Ignoring spin of the Fermions in an ideal Fermi Gas, the maximal occupation number of an energy is: A) Infinite B) One -D) Three E) Zero For a classical ideal gas trapped in a box of volume I, the thermal De-Broglie wavelength can be In this case, the canonical partition function for a single particle of written as A = mk T C) Two mass m is: A) VA B) 12¹ D E) Independent of Temperature

Ignoring spin of the Fermions in an ideal Fermi Gas, the maximal occupation number of an energy is: A) Infinite B) One -D) Three E) Zero For a classical ideal gas trapped in a box of volume I, the thermal De-Broglie wavelength can be In this case, the canonical partition function for a single particle of written as A = mk T C) Two mass m is: A) VA B) 12¹ D E) Independent of Temperature

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Question

3. Ignoring spin of the Fermions in an ideal Fermi Gas, the maximal occupation number of an energy
is:
A) Infinite B) One
E) Zero
mk T
C) Two
4. For a classical ideal gas trapped in a box of volume I, the thermal De-Broglie wavelength can be
written as At
In this case, the canonical partition function for a single particle of
mass m is:
A) 12² ) V2¹
D) Three
D)
E) Independent of Temperature

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Step 1: 3. Determine the maximum occupation number of ideal fermi gas:

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Step 2: 4. Determine the canonical partition function for a single particle of mass m:

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