dU¼dQþdW (3.11)When the total volume is kept constant,dV¼0, we havedW¼PdVþfdl¼fdl (3.12)According to the second law of thermodynamics, the reversible heat exchange is
proportional to the entropic change under constant temperatures and pressures,
dQ¼TdS (3.13)while
dU¼TdSþfdl (3.14)Therefore, we havef¼ð@U
@lÞT:V:Tð@S
@lÞT:V:¼fEþfS (3.15)where
fE¼ð@U
@lÞT:V:
fS¼Tð@S
@lÞT:V:
Here,fEis calledthe energetic elasticity, andfSis calledthe entropic elasticity.
For instance, the spring exhibits a high elasticity mainly contributed by the ener-
getic elasticity due to the metallic bonds for the strong interactions of iron atoms,
while the rubber exhibits a high elasticity mainly contributed by the entropic
elasticity due to the chain conformations for the large deformations of polymers.
Fig. 3.4 Illustration of the stretching forcefimposed onto both ends of an elastic body with a
lengthland a cross-sectional areaA
36 3 Conformation Statistics and Entropic Elasticity