Starship Asterisk*

florid_snow wrote: ↑Sun Jun 16, 2024 11:41 pm Maybe I'm wrong, but that "jet" of material looks exactly like a low Reynolds number smoke simulation. I happen to have more than a decade of painful experience with numerical simulations of turbulence. The rule of thumb for analysis via Reynolds number is that you measure the characteristic length scale of the "blobs" that form when the flow forms vorticies and folds on itself, then multiply by an approximate speed per blob, then divide by the viscosity of the atmosphere into which the jet is flowing. But for a vaccuum, there is no viscosity, so the Reynolds number goes to infinity, and it does not make sense to have any turbulent vorticies in a vacuum, except where the jet material has become so concentrated that it forms a partial atmosphere to have viscosity with itself.

Here is a beautiful image from a SpaceX launch that illustrates the transition from turbulence while the jet plume of the rocket is blown into an atmosphere vs a vacuum, and you can clearly see that how the jet plume is not turbulent in the vacuum of space. Maybe jets from black holes can be concentrated and focused via magnetic fields, but they still can't have significant internal viscosity. I think the animation artists here got a little bit ahead of themselves with some Houdini smoke-in-atmosphere simulations.

GdNRq.jpg

Chris Peterson wrote: ↑Sun Jun 16, 2024 2:09 pm It probably makes more sense to visualize that scenario the other way around... a black hole falling straight into the star.

Christian G. wrote: ↑Sun Jun 16, 2024 4:04 pm The idea of a black hole tearing a star apart is pretty wild and sure captures the imagination, I'm glad there are at least "attempts" to show what such events might look like. Here's a more sober attempt, for something hugely wild! A massive black hole repeatedly plunging through the disk of a gargantuan black hole and flashing like a trillion stars each time!
https://www.youtube.com/watch?v=HBE8qBt ... kh&index=6

AVAO wrote: ↑Sun Jun 16, 2024 5:49 pm

Chris Peterson wrote: ↑Sun Jun 16, 2024 5:29 pm

johnnydeep wrote: ↑Sun Jun 16, 2024 5:24 pm

And why is that? When I think of this event I picture the likely less massive object - the star - doing the falling into the likely larger object - the black hole.

The black hole is tiny compared with the star, and of similar mass.

Your statement may be true for normal black holes. However, the animation shown in APOD refers to a supermassive black hole. Here the balance of forces is probably somewhat different.

"Tracing back a ghostly particle to a shredded star, scientists have uncovered a gigantic cosmic particle accelerator. The subatomic particle, called a neutrino, was hurled towards Earth after the doomed star came too close to the supermassive black hole at the centre of its home galaxy 2MASX J20570298+1412165 and was ripped apart by the black hole's colossal gravity... Scientists estimate that the enormous black hole is as massive as 30 million suns...It is the first particle that can be traced back to such a 'tidal disruption event' (TDE) and provides evidence that these little understood cosmic catastrophes can be powerful natural particle accelerators, as the team led by DESY scientist Robert Stein reports in the journal Nature Astronomy. The observations also demonstrate the power of exploring the cosmos via a combination of different 'messengers' such as photons (the particles of light) and neutrinos, also known as multi-messenger astronomy.
[...]

https://www.desy.de/news/news_search/in ... nchor=2030

Chris Peterson wrote: ↑Sun Jun 16, 2024 5:29 pm

johnnydeep wrote: ↑Sun Jun 16, 2024 5:24 pm

Chris Peterson wrote: ↑Sun Jun 16, 2024 2:09 pm

It probably makes more sense to visualize that scenario the other way around... a black hole falling straight into the star.

And why is that? When I think of this event I picture the likely less massive object - the star - doing the falling into the likely larger object - the black hole.

The black hole is tiny compared with the star, and of similar mass.

johnnydeep wrote: ↑Sun Jun 16, 2024 5:24 pm

Chris Peterson wrote: ↑Sun Jun 16, 2024 2:09 pm

richardschumacher wrote: ↑Sun Jun 16, 2024 1:56 pm It's quite rare, but it would be fun to see a simulation of a star falling straight into a black hole, a direct hit as it were.

