How does the Pauli exclusion work on fermions but not on bosons?












1














How does fractional spin effect the symmetry of combined wavefunctions?



Why is Planck constant the universal anchor for determining if a particle is a Boson or a Fermion?










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    How does fractional spin effect the symmetry of combined wavefunctions?



    Why is Planck constant the universal anchor for determining if a particle is a Boson or a Fermion?










    share|cite|improve this question



























      1












      1








      1







      How does fractional spin effect the symmetry of combined wavefunctions?



      Why is Planck constant the universal anchor for determining if a particle is a Boson or a Fermion?










      share|cite|improve this question















      How does fractional spin effect the symmetry of combined wavefunctions?



      Why is Planck constant the universal anchor for determining if a particle is a Boson or a Fermion?







      quantum-mechanics quantum-spin pauli-exclusion-principle






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      edited Nov 24 at 8:41









      Blazar

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      asked Nov 24 at 8:27









      Naama-sela

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          The relation between spin and the exclusion principle is called the spin statistics theorem, but I don't think there is an elementary explanation for it (other than doing the math).



          Plancks constant does not determine if a particle is a boson or a fermion






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            There is the elementary handwaving that exchanging two particles is half a rotation. At least in 3D, a full rotation gives the state that one started with, but in 2D one can have anyons (fractional quantum Hall effect).
            – Pieter
            Nov 24 at 12:14











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          1 Answer
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          1 Answer
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          active

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          active

          oldest

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          active

          oldest

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          3














          The relation between spin and the exclusion principle is called the spin statistics theorem, but I don't think there is an elementary explanation for it (other than doing the math).



          Plancks constant does not determine if a particle is a boson or a fermion






          share|cite|improve this answer

















          • 1




            There is the elementary handwaving that exchanging two particles is half a rotation. At least in 3D, a full rotation gives the state that one started with, but in 2D one can have anyons (fractional quantum Hall effect).
            – Pieter
            Nov 24 at 12:14
















          3














          The relation between spin and the exclusion principle is called the spin statistics theorem, but I don't think there is an elementary explanation for it (other than doing the math).



          Plancks constant does not determine if a particle is a boson or a fermion






          share|cite|improve this answer

















          • 1




            There is the elementary handwaving that exchanging two particles is half a rotation. At least in 3D, a full rotation gives the state that one started with, but in 2D one can have anyons (fractional quantum Hall effect).
            – Pieter
            Nov 24 at 12:14














          3












          3








          3






          The relation between spin and the exclusion principle is called the spin statistics theorem, but I don't think there is an elementary explanation for it (other than doing the math).



          Plancks constant does not determine if a particle is a boson or a fermion






          share|cite|improve this answer












          The relation between spin and the exclusion principle is called the spin statistics theorem, but I don't think there is an elementary explanation for it (other than doing the math).



          Plancks constant does not determine if a particle is a boson or a fermion







          share|cite|improve this answer












          share|cite|improve this answer



          share|cite|improve this answer










          answered Nov 24 at 9:03









          yankyl

          836




          836








          • 1




            There is the elementary handwaving that exchanging two particles is half a rotation. At least in 3D, a full rotation gives the state that one started with, but in 2D one can have anyons (fractional quantum Hall effect).
            – Pieter
            Nov 24 at 12:14














          • 1




            There is the elementary handwaving that exchanging two particles is half a rotation. At least in 3D, a full rotation gives the state that one started with, but in 2D one can have anyons (fractional quantum Hall effect).
            – Pieter
            Nov 24 at 12:14








          1




          1




          There is the elementary handwaving that exchanging two particles is half a rotation. At least in 3D, a full rotation gives the state that one started with, but in 2D one can have anyons (fractional quantum Hall effect).
          – Pieter
          Nov 24 at 12:14




          There is the elementary handwaving that exchanging two particles is half a rotation. At least in 3D, a full rotation gives the state that one started with, but in 2D one can have anyons (fractional quantum Hall effect).
          – Pieter
          Nov 24 at 12:14


















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