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The Atomic Nucleus. Groups of quarks hold more complex information that encode another level of entities (protons & neutrons). The interaction of the 3 valence quarks within each nucleon creates an electromagnetic signature that repulses protons from one another. What holds them together is the force released from their constituent quarks (residual strong force or nuclear force), that are exchanging information by releasing smaller groups of quarks & bosons in the form of mesons & gluons.

The Atomic Nucleus. Groups of quarks hold more complex information that encode another level of entities (protons & neutrons). The interaction of the 3 valence quarks within each nucleon creates an electromagnetic signature that repulses protons from one another. What holds them together is the force released from their constituent quarks (residual strong force or nuclear force), that are exchanging information by releasing smaller groups of quarks & bosons in the form of mesons & gluons.

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