Definition of thermal equilibrium?

AI Thread Summary
Thermal equilibrium is defined as a state where two systems have no spontaneous change in their coordinates when separated by diathermic walls, indicating no heat exchange. The discussion highlights the distinction between thermal equilibrium and steady state, emphasizing that in thermal equilibrium, temperature gradients do not exist, while steady state refers to a system where temperature does not change over time. The confusion arises when considering systems in contact with different temperature reservoirs, where a temperature gradient is present but the system can still be in steady state. The importance of local thermal equilibrium is noted, as it allows for the assignment of a temperature field to the system. Overall, the conversation clarifies the definitions and conditions necessary for thermal equilibrium and steady state in thermodynamic systems.
Arham
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Hello

In Zemansky's book there is this definition of thermal equilibrium:

"Thermal equilibrium exists when there is no spontaneous change in the
coordinates of a system in mechanical and chemical equilibrium when it is
separated from its surroundings by diathermic walls. In other words, there is
no exchange of heat between the system and its surroundings."

This is vague for me. Consider a thermodynamic system in thermal contact with two heat reservoirs at different temperatures. When the system reaches steady state then there will be no change in the coordinates of system. We have a gradient of T in that case. And there will be no net exchange of heat.

What is your opinion?

Sorry for bad english. :shy:
 
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Two bodies are in thermal equilibrium if they have the same temperature and if that isn't going to change.

Ll.
 
You are having a confusion between Thermal Eqb. and Steady State.
Thermal Eqb.: Ṫ = 0 = ∇T
Steady State: ∂T/∂t = 0; where T = T(r,t) is the temperature of the system.
 
Llewlyn said:
Two bodies are in thermal equilibrium if they have the same temperature and if that isn't going to change.

Ll.

Thanks. But I think definition of temperature is based on definition of thermal equilibrium. In other words I think at first we must define thermal equilibrium, and then temperature.
 
Arijit Dutta said:
You are having a confusion between Thermal Eqb. and Steady State.
Thermal Eqb.: Ṫ = 0 = ∇T
Steady State: ∂T/∂t = 0; where T = T(r,t) is the temperature of the system.

Thanks. I know this. Look! When can we assign a temperature field to a system? When there is local thermal equilibrium in the system. But what is the exact definition of thermal equilibrium?
 
2 systems are said to be in thermal equilibrium with each other if there is no change in co- ordinates of either system when they are separated by a diathermal wall.
 
Arijit Dutta said:
2 systems are said to be in thermal equilibrium with each other if there is no change in co- ordinates of either system when they are separated by a diathermal wall.

Coordinates of a system in steady state don't change with time either.
 
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I should have added- both the systems must be separated from their surroundings by adiabatic wall.
 
Arijit Dutta said:
I should have added- both the systems must be separated from their surroundings by adiabatic wall.

Consider just these two systems: 1. The under study system which is in steady state, and 2. the rest of the world.
 

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