First law of thermodynamics: Difference between revisions

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:<math>\left.dU\right.=dQ+dW</math>
:<math>\left.dU\right.=dQ+dW</math>


Where <math>U</math> is the internal energy of the system, i.e.
Where <math>U</math> is the [[internal energy]] of the system, i.e.
ignoring the external energy of the system, for example
ignoring the external energy of the system, for example
motion of the center of mass of the system, or the presence  
motion of the center of mass of the system, or the presence  

Revision as of 17:28, 7 June 2007

Conservation of energy.

Where is the internal energy of the system, i.e. ignoring the external energy of the system, for example motion of the center of mass of the system, or the presence of an external field. Reversible change

irreversible change

For an adiabatic system (i.e. a system in which no heat enters or leaves) then if two bodies of different temperatures are placed in contact and then separated then the sum of the heat within the system is unchanged. This is conservation of energy. The first law of thermodynamics does not provide information on the direction of the heat transfer (if any). In other words, the common experience that the hotter object gives heat to the colder object, the direction of heat flow from hot to cold, is left to the second law of thermodynamics.