Visually at least, it can be done, ringularity and all, but extremely heavy on performance.
As for surviving such a trip, well, you wouldn't ever get this close to a singularity.
Visually at least, it can be done, ringularity and all, but extremely heavy on performance.
I don't think we can say much about quantum computers now, we're essentially 60s people wondering where computing will go.I wonder how much computational power would be needed? It would be ironic if we'd need quantum computers to model relativity, and by then we'd be onto a workable theory of quantum gravity which would replace relativity at the "singularity" and truly reveal what it was.....and then what would we need to model quantum gravity?
Does this guy's simulation take into account the motion of the camera?
Doc there was recently a paper published on traversable wormholes that did not require exotic matter- I think you would find it interesting.
Wat, is reverse time flow equivalent to negative mass? For simulation purposes I mean.
tbh I would still like to have a Gargantua somewhereWhile it might look nice, it's inaccurate. Real black hole accretion disks do not look like that, specifically with respect to the color, brightness, and how those change with distance from the center.
SE's visualization of the black holes and their accretion disks is much more close to reality and uses most of the correct physics, including the gravitational lensing (using the Schwarschild metric), and the Doppler effect due to the disk's rotation. The effective temperature of the disk (and hence its color and brightness) as a function of distance from the center is also modeled, although not perfectly. In reality it should be even brighter and wider -- quite the opposite of what the artist's rendition showed!
To be more realistic, and add some variety, black hole accretion disks could be made volumetric, and their appearance based on GRMHD simulations of disks with different accretion rates. Real black holes also spin (Kerr metric rather than Schwarzschild), which affects how close the inner part of the accretion disk gets to the event horizon.