I'll take a stab at it. But you really should be talking to ZapperZ.Hootenanny said:This isn't a traditional homework question but here goes. I asked my physics tutor (A-Level) how the strong nuclear force becomes repulsive at small distances and he said he didn't know. I know that it is a nessecity that it is repulsive to prevent the nucleus collapsing, but I would like to know howit happens, are there any law's or mathematical derivations to prove this?
Any help / explanations would be great!
The Strong Nuclear Force is one of the four fundamental forces of nature, along with gravity, electromagnetism, and the weak nuclear force. It is responsible for holding together the nucleus of an atom, which is made up of positively charged protons and neutral neutrons.
The Strong Nuclear Force works by exchanging particles called gluons between quarks, the subatomic particles that make up protons and neutrons. This force is very strong, but it only acts over extremely short distances, within the nucleus of an atom.
The range of the Strong Nuclear Force is very small, only about 10^-15 meters. This is because the force decreases rapidly as distance increases, making it only effective within the nucleus of an atom.
The Strong Nuclear Force is important because it allows the nucleus of an atom to stay together despite the repulsive forces between positively charged protons. Without this force, atoms would not be able to exist and the universe would look very different.
The Strong Nuclear Force is the strongest of the four fundamental forces and cannot be broken or destroyed. However, it can be overcome under extreme conditions such as in nuclear reactions or in the center of a very dense object like a neutron star.