It probably makes more sense to visualize that scenario the other way around... a black hole falling straight into the star.

And why is that? When I think of this event I picture the likely less massive object - the star - doing the falling into the likely larger object - the black hole.

Chris Peterson wrote: ↑Sun Jun 16, 2024 2:09 pm

richardschumacher wrote: ↑Sun Jun 16, 2024 1:56 pm It's quite rare, but it would be fun to see a simulation of a star falling straight into a black hole, a direct hit as it were.

It probably makes more sense to visualize that scenario the other way around... a black hole falling straight into the star.

richardschumacher wrote: ↑Sun Jun 16, 2024 1:56 pm It's quite rare, but it would be fun to see a simulation of a star falling straight into a black hole, a direct hit as it were.

richardschumacher wrote: ↑Sun Jun 16, 2024 1:56 pm It's quite rare, but it would be fun to see a simulation of a star falling straight into a black hole, a direct hit as it were.

shaileshs wrote: ↑Sun Jun 16, 2024 5:43 am I'm sorry to say, to me, this looks more like a sci-fi movie, super exaggerated dramatic, with all kinds of visual and audio effects (music) to make this even waaaaaaaaaaaay more explosive and dramatic than how in reality it'd be (as per many books and articles and scientists and presentations I've seen/read). Of course, NO ONE KNOWS for sure (and i hope people accept and understand that really no one knows), whatever one proposes is all speculation and theory.. Depends on what and who you believe and why. Nothing correct or wrong. Yes ? What do pundits here say/think ?

Michigan State University researcher Grace Sanger-Johnson found nine previously undiscovered flares from Sagittarius A*, the Milky Way’s central supermassive black hole, by sifting through a decade’s worth of X-ray data. Credit: NuSTAR/NASA

---

[...]
Searching for Sgr A* X-ray Flares with NuSTAR Sanger-Johnson analyzed ten years’ worth of data looking for X-ray flares generated by Sgr A*’s eating habits. During the search, she found evidence for nine more such outbursts.
[...]
The data Sanger-Johnson collected and analyzed is now a database of flares from Sgr A. “We hope that by building up this bank of data on Sgr A flares, we and other astronomers can analyze the properties of these X-ray flares and infer the physical conditions inside the extreme environment of the supermassive black hole,” Sanger-Johnson said.
[...]
Tracking the Echoes of Flares While Sanger-Johnson was working with the NuSTAR data, undergraduate researcher Jack Uteg studied the activity around the black hole. He analyzed 20 years of data about a giant molecular cloud called “the Bridge”. The data came from observations made by NuSTAR and the European Space Agency’s XMM-Newton observatory. The Bridge lies close to Sgr A* and normally wouldn’t give off its own light.
[...]
What Those Light-echoes from Sgr A* Reveal Thanks to Sanger-Brown and Uteg’s work, astronomers have another way around the difficulties of observing around black holes. “Both flares and fireworks light up the darkness and help us observe things we wouldn’t normally be able to,” she said. “That’s why astronomers need to know when and where these flares occur, so they can study the black hole’s environment using that light.”
[...]
“This is the first time that we have constructed a 24-year-long variability for a molecular cloud surrounding our supermassive black hole that has reached its peak X-ray luminosity,” Zhang said. “It allows us to tell the past activity of Sgr A* from about 200 years ago. Our research team at MSU will continue this ‘astroarchaeology game’ to further unravel the mysteries of the Milky Way’s center.”

These results of the MSU team’s work were presented at the summer 2024 meeting of the American Astronomical Society.

https://www.universetoday.com/167397/ec ... lack-hole/

shaileshs wrote: ↑Sun Jun 16, 2024 5:43 am I'm sorry to say, to me, this looks more like a sci-fi movie, super exaggerated dramatic, with all kinds of visual and audio effects (music) to make this even waaaaaaaaaaaay more explosive and dramatic than how in reality it'd be (as per many books and articles and scientists and presentations I've seen/read). Of course, NO ONE KNOWS for sure (and i hope people accept and understand that really no one knows), whatever one proposes is all speculation and theory.. Depends on what and who you believe and why. Nothing correct or wrong. Yes ? What do pundits here say/think ?