Add to ORKGWhy do gases reach equilibrium when left to themselves? The canonical answer, orig-inally proffered by Boltzmann, is that the systems have to be ergodic. This answer is now widely regarded as flawed. We argue that some of the main objections in particular arguments based on the Kolmogorov-Arnold-Moser theorem and the Markus-Meyer theorem are beside the point. We then argue that something close to Boltzmann’s proposal is true: gases behave thermodynamic-like if they are epsilon-ergodic, that is, ergodic on the phase space except for a small region of measure epsilon. This answer is promising because there is evidence that relevant systems are epsilon-ergodic. 1. Introduction. Conside
The traditional use of ergodic theory in the foundations of equilibrium statistical mechanics is tha...
We show that to prove the Onsager relations using the microscopic time reversibility one necessarily...
Systems prepared in a non-equilibrium state approach, and eventually reach, equilibrium. Why do they...
Why do gases reach equilibrium when left to themselves? The canonical answer, originally proffered b...
Gases reach equilibrium when left to themselves. Why do they behave in this way? The canonical answe...
A gas prepared in a non-equilibrium state will approach equilibrium and stay there. An influential c...
In the physics literature “ergodicity” is sometimes taken to mean that a system, including a macrosc...
I prove a theorem on the precise connection of the time and phase space average of the Boltzmann equ...
The received wisdom in statistical mechanics is that isolated systems, when left to themselves, appr...
It is well known that the equipartition principle lies at the very basis of classical sta-tistical m...
A dilute gas initially in equilibrium and confined to half of an isolated box by a partition willirr...
A gas prepared in a nonequilibrium state will approach equilibrium and stay there. An influential co...
E-mail adAn elegant but seldom appreciated effort to provide a mechanical model of equilibrium therm...
The traditional use of ergodic theory in the foundations of equilibrium statistical mechanics is tha...
Classical statistical equilibrium, for a Maxwell-Boltzmann gas for example, is based on localizing t...
The traditional use of ergodic theory in the foundations of equilibrium statistical mechanics is tha...
We show that to prove the Onsager relations using the microscopic time reversibility one necessarily...
Systems prepared in a non-equilibrium state approach, and eventually reach, equilibrium. Why do they...
Why do gases reach equilibrium when left to themselves? The canonical answer, originally proffered b...
Gases reach equilibrium when left to themselves. Why do they behave in this way? The canonical answe...
A gas prepared in a non-equilibrium state will approach equilibrium and stay there. An influential c...
In the physics literature “ergodicity” is sometimes taken to mean that a system, including a macrosc...
I prove a theorem on the precise connection of the time and phase space average of the Boltzmann equ...
The received wisdom in statistical mechanics is that isolated systems, when left to themselves, appr...
It is well known that the equipartition principle lies at the very basis of classical sta-tistical m...
A dilute gas initially in equilibrium and confined to half of an isolated box by a partition willirr...
A gas prepared in a nonequilibrium state will approach equilibrium and stay there. An influential co...
E-mail adAn elegant but seldom appreciated effort to provide a mechanical model of equilibrium therm...
The traditional use of ergodic theory in the foundations of equilibrium statistical mechanics is tha...
Classical statistical equilibrium, for a Maxwell-Boltzmann gas for example, is based on localizing t...
The traditional use of ergodic theory in the foundations of equilibrium statistical mechanics is tha...
We show that to prove the Onsager relations using the microscopic time reversibility one necessarily...
Systems prepared in a non-equilibrium state approach, and eventually reach, equilibrium. Why do they...