←back to thread

James Webb Space Telescope reveals that most galaxies rotate clockwise

(www.smithsonianmag.com)
352 points instagraham | 10 comments | 31 Mar 25 10:31 UTC | HN request time: 1.493s | source | bottom
Show context
worldsayshi ◴[31 Mar 25 11:02 UTC] No.43533522[source]
Clockwise relative to what? Does the universe have an "upwards" direction?

Or is it just relative to all the other galaxies?

replies(3): >>43533588 #>>43533599 #>>43534069 #
andrewaylett ◴[31 Mar 25 11:11 UTC] No.43533588[source]
Clockwise relative to our viewpoint, while we would expect that we'd see an equal number rotating in either direction no matter which way we looked or where we were looking from.
replies(4): >>43533651 #>>43533718 #>>43535830 #>>43539189 #
MichaelZuo ◴[31 Mar 25 11:19 UTC] No.43533651[source]
How does that follow?

I imagine there was already a preferred spin of gases immediately after the big bang, just due to random chance, so why wouldn’t that be preserved more or less?

replies(2): >>43533671 #>>43533713 #
namaria ◴[31 Mar 25 11:22 UTC] No.43533671[source]
That's the thing, we don't know any reason for a preferred spin and assumed it would be equally distributed. So this is an interesting fact.
replies(1): >>43538937 #
1. MichaelZuo ◴[31 Mar 25 19:37 UTC] No.43538937[source]
There doesn’t need to be a reason, just random chance from gasses shifting around is sufficient.
replies(1): >>43540075 #
2. hnaccount_rng ◴[31 Mar 25 21:16 UTC] No.43540075[source]
I think you are misunderstanding the point being made: The _only_ random chance that is part of current models is "quantum uncertainty at big bang time" and we can give upper bounds for the variations that can be explained from that. So what's really being said here is "We found a significantly larger discrepancy between Milkyway-corotating galaxies and Milkyway-counterrotating galaxies than can be explained by ~initialisation randomness"
replies(1): >>43540414 #
3. MichaelZuo ◴[31 Mar 25 21:56 UTC] No.43540414[source]
That doesn’t make sense, they can’t be assumed to have behaved like ideal gasses, thus turbulence alone can cause significant uncertainties.

Let alone all other possibilities combined.

replies(2): >>43543761 #>>43550816 #
4. namaria ◴[01 Apr 25 07:14 UTC] No.43543761{3}[source]
I don't get it, why did you ask for clarifications about why this was not expected if you're just going to be adamant it should have been expected?

Is it really your honest position that everyone has been doing cosmology wrong and you would have known better?

replies(1): >>43545875 #
5. MichaelZuo ◴[01 Apr 25 12:21 UTC] No.43545875{4}[source]
I didn’t ask for clarifications… I asked how it followed…

Are you sure you understood the comments completely?

It’s my honest opinion that anyone assuming away phenomena like turbulence, without credible proof, cannot be relied upon to have accurate insights.

So yes whenever I do have better insights, than by definition that’s more than 100% of the population who do not.

replies(1): >>43550800 #
6. namaria ◴[01 Apr 25 20:05 UTC] No.43550800{5}[source]
Right. I guess I did not understand your comment at all then. I am sorry I engaged.
replies(1): >>43553145 #
7. hnaccount_rng ◴[01 Apr 25 20:07 UTC] No.43550816{3}[source]
No it can't. Turbulence does not introduce net-angular momentum. It just (re)distributes it. And the scale on which that "mixing" can happen is limited (essentially the speed of sound is smaller than the expansion of the universe in the early universe). So on large enough scale, it (~any vector value) must be add up to ~zero (up to the initialisation uncertainties). Or one of our fundamental assumptions is wrong. And that's why this is so interesting
replies(1): >>43553153 #
8. MichaelZuo ◴[02 Apr 25 02:23 UTC] No.43553145{6}[source]
Then why stick around for another reply that can only detract, or at best be neutral…?

It seems impossible for this to add to your argument.

9. MichaelZuo ◴[02 Apr 25 02:24 UTC] No.43553153{4}[source]
Can you link the proof for these claims?

I don’t see any obviously titled ones on Google Scholar, such as proving it’s impossible for turbulence to “introduce net angular momentum”.

replies(1): >>43554389 #
10. hnaccount_rng ◴[02 Apr 25 07:21 UTC] No.43554389{5}[source]
I don't have anything more than Newton's third law for you and that its effects also hold in general relativity. The "far away parts of the universe are disconnected" is from my astrophysics courses back in university and the number of lectures to the cosmic microwave background, mostly coming from people discussing the Planck mission.

But.. no, I don't have a convenient citation for you. And at least for the "angular momentum is conserved thing", I'd be surprised if you'd find a google scholar paper, this is early GR