Consider a rubber band of length L held at tension f. For displacements between equilibrium states dE= TdS+fdL + μ dn, where is the chemical potential of a rubber band and n is the
Consider a rubber band of length L held at tension f. For displacements between equilibrium states dE= TdS+fdL + μ dn, where is the chemical potential of a rubber band and n is the
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Question 1.12.
![29°F
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1.12. Consider a rubber band of length L held at tension f. For
displacements between equilibrium states
dE=TdS+fdL + μ dn,
where is the chemical potential of a rubber band and n is the
μ
26
ww
3
INTRODUCTION TO MODERN STATISTICAL MECHANICS
mass or mole number of the rubber band. Derive the analog of
the Gibbs-Duhem equation for a rubber band.
Q Search
8
9:40
10:58
2/2/2](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F9b65ef36-cf51-4f81-80a6-74e205c9e9b1%2F7a5d1be9-cd50-4393-83c5-740fd50ee259%2F18w2wmf_processed.jpeg&w=3840&q=75)
Transcribed Image Text:29°F
Clear
1.12. Consider a rubber band of length L held at tension f. For
displacements between equilibrium states
dE=TdS+fdL + μ dn,
where is the chemical potential of a rubber band and n is the
μ
26
ww
3
INTRODUCTION TO MODERN STATISTICAL MECHANICS
mass or mole number of the rubber band. Derive the analog of
the Gibbs-Duhem equation for a rubber band.
Q Search
8
9:40
10:58
2/2/2
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