| 41. | The neutrons resist further compression by the Pauli Exclusion Principle, in a way analogous to electron degeneracy pressure, but stronger.
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| 42. | Spin-objects are all fermions ( a fact explained by the spin statistics theorem ) and satisfy the Pauli exclusion principle.
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| 43. | This is then linked to the Pauli exclusion principle . talk ) 13 : 32, 12 November 2012 ( UTC)
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| 44. | This is because two nucleons of the same kind cannot be in the same state ( Pauli exclusion principle ).
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| 45. | This is because the Pauli Exclusion Principle forbids two neutrons from occupying the same spatial location with the same quantum state.
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| 46. | The Pauli exclusion principle demands that no two electrons within an atom may have the same values of all four numbers.
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| 47. | They also result in the Pauli exclusion principle : two fermionic particles cannot occupy the same state at the same time.
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| 48. | As a consequence of the Pauli exclusion principle, only one fermion can occupy a particular quantum state at any given time.
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| 49. | Bosons differ from fermions in the fact that multiple bosons can occupy the same quantum state ( Pauli exclusion principle ).
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| 50. | This could explain why all known fermions have baryon or lepton quantum numbers and provide a physical mechanism for the Pauli exclusion principle.
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