3
The Second and Third Laws
of Thermodynamics: Entropy
PRINCIPAL FACTS AND IDEAS
- There are two principal physical statements of the second law of
thermodynamics: (1) If a system undergoes a cyclic process it cannot turn
heat put into the system completely into work done on the surroundings.
(2) Heat cannot flow spontaneously from a cooler to a hotter object if
nothing else happens.
- The second law implies that no heat engine can have an efficiency as
great as unity.
- The mathematical statement of the second law establishes a new state
function, the entropy, denoted bySand defined through its differential by
dS�
dqrev
T
- The mathematical statement of the second law provides a means of
calculating the entropy change of any process that begins and ends at
equilibrium states.
- The second law implies that no macroscopic process can decrease the
entropy of the universe.
- Entropy is connected with lack of information through the Boltzmann
definition of the statistical entropy:
Sst�kBln(Ω)
wherekBis Boltzmann’s constant andΩis the number of mechanical
states that corresponds to the thermodynamic state of the system,
corresponding to a fixed energy.
- The third law of thermodynamics allows the entropy of any pure perfect
crystalline substance consistently to be set equal to zero at absolute zero
of temperature.
- The second and third laws of thermodynamics imply that zero
temperature on the Kelvin scale is unattainable.
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