What force causes entropy to increase? The 2019 Stack Overflow Developer Survey Results Are InSecond law of Thermodynamics: Why is it only “almost” always true that entropy is non-decreasing?Really how does the entropy of the universe increase?What exactly is entropy? Why is it measure of randomness?Is gravity Maxwell's demon in disguise?Spontaneous processes and entropy of the universeEntropy of an ideal gas vs. entropy of a non ideal gasReconsidering Maxwell's DemonEntropy and classical mechanicsIs physical entropy opposite to information entropy?Confusion with Entropy
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What force causes entropy to increase?
The 2019 Stack Overflow Developer Survey Results Are InSecond law of Thermodynamics: Why is it only “almost” always true that entropy is non-decreasing?Really how does the entropy of the universe increase?What exactly is entropy? Why is it measure of randomness?Is gravity Maxwell's demon in disguise?Spontaneous processes and entropy of the universeEntropy of an ideal gas vs. entropy of a non ideal gasReconsidering Maxwell's DemonEntropy and classical mechanicsIs physical entropy opposite to information entropy?Confusion with Entropy
$begingroup$
What force causes entropy to increase?
I realize that the second law of thermodynamics requires the entropy of a system to increase over time. For example, gas stored in a canister, if opened inside a vacuum chamber, will expand to fill the chamber.
But I’m not clear on what force, exactly, is acting upon the molecules of gas that causes them to fly out of the opened canister and fill the chamber.
Just looking for a concise explanation as to what is going on at the fundamental level, since obviously, the second law of thermodynamics is not a force and therefore does not cause anything to happen.
thermodynamics laws-of-physics
$endgroup$
add a comment |
$begingroup$
What force causes entropy to increase?
I realize that the second law of thermodynamics requires the entropy of a system to increase over time. For example, gas stored in a canister, if opened inside a vacuum chamber, will expand to fill the chamber.
But I’m not clear on what force, exactly, is acting upon the molecules of gas that causes them to fly out of the opened canister and fill the chamber.
Just looking for a concise explanation as to what is going on at the fundamental level, since obviously, the second law of thermodynamics is not a force and therefore does not cause anything to happen.
thermodynamics laws-of-physics
$endgroup$
3
$begingroup$
If you know it isn't a force then why are you asking what the force is?
$endgroup$
– Aaron Stevens
5 hours ago
1
$begingroup$
Entropy doesn’t have inertia, as far as I know.
$endgroup$
– Dale
2 hours ago
add a comment |
$begingroup$
What force causes entropy to increase?
I realize that the second law of thermodynamics requires the entropy of a system to increase over time. For example, gas stored in a canister, if opened inside a vacuum chamber, will expand to fill the chamber.
But I’m not clear on what force, exactly, is acting upon the molecules of gas that causes them to fly out of the opened canister and fill the chamber.
Just looking for a concise explanation as to what is going on at the fundamental level, since obviously, the second law of thermodynamics is not a force and therefore does not cause anything to happen.
thermodynamics laws-of-physics
$endgroup$
What force causes entropy to increase?
I realize that the second law of thermodynamics requires the entropy of a system to increase over time. For example, gas stored in a canister, if opened inside a vacuum chamber, will expand to fill the chamber.
But I’m not clear on what force, exactly, is acting upon the molecules of gas that causes them to fly out of the opened canister and fill the chamber.
Just looking for a concise explanation as to what is going on at the fundamental level, since obviously, the second law of thermodynamics is not a force and therefore does not cause anything to happen.
thermodynamics laws-of-physics
thermodynamics laws-of-physics
asked 5 hours ago
CommaToastCommaToast
24529
24529
3
$begingroup$
If you know it isn't a force then why are you asking what the force is?
$endgroup$
– Aaron Stevens
5 hours ago
1
$begingroup$
Entropy doesn’t have inertia, as far as I know.
$endgroup$
– Dale
2 hours ago
add a comment |
3
$begingroup$
If you know it isn't a force then why are you asking what the force is?
