One might think that Gluons and Klingons are related, but in fact they’re not, because Gluons have no honor.
particles
Submitted 5 months ago by fossilesque@mander.xyz to science_memes@mander.xyz
https://mander.xyz/pictrs/image/2327fef9-0f05-4f58-b06a-64ab6f254666.jpeg
Comments
Crackhappy@lemmy.world 5 months ago
niktemadur@lemmy.world 5 months ago
Actually, that’s pretty much scratching the belly of an expert answer, you gotta go a few layers into Quantum Chromodynamics to know that tidbit about the colors and anti-colors of gluons.
itsAsin@lemmy.world 5 months ago
who is that cute man, please?
rhandyrhoads@lemmy.world 5 months ago
Andy Samberg. American treasure.
venoft@lemmy.world 5 months ago
It’s a scene from Brooklyn 99.
shinysquirrel@lemmy.ml 5 months ago
I dont get it?
magic_lobster_party@kbin.run 5 months ago
I found this after a Google: https://math.ucr.edu/home/baez/physics/ParticleAndNuclear/gluons.html
There are 8 types of gluon particles.
rockerface@lemm.ee 5 months ago
Sounds about right
dave@feddit.uk 5 months ago
Physicists:
Also Physicists: *85% of the universe’ mass is missing!!! *
perishthethought@lemm.ee 5 months ago
From Wikipedia:
Glad I could help, lol
shinysquirrel@lemmy.ml 5 months ago
thank you!
Kovukono@pawb.social 5 months ago
All of this is just going off checking Wikipedia, so it could be wrong. Gluons are a type of particle that can have nine different “color states” depending on the quarks and anti-quarks that comprise them (despite the name, it has nothing to do with literal color). These states are made up of red, green, and blue for quarks, and anti-red, anti-green, and anti-blue for anti-quarks. Depending on the combinations of quarks and anti-quarks, the color state of gluons listed something like “red-antigreen” as “rg”, with the “g” having a line over it to show it’s anti-green, not green. Since you can have a color matched with the anti-version of its color, like I said earlier, you get 9 potential color states.
Then, of those 9 color states, you have combinations of two gluons of different types of states that combine. If you have a strong, stable version of this state, it’s called a color state singlet. Particles like protons have this state, and it allows them to interact with other particles that also have color singlets. However, gluons can’t interact at long range, that means they also can’t hold a color singlet.
So, that leaves 8 potential color state couplets that can be formed. I have no idea why there’s only 8 valid arrangements of those 9 couplets that aren’t a stable singlet, but apparently you can only get 8.
Also tagging @Owl@mander.xyz because I don’t think they’d get notified.
NailBunny@hexbear.net 5 months ago
There are 8 varieties of gluons, the subatomic particles that exchange the strong force between quarks. The person answered with one word that more or less satisfied the 8 particle requirement. I think that’s the joke, at least
BuboScandiacus@mander.xyz 5 months ago
Commenting to get the notification if somebody answears
brbposting@sh.itjust.works 5 months ago
k
brbposting@sh.itjust.works 5 months ago
I’m Ron Burgundy?