If you get them close enough, yes; they'll be attracted by the residual color force.
Protons and neutrons attract each other.
"Opposites attract". So two electrons repel each other.
protons and neutrons repel each other. The protons in the nucleus repel each other...APEX
False. Neutrons have no charge so can not repel each other.
The protons in an atomic nucleus do repel each other, but they are held together by the Strong Nuclear Force, which is stronger than the electrical force that pushes them apart. Within the nucleus, the Strong Force is more than 100 times stronger than the electric force.
Most atoms are broken down into three parts. The atom consists of an electron, proton, and a neutron. The type of atom molecule determines how many of the protons, neutrons, and electrons are present.
When they're very, very close together. Protons and neutrons are not attracted to each other electromagnetically, as neutrons have no electronic charge.Protons and electrons are, as one has a positive and one has a negative charge.Instead, Protons and Neutrons are held together in the nuclei of atoms by the Strong Nuclear Force. The strong force (also called the color force) is the strongest of the four basic forces, but it's only important over extremely short ranges.
protons and neutrons repel each other. The protons in the nucleus repel each other...APEX
"Opposites attract". So two electrons repel each other.
Repel
Only when very close to each other. This is not because of the electric force, it is because of the "strong force," or the emission and absorption of gluons between them. This also happens between neutrons and protons.
Neutrons do not have a net electrical charge, in other words they are electrically neutral. On the other hand, electrons have a negative charge, and they do repel each other since like charges repel. This is the same for protons except that protons are positively charged.
like forces repel, unlike forces attract(:
like forces repel, unlike forces attract(:
Electrically the protons repel each other, right? So what keeps them united? The answer is that there is a stronger force between nucleons - protons and neutrons. This force is called the "strong force". The strong force between two protons is not strong enough to keep them together (against the electrostatic force); but if there are some neutrons present, the situation changes, because the strong force acts between protons, but also between protons and neutrons.
The particles with similar charges with repel each other, This is commonly observed i n the magnetic poles where if one places the like poles that is two north poles or two south poles together it will repel reach other. This principle is very important to remember that like charges repel each other and unlike charges attract each other.
It causes the protons in the nucleus repel each other.
The amount of experimental data relating to the relative location of protons, neutrons, and electrons in an atom is so vast that it would be difficult to know where to start. It is known that protons and neutrons attract each other by means of the strong nuclear force; without this attraction it would be impossible to have any atom with more than one proton in the nucleus, since protons repel each other. This requires neutrons to be in the nucleus, with the protons, not orbiting the nucleus. When atoms are ionized, we know they lose or gain electrons and not neutrons because they acquire an electric charge. There are thousands of other ways of confirming this.