways

🌌 Interstellar masterfully blends science with science fiction, particularly concepts like black holes, wormholes, and time dilation from general relativity.
⏳ The film explores extreme time dilation as astronauts experience decades passing in minutes due to gravitational forces near black holes.
🌀 Wormholes are theoretically possible, based on Einstein's theory of relativity, but creating and sustaining them for travel is still beyond our capabilities.
📉 Negative mass would be required to keep a wormhole open, but it is purely theoretical and has never been observed in reality.
🛰️ Gravitational time dilation is real and has been experimentally verified, impacting technologies like GPS, which must account for these effects.
🌊 The massive time dilation experienced on Miller’s planet is scientifically plausible due to its proximity to the supermassive black hole, Gargantua.
🔭 Interstellar made significant breakthroughs in visualizing black holes and wormholes, using mathematical models from general relativity to create accurate on-screen representations.
🎬 While the visual scale of Gargantua was altered for cinematic purposes, most scientific details surrounding black holes and gravitational forces were accurately portrayed.
💫 Cooper's journey into the black hole involves theoretical elements like spaghettification and event horizons, though his survival and communication across time stretch scientific plausibility.
🌀 The film’s depiction of time loops, bootstrap paradoxes, and free will presents fascinating but speculative ideas about causality and paradoxes in time travel.

Q & A

What scientific concepts are prominently featured in *Interstellar*?
-*Interstellar* prominently features black holes, wormholes, and time dilation, which are key concepts derived from Einstein's theory of general relativity.
How does *Interstellar* portray wormholes, and is it scientifically accurate?
-The film portrays a wormhole near Saturn as a distortion of light, which is scientifically plausible. Wormholes are extreme distortions in spacetime, and the portrayal aligns with our theoretical understanding, though we currently lack the technology to create or use them.
What is the main issue with creating wormholes, according to the film's scientific advisor Kip Thorne?
-Kip Thorne explains that creating wormholes would require negative mass to keep them open, a form of exotic matter that has not been discovered. Without it, wormholes would pinch off and close, making travel through them impossible.
Is the time dilation experienced on Miller's planet scientifically plausible?
-Yes, the time dilation on Miller's planet is scientifically plausible. The massive gravitational pull from the nearby black hole slows down time for those on the planet, which aligns with Einstein's theory of gravitational time dilation.
Why does the appearance of the black hole in the film deviate from scientific accuracy?
-In the film, the black hole Gargantua appears smaller than it should for aesthetic reasons. In reality, it would take up half the sky of Miller's planet based on its calculated mass, but the filmmakers reduced its size to create more striking visuals.
What happens to Cooper when he enters the black hole in the film?
-In the film, Cooper enters the black hole and finds a tesseract, a five-dimensional space where he can move through time as a physical dimension. This allows him to communicate with his daughter across time using gravitational forces, though this is more science fiction than scientific fact.
What is 'spaghettification,' and would it happen to Cooper if he entered a black hole?
-Spaghettification is the process where an object gets stretched due to the intense gravitational gradient near a black hole. If Cooper entered the black hole, he would likely experience this stretching until he was torn apart at the molecular level.
Can someone actually survive entering a black hole, as Cooper does in the film?
-In reality, entering a black hole would be fatal due to extreme radiation, spaghettification, and the intense gravitational forces. The film's portrayal of survival inside a black hole is purely fictional.
How does the film address paradoxes related to time travel, and what is a bootstrap paradox?
-The film uses a bootstrap paradox, where events are self-contained in a time loop. Cooper's actions in the black hole help humanity in the past, and this cycle always happened the same way, avoiding the paradox of changing the past in a way that prevents future events.
What role did Kip Thorne play in the production of *Interstellar*?
-Kip Thorne served as the scientific advisor for the film, ensuring that concepts like black holes and wormholes were portrayed as accurately as possible. His work on the film even led to new breakthroughs in the mathematical modeling of black holes.