$endgroup$
– Aaron Stevens
5 hours ago
1
$begingroup$
Entropy doesn’t have inertia, as far as I know.
$endgroup$
– Dale
2 hours ago
3
3
$begingroup$
If you know it isn't a force then why are you asking what the force is?
$endgroup$
– Aaron Stevens
5 hours ago
$begingroup$
If you know it isn't a force then why are you asking what the force is?
$endgroup$
– Aaron Stevens
5 hours ago
1
1
$begingroup$
Entropy doesn’t have inertia, as far as I know.
$endgroup$
– Dale
2 hours ago
$begingroup$
Entropy doesn’t have inertia, as far as I know.
$endgroup$
– Dale
2 hours ago
add a comment |
2 Answers
2
active
oldest
votes
$begingroup$
This might not be as detailed as you want, but really all the second law says is that the most likely thing will happen. The reason we can associate certainty with something that seems random is because when we are looking at systems with such a large number of particles, states, etc. anything that is not the most likely is essentially so unlikely that we would have to wait for times longer than he age of the universe to observe them to happen by chance.
Therefore, as you say in your last paragraph, there is no force associated with entropy increase. It's just a statement of how systems will move towards more likely configurations.
For the specific example you give of Joule expansion the (classical) gas molecules are just moving around according to Newton's laws as they collide with each other and the walls of the container. There is no force "telling" the gas to expand to the rest of the container. It's just most likely that we will end up with a uniform gas concentration in the container.
$endgroup$
add a comment |
$begingroup$
From your question, it seems that you call force whatever may be considered as a cause of something happening. However, this it is not the way the concept of force is used in Physics nowadays.
For instance, after Galilei, the uniform motion of a free body far from any other system is an process which does not require a force to happen. At variance, it is the fingerprint of the absence of a net force, according to the Newton's definition of force.
The case of the canister is similar. It is the "closed" configuration which implies the presence of a force to constrain the gas molecules to remain inside. When you remove the constrain (open the canister) motion of molecules continues without the confining force. The result is their diffusion in the whole available volume just because that is the most probable macroscopic configuration.
$endgroup$
add a comment |
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2 Answers
2
active
oldest
votes
2 Answers
2
active
oldest
votes
active
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active
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votes
$begingroup$
This might not be as detailed as you want, but really all the second law says is that the most likely thing will happen. The reason we can associate certainty with something that seems random is because when we are looking at systems with such a large number of particles, states, etc. anything that is not the most likely is essentially so unlikely that we would have to wait for times longer than he age of the universe to observe them to happen by chance.
Therefore, as you say in your last paragraph, there is no force associated with entropy increase. It's just a statement of how systems will move towards more likely configurations.
For the specific example you give of Joule expansion the (classical) gas molecules are just moving around according to Newton's laws as they collide with each other and the walls of the container. There is no force "telling" the gas to expand to the rest of the container. It's just most likely that we will end up with a uniform gas concentration in the container.
$endgroup$
add a comment |
$begingroup$
This might not be as detailed as you want, but really all the second law says is that the most likely thing will happen. The reason we can associate certainty with something that seems random is because when we are looking at systems with such a large number of particles, states, etc. anything that is not the most likely is essentially so unlikely that we would have to wait for times longer than he age of the universe to observe them to happen by chance.
Therefore, as you say in your last paragraph, there is no force associated with entropy increase. It's just a statement of how systems will move towards more likely configurations.
For the specific example you give of Joule expansion the (classical) gas molecules are just moving around according to Newton's laws as they collide with each other and the walls of the container. There is no force "telling" the gas to expand to the rest of the container. It's just most likely that we will end up with a uniform gas concentration in the container.
$endgroup$
add a comment |
$begingroup$
This might not be as detailed as you want, but really all the second law says is that the most likely thing will happen. The reason we can associate certainty with something that seems random is because when we are looking at systems with such a large number of particles, states, etc. anything that is not the most likely is essentially so unlikely that we would have to wait for times longer than he age of the universe to observe them to happen by chance.
