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Ambiguity in the definition of entropy

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2

$begingroup$

The entropy $S$ of a system is defined as $$S = kln Omega.$$ What precisely is $Omega$? It refers to "the number of microstates" of the system, but is this the number of all accessible microstates or just the number of microstates corresponding to the systems current macrostate? Or is it something else that eludes me?

statistical-mechanics entropy

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edited 49 mins ago

PiKindOfGuy

asked 1 hour ago

PiKindOfGuyPiKindOfGuy

601622

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2

$begingroup$

The entropy $S$ of a system is defined as $$S = kln Omega.$$ What precisely is $Omega$? It refers to "the number of microstates" of the system, but is this the number of all accessible microstates or just the number of microstates corresponding to the systems current macrostate? Or is it something else that eludes me?

statistical-mechanics entropy

share|cite|improve this question

edited 49 mins ago

PiKindOfGuy

asked 1 hour ago

PiKindOfGuyPiKindOfGuy

601622

$endgroup$

add a comment | 

$begingroup$

The entropy $S$ of a system is defined as $$S = kln Omega.$$ What precisely is $Omega$? It refers to "the number of microstates" of the system, but is this the number of all accessible microstates or just the number of microstates corresponding to the systems current macrostate? Or is it something else that eludes me?

statistical-mechanics entropy

share|cite|improve this question

edited 49 mins ago

PiKindOfGuy

asked 1 hour ago

PiKindOfGuyPiKindOfGuy

601622

$endgroup$

share|cite|improve this question

edited 49 mins ago

PiKindOfGuy

asked 1 hour ago

PiKindOfGuyPiKindOfGuy

601622

share|cite|improve this question

edited 49 mins ago

PiKindOfGuy

asked 1 hour ago

PiKindOfGuyPiKindOfGuy

601622

asked 1 hour ago

PiKindOfGuyPiKindOfGuy

601622

asked 1 hour ago

PiKindOfGuyPiKindOfGuy

601622

2 Answers
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6

$begingroup$

Entropy is a property of a macrostate, not a system. So $Omega$ is the number of microstates that correspond to the macrostate in question.

Since it is almost always the change in entropy, not the absolute entropy, that is considered, and we're taking the log of $Omega$, it actually doesn't matter if the definition of S is ambiguous up to a constant multiplicative factor, as that will cancel out when we take dS.

share|cite|improve this answer

answered 1 hour ago

AcccumulationAcccumulation

2,784312

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4

$begingroup$

Corresponding to the current macrostate. The principle of entropy is that a system seeks out the macro state that has the most microstates in it: in other words, our uncertainty about the underlying state of the system keeps multiplying and multiplying, until, with certain assumptions, we cannot do much better than just choosing a microstate uniformly at random.

share|cite|improve this answer

answered 59 mins ago

CR DrostCR Drost

22.5k11961

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6

$begingroup$

Entropy is a property of a macrostate, not a system. So $Omega$ is the number of microstates that correspond to the macrostate in question.

Since it is almost always the change in entropy, not the absolute entropy, that is considered, and we're taking the log of $Omega$, it actually doesn't matter if the definition of S is ambiguous up to a constant multiplicative factor, as that will cancel out when we take dS.

share|cite|improve this answer

answered 1 hour ago

AcccumulationAcccumulation

2,784312

$endgroup$

add a comment | 

6

$begingroup$

Entropy is a property of a macrostate, not a system. So $Omega$ is the number of microstates that correspond to the macrostate in question.

Since it is almost always the change in entropy, not the absolute entropy, that is considered, and we're taking the log of $Omega$, it actually doesn't matter if the definition of S is ambiguous up to a constant multiplicative factor, as that will cancel out when we take dS.

share|cite|improve this answer

answered 1 hour ago

AcccumulationAcccumulation

2,784312

$endgroup$

add a comment | 

$begingroup$

Entropy is a property of a macrostate, not a system. So $Omega$ is the number of microstates that correspond to the macrostate in question.

Since it is almost always the change in entropy, not the absolute entropy, that is considered, and we're taking the log of $Omega$, it actually doesn't matter if the definition of S is ambiguous up to a constant multiplicative factor, as that will cancel out when we take dS.

share|cite|improve this answer

answered 1 hour ago

AcccumulationAcccumulation

2,784312

$endgroup$

share|cite|improve this answer

answered 1 hour ago

AcccumulationAcccumulation

2,784312

answered 1 hour ago

AcccumulationAcccumulation

2,784312

answered 1 hour ago

AcccumulationAcccumulation

2,784312

4

$begingroup$

Corresponding to the current macrostate. The principle of entropy is that a system seeks out the macro state that has the most microstates in it: in other words, our uncertainty about the underlying state of the system keeps multiplying and multiplying, until, with certain assumptions, we cannot do much better than just choosing a microstate uniformly at random.

share|cite|improve this answer

answered 59 mins ago

CR DrostCR Drost

22.5k11961

$endgroup$

add a comment | 

4

$begingroup$

Corresponding to the current macrostate. The principle of entropy is that a system seeks out the macro state that has the most microstates in it: in other words, our uncertainty about the underlying state of the system keeps multiplying and multiplying, until, with certain assumptions, we cannot do much better than just choosing a microstate uniformly at random.

share|cite|improve this answer

answered 59 mins ago

CR DrostCR Drost

22.5k11961

$endgroup$

add a comment | 

$begingroup$

Corresponding to the current macrostate. The principle of entropy is that a system seeks out the macro state that has the most microstates in it: in other words, our uncertainty about the underlying state of the system keeps multiplying and multiplying, until, with certain assumptions, we cannot do much better than just choosing a microstate uniformly at random.

share|cite|improve this answer

answered 59 mins ago

CR DrostCR Drost

22.5k11961

$endgroup$

share|cite|improve this answer

answered 59 mins ago

CR DrostCR Drost

22.5k11961

answered 59 mins ago

CR DrostCR Drost

22.5k11961

answered 59 mins ago

CR DrostCR Drost

22.5k11961