Why Don't Quarks and Antiquarks Annihilate Each Other in Mesons?

  • Thread starter Thread starter Phalanx
  • Start date Start date
  • Tags Tags
    Project
AI Thread Summary
Mesons, composed of a quark and an antiquark, do eventually annihilate each other, but this occurs over a very short time. The residual strong force allows protons and neutrons, which are color-neutral at a distance, to stick together due to the presence of color charge when they are close. Neutrinos, including electron, muon, and tau neutrinos, are produced during particle decay to conserve lepton number. Spin acts as a quantum number that increases the number of possible states in a quantum system, although it is not directly analogous to classical rotation. Understanding these concepts is crucial for grasping the complexities of particle physics and the standard model.
Phalanx
Messages
10
Reaction score
0
Project due tommorrow please help<-----------

hello, i am doing a project on the standard model for my school, i have two questions,

1)mesons are made of a quark and an anitquark, why don't they annihalate each other?

2)what is residual strong force all about, if each proton and neutron are colour neutral then why does the nucleus stick together?

3)also what are neutrinos, and i mean all of them tau electron and muon, and what do they do and how are they made

4)what is the point in spin? i have read many websites about this but none of them explain how different spins make different particles act towards each other.
 
Physics news on Phys.org
Cant help with the questions, but don't leave it soo long before you ask for help next time, the more time you leave yourself the better responses you will get and the more you will understand them.
 
I would like how spin works. I've heard about and all, but I'm not quite sure what it is. I've heard that they are not actually spinning; is this true?

You can post it later, or PM some advice.
 
now i have one more question if you don't mind.

How does elecromagnetic force get 'mediated' by a photon, are charged atoms just constantly emmitting photons in all directions? and why when a photon hits an atom with an opposite charge is it attracted?
 


Originally posted by Phalanx
1)mesons are made of a quark and an anitquark, why don't they annihalate each other?
They do, eventually. A meson may survive for only a very short time before that happens.
2)what is residual strong force all about, if each proton and neutron are colour neutral then why does the nucleus stick together?
When you're far away from the proton, it appears completely color-neutral. When you get close enough, though, you start to notice that there are three "centers" of color inside it. When you're really close, the quark closest to you dominates.

It's very much like electrostatic dipoles. Take molecules of salt, for example: NaCl. When you're far enough away from the salt molecule, it just appears to be a neutral molecule. When you get close enough, you realize there's a positive end and a negative end.
3)also what are neutrinos, and i mean all of them tau electron and muon, and what do they do and how are they made
The electron, muon, and tau are NOT neutrinos -- they are massive leptons. Each has a complementary neutrino -- called the electron neutrino, muon neutrino, and tau neutrino. The neutrinos are created in order to preserve lepton number, basically. When a neutron decays, for example, it decays into a proton, electron, and electron anti-neutrino.
4)what is the point in spin? i have read many websites about this but none of them explain how different spins make different particles act towards each other.
Spin is just another quantum number, which doubles the number of states a quantum system can have. It may or may not be reasonable to consider spin as an analogy to classical rotation. Generally, it's not.

- Warren
 
Spin is just another quantum number, which doubles the number of states a quantum system can have. It may or may not be reasonable to consider spin as an analogy to classical rotation. Generally, it's not.

I thought in an orbital two different electrons have opposite spin in order to conteract the electrostatic repulsive force?

Gary
 

Thread 'Need help understanding particle physics and quantum physics'

So I know that electrons are fundamental, there's no 'material' that makes them up, it's like talking about a colour itself rather than a car or a flower. Now protons and neutrons and quarks and whatever other stuff is there fundamentally, I want someone to kind of teach me these, I have a lot of questions that books might not give the answer in the way I understand. Thanks
View full post »

Thread 'Raman Spectroscopy help'

I am attempting to use a Raman TruScan with a 785 nm laser to read a material for identification purposes. The material causes too much fluorescence and doesn’t not produce a good signal. However another lab is able to produce a good signal consistently using the same Raman model and sample material. What would be the reason for the different results between instruments?
View full post »

Similar threads

I Strong force as exchange of mesons, or of quark and antiquark
Replies
4
Views
3K
Question about formation of deuterium
Replies
5
Views
2K
What Prevents Quark-Antiquark Annihilation in Neutral Pions and J/ψ Mesons?
Replies
4
Views
4K
Why Mesons Can't Be Made of 2 Quarks Alone
Replies
4
Views
2K
I Antimatter-matter annihilation: significance of opposite charge
Replies
21
Views
3K
W+ decay modes neglect mass branching ratiosQ
Replies
3
Views
2K
I New Lepton Universality Data To Be Announced Tuesday, 18 October 2021
Replies
1
Views
2K
I New Naming Rules for Exotic Hadrons at the LHC: LHCb Collaboration Paper (2022)
Replies
7
Views
2K
What's the reason behind the existence of mesons?
Replies
7
Views
9K
What Are Key Topics for Preparing a Particle Physics Exam?
Replies
2
Views
2K

Hot Threads

Recent Insights

Back
Top