Therefore, as you say in your last paragraph, there is no force associated with entropy increase. It's just a statement of how systems will move towards more likely configurations.
For the specific example you give of Joule expansion the (classical) gas molecules are just moving around according to Newton's laws as they collide with each other and the walls of the container. There is no force "telling" the gas to expand to the rest of the container. It's just most likely that we will end up with a uniform gas concentration in the container.
$endgroup$
This might not be as detailed as you want, but really all the second law says is that the most likely thing will happen. The reason we can associate certainty with something that seems random is because when we are looking at systems with such a large number of particles, states, etc. anything that is not the most likely is essentially so unlikely that we would have to wait for times longer than he age of the universe to observe them to happen by chance.
Therefore, as you say in your last paragraph, there is no force associated with entropy increase. It's just a statement of how systems will move towards more likely configurations.
For the specific example you give of Joule expansion the (classical) gas molecules are just moving around according to Newton's laws as they collide with each other and the walls of the container. There is no force "telling" the gas to expand to the rest of the container. It's just most likely that we will end up with a uniform gas concentration in the container.
edited 4 hours ago
answered 5 hours ago
Aaron StevensAaron Stevens
15.2k42454
15.2k42454
add a comment |
add a comment |
$begingroup$
From your question, it seems that you call force whatever may be considered as a cause of something happening. However, this it is not the way the concept of force is used in Physics nowadays.
For instance, after Galilei, the uniform motion of a free body far from any other system is an process which does not require a force to happen. At variance, it is the fingerprint of the absence of a net force, according to the Newton's definition of force.
The case of the canister is similar. It is the "closed" configuration which implies the presence of a force to constrain the gas molecules to remain inside. When you remove the constrain (open the canister) motion of molecules continues without the confining force. The result is their diffusion in the whole available volume just because that is the most probable macroscopic configuration.
$endgroup$
add a comment |
$begingroup$
From your question, it seems that you call force whatever may be considered as a cause of something happening. However, this it is not the way the concept of force is used in Physics nowadays.
For instance, after Galilei, the uniform motion of a free body far from any other system is an process which does not require a force to happen. At variance, it is the fingerprint of the absence of a net force, according to the Newton's definition of force.
The case of the canister is similar. It is the "closed" configuration which implies the presence of a force to constrain the gas molecules to remain inside. When you remove the constrain (open the canister) motion of molecules continues without the confining force. The result is their diffusion in the whole available volume just because that is the most probable macroscopic configuration.
$endgroup$
add a comment |
$begingroup$
From your question, it seems that you call force whatever may be considered as a cause of something happening. However, this it is not the way the concept of force is used in Physics nowadays.
For instance, after Galilei, the uniform motion of a free body far from any other system is an process which does not require a force to happen. At variance, it is the fingerprint of the absence of a net force, according to the Newton's definition of force.
The case of the canister is similar. It is the "closed" configuration which implies the presence of a force to constrain the gas molecules to remain inside. When you remove the constrain (open the canister) motion of molecules continues without the confining force. The result is their diffusion in the whole available volume just because that is the most probable macroscopic configuration.
$endgroup$
From your question, it seems that you call force whatever may be considered as a cause of something happening. However, this it is not the way the concept of force is used in Physics nowadays.
For instance, after Galilei, the uniform motion of a free body far from any other system is an process which does not require a force to happen. At variance, it is the fingerprint of the absence of a net force, according to the Newton's definition of force.
The case of the canister is similar. It is the "closed" configuration which implies the presence of a force to constrain the gas molecules to remain inside. When you remove the constrain (open the canister) motion of molecules continues without the confining force. The result is their diffusion in the whole available volume just because that is the most probable macroscopic configuration.
answered 57 mins ago
GiorgioPGiorgioP
4,4491628
4,4491628
add a comment |
add a comment |
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3
$begingroup$
If you know it isn't a force then why are you asking what the force is?
$endgroup$
– Aaron Stevens
5 hours ago
1
$begingroup$
Entropy doesn’t have inertia, as far as I know.
$endgroup$
– Dale
2 hours ago