MUS -: No conditions. Results ordered -Date Deposited. 2017-01-21T00:14:46ZEPrintshttp://cab.unime.it/images/sitelogo.pnghttp://cab.unime.it/mus/2008-08-07Z2012-09-20T07:41:27Zhttp://cab.unime.it/mus/id/eprint/490This item is in the repository with the URL: http://cab.unime.it/mus/id/eprint/4902008-08-07ZExtended irreversible thermodynamics and non-equilibrium temperatureWe briefly review the concept of non-equilibrium temperature from the perspectives of extended irreversible thermodynamics, fluctuation theory, and statistical mechanics. The relations between different proposals are explicitly examined in two especially simple systems: an ideal gas in steady shear flow and a forced harmonic oscillator in a thermal bath. We examine with special detail temperatures related to the average molecular kinetic energy along different spatial directions, to the average configurational energy, to the derivative of the entropy with respect to internal energy, to fluctuation-dissipation relation and discuss their measurementJosè Casas-VàzquezDavid Jou2008-01-28Z2012-09-20T08:21:46Zhttp://cab.unime.it/mus/id/eprint/455This item is in the repository with the URL: http://cab.unime.it/mus/id/eprint/4552008-01-28ZExtended irreversible thermodynamics and non-equilibrium temperature We briefly review the concept of non-equilibrium temperature from the perspectives of extended irreversible thermodynamics, fluctuation theory, and statistical mechanics. The relations between different proposals are explicitly examined in two especially simple systems: an ideal gas in steady shear flow and a forced harmonic oscillator in a thermal bath. We examine with special detail temperatures related to the average molecular kinetic energy along different spatial directions, to the average configurational energy, to the derivative of the entropy with respect to internal energy, to fluctuation-dissipation relation and discuss their measurement. Josè Casas-VàzquezDavid Jou