How Does Temperature Distinguish Thermal States in Equilibrium?

AI Thread Summary
Temperature serves as the distinguishing parameter for different thermal states in thermodynamic systems at equilibrium, as thermal equilibrium is defined by reflexivity, symmetry, and transitivity. The discussion highlights that if system A is in equilibrium with system B, then they share the same temperature, supporting the concept of thermal equilibrium as an equivalence relation. However, the conversation points out a gap in connecting these principles to systems that are not in thermal equilibrium, emphasizing the need to explore the implications of differing thermal states. Understanding how temperature relates to thermal states is essential for a complete analysis of thermodynamic behavior. The importance of this connection is crucial for a comprehensive understanding of thermal dynamics.
pitbull
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Homework Statement


Prove that there is a parameter that distinguishes different thermal states if thermal equilibrium between thermodynamic systems is an equivalence relation.

Homework Equations


Equivalence relation>>>> reflexive, symmetric and transitive

The Attempt at a Solution


The parameter should be temperature. First I could say that thermal equilibrium is reflexive (every thermal equilibrium of a system is in equilibrium with itself), and symmetric (if A is in equilibrium with B, then B is in equilibrium with A). If thermal equilibrium is an equivalence relation, then it must also be transitive (you can compare thermal equilibrium without thermal contact, aka 0th law of Thermodynamics). So you need a parameter to compare, and that parameter must be the temperature. Is this all I must answer?

PS> Sorry for my English
 
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The part you are missing is what happens when there are different thermal states? You described what it means to be in equilibrium. But you did not connect that to systems that are not in thermal equilibrium.
 
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DEvens said:
The part you are missing is what happens when there are different thermal states? You described what it means to be in equilibrium. But you did not connect that to systems that are not in thermal equilibrium.
Thanks, man!
 
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