Calculating Work, Heat & Energy Change in Gas

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Homework Help Overview

The discussion revolves around a thermodynamics problem involving the calculation of work done, heat added, and changes in energy content for a gas across different processes, as represented on a pressure versus volume graph.

Discussion Character

  • Conceptual clarification, Assumption checking

Approaches and Questions Raised

  • Participants explore the meaning of "change in the energy content of the gas" and its relation to internal energy. There is a discussion about the application of the first law of thermodynamics and how to interpret the relationship between heat, work, and energy change.

Discussion Status

Some participants have provided insights regarding the definition of energy content and its connection to internal energy, while others have questioned the clarity of the problem statement. There is an acknowledgment of the first law of thermodynamics as a relevant principle in this context.

Contextual Notes

Participants note a lack of explicit definitions in the problem statement regarding the terms used, which may lead to varying interpretations of the energy content change.

jason177
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Homework Statement


I don't need help on the problem itself but I did have a question about what does this mean by change in the energy content of the gas?
The question is:
For each of the four steps A through D, compute the work done on the gas, the heat added to the gas, and the change in the energy content of the gas.

and then there is a P vs V graph that we are supposed to use to answer the question.

The Attempt at a Solution


I thought it might mean what percent of the change in energy is caused by heat and what percent is caused by work but I'm not sure and it doesn't say anything about it in the book.
 
Last edited:
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anyone have any ideas?
 
By "energy content" they mean internal energy. What does the first law of thermodynamics have to say about that?
 
ok, so for change in energy content I would basically just use \DeltaU = Q+W ?
 
jason177 said:
ok, so for change in energy content I would basically just use \DeltaU = Q+W ?
Exactly.
 
Alright, thank you very much for the help
 

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