11.3 A collection of free nucleons is enclosed in a box of volume V. The energy of a single nucleon of momentum p is p? + mc? 2m %3D where mc? = 1000 MeV. a) Pretending that there is no conservation law for the number of nucleons, calculate the partition function of a system of nucleons (which obey Fermi statistics) at temperature T. b) Calculate the average energy density. [c) Calculate the average particle density. (d) Discuss the necessity for a conservation law for the number of nucleons, in the light of the foregoing calculations.
11.3 A collection of free nucleons is enclosed in a box of volume V. The energy of a single nucleon of momentum p is p? + mc? 2m %3D where mc? = 1000 MeV. a) Pretending that there is no conservation law for the number of nucleons, calculate the partition function of a system of nucleons (which obey Fermi statistics) at temperature T. b) Calculate the average energy density. [c) Calculate the average particle density. (d) Discuss the necessity for a conservation law for the number of nucleons, in the light of the foregoing calculations.
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Transcribed Image Text:11.3 A collection of free nucleons is enclosed in a box of volume V. The energy of a
single nucleon of momentum p is
p?
+ mc?
2m
where mc?
1000 MeV.
(a) Pretending that there is no conservation law for the number of nucleons, calculate the
partition function of a system of nucleons (which obey Fermi statistics) at temperature T.
(b) Calculate the average energy density.
(c) Calculate the average particle density.
(d) Discuss the necessity for a conservation law for the number of nucleons, in the light
of the foregoing calculations.
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