Compute the Helmholtz free energy for N number of atoms of a monatomic ideal gas. The mechanical equation of state is PV = NkBT and the entropy is S = NkB [In ((³/²) + ] where m is mass and h is the Planck constant. Hint: 4mmU 3Nh2 use F = UST.
Compute the Helmholtz free energy for N number of atoms of a monatomic ideal gas. The mechanical equation of state is PV = NkBT and the entropy is S = NkB [In ((³/²) + ] where m is mass and h is the Planck constant. Hint: 4mmU 3Nh2 use F = UST.
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![NkB [in (4) ³/2) + ]
Compute the Helmholtz free energy for N number of atoms of a monatomic ideal
gas. The mechanical equation of state is PV = NkBT and the entropy is S =
where m is mass and h is the Planck constant. Hint:
3/21
N 3Nh2
use F = U-ST.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F0be7d018-b039-4de1-8e23-bb6a9d3034d8%2Fbbaa3bff-3451-4e41-aa44-99fbe349220d%2Fwnv6dt_processed.jpeg&w=3840&q=75)
Transcribed Image Text:NkB [in (4) ³/2) + ]
Compute the Helmholtz free energy for N number of atoms of a monatomic ideal
gas. The mechanical equation of state is PV = NkBT and the entropy is S =
where m is mass and h is the Planck constant. Hint:
3/21
N 3Nh2
use F = U-ST.
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