(i) Marall. Boltzmann No Configuration 1 2. 3 4 S 6 7 8 9 1 2 3 + 5 6 2 () Fermi-Dirac & () Boson Bose- Ginstein: Nader Canligation No Configuration AG A A B 8 E AA A A E 28 A AB B A A 8 AA A A સુદ In distinguishable 28 22 AR A B A B A JE AA A A A Energy system A SAFFAR 28 Indstinguishable We know fermion follow exclusion principle.. 38 Energy 48 32 48 28 4E SE SE Energy system 22 48 62 38 48 SE 38 48 SE Calculate the average energy of the system as a temperature function for the three statistics above.

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View a system of two particles that do not interact with each other, where each particle can occupy three possible states, each with energy &, 2ɛ, 3E (i) Marwell-Boltzmann: Na. Configuration 1 2 3 4 S 6 7 2 9 Nader Conligation 1 2 2 + 1 2 5 6 (1) Fermi-Dirac 3 No. Configuration E AG A A B B AA A A Distinguishable 28 E AB (6) Boson: Base- Ginstein: Indistinguishable င် A A B A A 8 28 AA A A 38 A 2 A AB B A CO B A JE AA A A Energy system A A wwwww Indistinguishable We know formion follow exclusion principle. 28 38 Smarty tem 28 32 38 4E SE SE Energy system 22 48 68 38 48 SE 38 4€ SE Calculate the average energy of the system as a temperature function for the three statistics above.