Abstract

A level frequency postulate is proposed in the context of the Onsager regression hypothesis, and is utilized to demonstrate Fourier fluctuation time between levels in an analog system composed of red and white dice. This dice system is shown to be analogous to an isolated composite system of particles through derivation of the level probability distribution. Level fluctuation time is developed as an algebraic expression involving average energy and a Gaussian parameter, with quasistatic evolution demonstrated as an integral over fluctuation time.

Full Text
Published version (Free)

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
A General Probabilistic Approach for Inference of Gaussian Model Parameters from Noisy Data of Point and Volume Support
Thomas Mejer Hansen ... Klaus Mosegaard
Mathematical Geosciences | VOL. 47
Thomas Mejer Hansen, et. al.Thomas Mejer Hansen ... Klaus Mosegaard
12 Nov 2014
Onsager's regression and the field theory of parabolic transport processes
Ferenc Márkus ... Katalin Gambár
Physica A: Statistical Mechanics and its Applications | VOL. 320
Ferenc Márkus, et. al.Ferenc Márkus ... Katalin Gambár
28 Oct 2002
Relaxation in finite and isolated classical systems: An extension of Onsager's regression hypothesis
Marcus V S Bonança
Physical Review E | VOL. 85
Marcus V S BonançaMarcus V S Bonança
16 Mar 2012
A review of Gaussian Markov models for conditional independence
Irene Córdoba ... Concha Bielza
Journal of Statistical Planning and Inference | VOL. 206
Irene Córdoba, et. al.Irene Córdoba ... Concha Bielza
28 Sep 2019
View more papers

More From: Physical review. E

Paper Title
Journal
Date
Author
Induced-charge electrophoresis of a tilted metal nanowire near an insulating wall.
Jose Eladio Flores-Mena ... Antonio Ramos
Physical review. E | VOL. 109
Jose Eladio Flores-Mena, et. al.Jose Eladio Flores-Mena ... Antonio Ramos
30 Apr 2024
Iterative methods for Navier-Stokes inverse problems.
Liam O'Connor ... Benjamin P Brown
Physical review. E | VOL. 109
Liam O'Connor, et. al.Liam O'Connor ... Benjamin P Brown
30 Apr 2024
Geometric cohesion in two-dimensional systems composed of star-shaped particles.
David Aponte ... Emilien Azéma
Physical review. E | VOL. 109
David Aponte, et. al.David Aponte ... Emilien Azéma
30 Apr 2024
Dimensional crossover in Kardar-Parisi-Zhang growth.
Ismael S S Carrasco ... Tiago J Oliveira
Physical review. E | VOL. 109
Ismael S S Carrasco, et. al.Ismael S S Carrasco ... Tiago J Oliveira
30 Apr 2024
View more papers