Entropy: Destruction or Transformation?

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Discussion Overview

The discussion revolves around the concept of entropy, particularly in the context of spontaneous reactions that involve changes in entropy and enthalpy. Participants explore the implications of entropy in closed systems and the relationship between exothermic reactions and entropy changes.

Discussion Character

  • Debate/contested

Main Points Raised

  • One participant asserts that if a reaction decreases entropy but is exothermic, it can still be spontaneous, questioning where the entropy goes in such a scenario.
  • Another participant suggests that in a closed system, a net increase in entropy occurs, implying that the initial description may be misleading or unclear.
  • A third participant challenges the use of the term "destroyed" in relation to entropy, stating that it is energy that gets counted rather than destroyed, and questions the possibility of a negative entropy reaction being exothermic.
  • A fourth participant provides an example of water freezing in a fridge, describing it as an exothermic process that decreases entropy, implying that the source of the entropy change is evident.

Areas of Agreement / Disagreement

Participants express differing views on the relationship between entropy and exothermic reactions, with no consensus reached on the implications of negative entropy changes in spontaneous processes.

Contextual Notes

There are unresolved assumptions regarding the definitions of entropy and the conditions under which reactions are considered spontaneous. The discussion also reflects varying interpretations of the terminology used in relation to entropy changes.

SarcasticSully
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Ok so entropy cannot be destroyed, right? So let's say you have a reaction that decreases entropy (s<0) but it also is exothermic (h<0) and that overpowers the entropy decrease so it is spontaneous (ie h-ts=g<0). If that happens, where does the entropy go?
 
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If that is a closed system, then you have just described a net increase in entropy.
Possibly it is the imprecise use of words that is confusing you - or you are pulling my leg.
Redo the description, and describe it more carefully.
 
"destroyed" is an odd term to use here: entropy is energy. It doesn't get destroyed, it gets counted. And I don't think it is possible for a negative entropy reaction to be exothermic. Do you have any examples?
 
If I put glass of water into the fridge it will "spontaneously" freeze. This process is both exothermic and has a decreasing entropy. But it so blatantly obvious where the entropy "goes" I am not even going to mention it.
 

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