Is the 2nd law actually violated in this experiment?

In summary: Evans et al. have demonstrated that it is possible to violate the Second Law of Thermodynamics in a controlled way over short timescales. Based on the design and experimental conditions of the experiment, it is most likely that the Second Law is not always being violated, but is only being violated randomly. Evans et al. have proposed a new theory to explain this phenomena, the Fluctuation Theorem. Although this result has profound consequences for the understanding of physical processes, I do not believe that a retraction or correction is imminent.
  • #1
ray b
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  • #2
Dennis Evans does NOT leap to wild conclusions; that said, his forte is the theoretical, and "there's many a slip twixt the cup and lip" --- or, twixt the theoretical result and the lab bench. The pdf is barely legible on my screen --- the BBC "science desk" butcher job description of the experiment leaves a lot to be desired, but it's a fairly decent bet that experimental artifacts have been missed in the analysis/correlation of theory and experiment. Stay tuned for critique of the paper --- provided I survive the eyestrain --- holidays and all, it'll be mid-Jan before I get my hands on P. Rev..

Bottom line? The theoreticians strike again --- the only thing on this Earth more dangerous than "a second lieutenant with a map" (pre-GPS joke for all you technos out there) is a theoretician with a test tube. The Second Law is safe --- you'll see a retraction or correction within a year --- most probably based on an analysis of the experimental design --- the "unmixing" of cake mixes has been studied to death, and this looks very much like an alternate demonstration of "unmixing" phenomena.
 
  • #3
Originally posted by Bystander
The Second Law is safe --- you'll see a retraction or correction within a year...
I agree with the first part but not the second part. My gut tells me that the article misrepresented (overstated/misunderstood) the findings of the experiment. That happens all the time and is NEVER retracted.
 
  • #4
It is my understanding that parts of a system can go toward order, so long as the net movement is toward disorder. Is my understanding flawed?

Maybe they have defined their system without the inclusion of outside energy?

Nautica
 
  • #5
The 2nd Law: "Beads of doubt"

One of the most important principles of physics, that disorder, or entropy, always increases, has been shown to be untrue.


This result has profound consequences for any chemical or physical process that occurs over short times and in small regions.

ANU team
Scientists at the Australian National University (ANU) have carried out an experiment involving lasers and microscopic beads that disobeys the so-called Second Law of Thermodynamics, something many scientists had considered impossible.

http://news.bbc.co.uk/1/hi/sci/tech/2135779.stm
 
  • #6
you missed a bit!

Your posting caught my eye, so I read the link... But you missed out the important bit:


This Second Law of Thermodynamics says that the disorder of the Universe can only increase in time, but the equations of classical and quantum mechanics, the laws that govern the behaviour of the very small, are time reversible.

A few years ago, a tentative theoretical solution to this paradox was proposed - the so-called Fluctuation Theorem - stating that the chances of the Second Law being violated increases as the system in question gets smaller.

This means that at human scales, the Second Law dominates and machines only ever run in one direction. However, when working at molecular scales and over extremely short periods of time, things can take place in either direction.

Now, scientists have demonstrated that principle experimentally.




So no change then, the 2nd law remains true above the scale of the very very small. Four gas molecules in a box CAN all move to the same side of the box still, but 1 mole of gas molecules won't.
 
  • #7
Could someone please move/lock/append this to the earlier post in Class. Phys., "2nd law exception?"
 
  • #8
The experiment looks to be an attempt to reproduce molecular dynamic or monte carlo results on the benchtop; the actual apparatus design is a very low power acoustic/vibration damper. What has actually been measured is the acoustic relaxation time of a suspended sediment.
 

1. What is the 2nd law of thermodynamics?

The 2nd law of thermodynamics states that in any isolated system, the total entropy will always increase over time. This means that energy will tend to spread out and become more disordered.

2. How is the 2nd law related to the experiment?

In this experiment, the 2nd law is related to the concept of entropy. As the experiment involves energy and heat transfer, the 2nd law is used to determine if the process is increasing or decreasing the overall entropy of the system.

3. Can the 2nd law be violated?

No, the 2nd law of thermodynamics is considered a fundamental law of physics and has been proven to hold true in countless experiments. It is a fundamental principle that is essential to understanding many natural processes.

4. How can we determine if the 2nd law is violated in this experiment?

In order to determine if the 2nd law is violated in this experiment, we would need to carefully measure and track the energy and entropy changes throughout the process. If we find that the overall entropy decreases, then the 2nd law has been violated.

5. Is it possible for the 2nd law to be violated in certain circumstances?

While the 2nd law is a fundamental law of physics, there are some rare circumstances where it may appear to be violated. For example, in certain quantum systems or in highly ordered systems, there may be temporary decreases in entropy. However, overall, the 2nd law will always hold true in the long run.

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