Questions on the Strong Nuclear Force

Join the discussion
Ask a follow-up here, or get your own question answered by working scientists, mathematicians and engineers — people, not an autocomplete.
Real named experts · corrections over time · the nuance an AI answer skips
2 replies · 2K views
Metals
Messages
48
Reaction score
2
I've been researching and I came across the Strong Nuclear Force. This is apparently the strongest force ever, and only occurs in nuclei at an atomic scale. Now, when a nucleus becomes to big, radiation will occur to decrease its size and return it to a stable state.

Does radiation occur, because the Strong Nuclear Force is unable to hold that many baryons together?

And someone confirm if the following is true; Gluons are bosons, and are responsible for keeping quarks together through the use of the Strong Nuclear Force.

Thank you.
 
Physics news on Phys.org
Metals said:
And someone confirm if the following is true; Gluons are bosons, and are responsible for keeping quarks together through the use of the Strong Nuclear Force.
Although I cannot provide exact sources right now, I would say this is true.
 
Metals said:
Now, when a nucleus becomes to big, radiation will occur to decrease its size and return it to a stable state.
The strong force is still there - but with increasing mass the electromagnetic repulsion grows faster than the attractive strong force, so very large nuclei tend to emit alpha particles (helium nuclei). Some smaller nuclei do the same, it is not limited to heavy nuclei.
Metals said:
And someone confirm if the following is true; Gluons are bosons, and are responsible for keeping quarks together through the use of the Strong Nuclear Force.
The action of gluons is the strong force.