You’re mistaken. Dark matter, whatever it is, isn’t affected by anything except gravity. It interacts with gravity just like “normal” matter.
The evidence is also significantly better than you’re describing
You’re mistaken. Dark matter, whatever it is, isn’t affected by anything except gravity. It interacts with gravity just like “normal” matter.
The evidence is also significantly better than you’re describing
People down voting you for bringing up Kessler syndrome were correct to do so. It’s a complete non-issue for starlink-sized objects at that altitude.
Light pollution is a more reasonable objection, and the effects on the upper atmosphere of all those satellites burning up would be as well, but not Kessler syndrome
That’s apparently less risky than riding back on Starliner
Not necessarily. The dangers involved in coming home packed like unsuited sardines in the back of a Dragon only come into play if they need to evacuated the ISS to begin with, so they’re saying the odds of abandoning the ISS and the Dragon capsule loosing it’s atmosphere are better than the odds of a catastrophic failure of the Starliner
Fair enough, I didn’t consider compute resources
The actual length of the password isn’t the problem. If they were “doing stuff right” then it would make no difference to them whether the password was 20 characters or 200, because once it was hashed both would be stored in the same amount of space.
The fact that they’ve specified a limit is strong evidence that they’renot doing it right
The crew of Apollo 13 weren’t really stranded, as such. They were far from home and not sure if they had the means to get home before the supplies ran out, which is a different problem
I don’t see “about 10 years”, I see “decades or longer”.
10 years would be a miracle, there’s effectively no atmosphere above about 600km (which is one reason the other mega constellations have been at or around 500km)
Except what they deliberately deorbit (which they’ll probably be trying to do, if only to avoid fouling up their own orbit) they’re going to generate debris which is up there for centuries, realistically
I was about to comment that those concerns are always exaggerated by people who object to the constellations for other reasons, and that they’re in a low enough orbit that it’s not a realistic concern due to atmospheric drag, but I checked first and god damnit, they’re putting these things at 800km. That’s absolutely high enough that they’ll be there pretty much forever, unless someone goes out of their way to clean it up
I think you misunderstood. They’re pointing out that the Falcon 9’s upper stage is always expended
It’s a matter of perspective. To someone who’s job is to write the system which interprets ASM, ASM is high level
You declaring a debt isn’t meaningful because you don’t have legal authority to do so.
A licence statement is describing in what way you’re granting permission for something you do have the right to control, which makes it meaningful
Nah, we’re alright. I don’t think anyone has clearly defined the requirements of earth citizenship, we can assume it’s like Ireland who hand it out like candy
No it wouldn’t. Whoever touched it last is responsible for it, that’s entirely consistent with the metaphore
I’m pretty sure it means exactly what it says, but you lot are all misreading it.
I interpret it as “all rights, except the right to commit, are reserved” (which doesn’t mean you surrender the right to commit, but rather that it’s the only right you aren’t depriving everyone else of)
I find it makes my life easier, personally, because I can set up and tear down environments I’m playing with easily.
As for your user & permissions concern, are you aware that docker these days can be configured to map “root” in the container to a different user? Personally I prefer to use podman though, which doesn’t have that problem to begin with
The latter, I suspect. That’s certainly how forming a neutron star works in the first place, because if a star gets so dense that it can form neutronium then the neutronium (which is far more dense than the core was before) can easily keep making more.
It’s a similar story with black holes. Get past the threshold at which it forms, and the process runs away and swallows the whole star.
If a quark soup is more dense than neutronium, then it would be fairly all-or-nothing
The satellite uplinks these devices use is very bandwidth limited, and quite expensive. I can assure you that it’s not routinely sending anything without telling you.
Source: worked in satellite comms
Podman supports docker compose just fine. You have to run it as a service, so that it can expose a socket like docker does, but it supports doing exactly that
Because a container is only as isolated from the host as you want it to be.
Suppose you run a container and mount the entire filesystem into it. If that container is running as root, it can then read and write anything it likes (including password databases and /etc/sudo)
You don’t need a force to prevent collapse if there’s no drag force to slow things down. It would actually be almost impossible for a cloud of dark matter to collapse since any individual particle has momentum and no way to slow down, so they’ll all be in some sort of mutual orbit