The strong force holds the nucleus together against the repulsion between the electric charges of the protons.
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The strong nuclear force, also called binding energy, holds quarks together to form protons and neutrons. Residual binding energy, also called the nuclear force, holds protons and neutrons together to form the nucleus of an atom. This holds true up to about atomic number 83 (bismuth), at which point the electromagnetic force, a repulsive force for protons, starts to overcome the distance barrier of binding energy and make the nucleus unstable. This makes the atoms starting at bismuth and above be radioactive. Additionally, the presence or absence of extra neutrons, i.e. isotopes, even in light nuclides, can, due to the weak interaction, makes the nucleus be unstable, and radioactive.
Connective tissue hold structures together.
accelerating force
Solid have definite shape because the particles of solid are closely packed together and they cannot move freely. Therefore the force of attraction of particles in solid is more.
electromagnetic force
the gravitational force holds its atmosphere together
kinatic force
It is the strong attraction, or strong nuclear force, that holds the nucleus together within the atom.
its the nuclear membrane No, the strong nuclear force holds the nucleus together. The strong nuclear force is caused by the force that hold quarks together.
The strong atomic force holds protons (and neutrons) together in the nucleus.
Gravity, the force of attraction between all masses in the universe, is the inward force that holds a star together.
the force of attraction that holds atoms together is a chemical bond
The: "Strong Force".
chemical bond holds together the atoms in a substance
The residual strong force. The strong force (or color force) is what holds quarks together to form protons and neutrons. The residual strong force then holds the protons and neutrons together in the nucleus.
A Chemical Bond