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The number of particles that can occupy a given quantum state depends on the nature of the particles and the particular quantum system being considered. In quantum mechanics, the Pauli exclusion principle states that particles with half-integer spin, such as electrons, cannot occupy the same quantum state simultaneously. This principle is fundamental to understanding the behavior of fermions, which include electrons, protons, and neutrons.

For fermions, each quantum state can be occupied by a maximum of one particle. This is known as the "exclusion principle" or the "Pauli exclusion principle." For example, in an atom, each electron occupies a unique set of quantum numbers, including energy level, orbital angular momentum, and spin.

On the other hand, particles with integer spin, known as bosons, do not follow the exclusion principle. Bosons can occupy the same quantum state simultaneously, and there is no limit to the number of particles that can occupy a given state. Examples of bosons include photons, gluons, and the particles responsible for the weak nuclear force.

In summary, for fermions, only one particle can occupy a given quantum state, while for bosons, any number of particles can occupy the same state.

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