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Strong cohesive force
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.
The neutron and the proton. And probably several other less-known particles.
The strong nuclear, or "color," force. (Technically, the color force holds the protons and neutrons themselves together; the force that holds the nucleons to other nucleons is the residual color force.)
because they are jack asses
Proton to Proton attraction is not possible due to the electromagnetic force. Opposites attract. Inside the nucleus protons do not repel from each other because of the strong force. Lets take an Oxygen atom for example, it has eight protons inside its nucleus, this means that the force that is between them (a repelling force) is massive but that is where the neutrons come in. Neutrons basically contain a particle that is called the "gluon", this particle is what emits the strong force that is keeping the nucleus together. The strong force is extremely strong but does not have a very big range because of it did it would bring the electrons towards the nucleus. The strong force is what is keeping the nucleus together and is keeping the protons from repelling each other. This is also the reason why there are as many (and more in isotopes) neutrons as there are protons.
It causes the protons in the nucleus repel each other.
Protons repel each other electrically. However, there is another force that counteracts that: the strong force (or "residual strong force") that acts between nucleons (protons and neutrons). Note that two protons alone can't stick together; but if there are also a few neutrons, the strong force becomes dominant.Protons repel each other electrically. However, there is another force that counteracts that: the strong force (or "residual strong force") that acts between nucleons (protons and neutrons). Note that two protons alone can't stick together; but if there are also a few neutrons, the strong force becomes dominant.Protons repel each other electrically. However, there is another force that counteracts that: the strong force (or "residual strong force") that acts between nucleons (protons and neutrons). Note that two protons alone can't stick together; but if there are also a few neutrons, the strong force becomes dominant.Protons repel each other electrically. However, there is another force that counteracts that: the strong force (or "residual strong force") that acts between nucleons (protons and neutrons). Note that two protons alone can't stick together; but if there are also a few neutrons, the strong force becomes dominant.
The "strong force" which binds nucleons (protons and neutrons) together was traditionally considered the strongest force. It is much stronger than the other three traditional forces: the weak force; the electromagnetic forces; gravitation. With the more recent research on quarks, however, it seems that this strong force is just a side effect of an even stronger force that acts between quarks.
Strong cohesive force
The four fundamental forces of nature are gravity, the electromagnetic force, the strong force (strong nuclear force or strong interaction), and the weak force(weak nuclear force or weak interaction).
The strong interaction, also known as the strong nuclear force or the strong force. This force is about 100 times stronger than the electromagnetic force that would be repelling the protons away from each other.
electromagnetic - holds electrons to nucleusweak - mediates neutron decay processstrong - holds nucleus togethergravity - has no effectOnly 3 of the 4 forces act to hold atoms together.
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.
As you may know, there is the electromagnetic force which basically states that opposites attract and that equals repel. This means that the protons would repel each other inside the nucleus thus destroying the nucleus. The strong force is the force that is emitted by the gluons in the neutrons to keep the protons from repelling and destroying the nucleus. It is extremely strong but that reason for which it does not bring the electrons towards the nucleus is because it has a very short range.
If you mean the strong force, you can't (yet) - it is the force that holds the nucleus of an atom together. The strong force is explained as a force bringing very close together similarly charged particles that should normally repulse each other, and is thus incredibly strong (the strongest of the 4/3/2 fundamental forces of the universe).
Weak force, strong force, and electromagnetic force. The other one is gravity.