Hidden Information, Energy Dispersion and Disorder: Does Entropy Really Measure Disorder?

Driss Soubane, Mohamed El Garah, Mohamed Bouhassoune, Ahmed Tirbiyine, Abdelaziz Ramzi, Said Laasri
2018 World Journal of Condensed Matter Physics  
Despite its appearance in physics around the 1850th, the second law of thermodynamics is still attracting more efforts to be clarified. More specifically, fifteen years later (1865) after its definition and introduction, entropy has been the subject of various interpretations. Hence, in physical sciences and notably in different education levels, its concept seems to be relatively tough to unambiguous decipher. In this work, we re-introduce the notion of entropy from classical, quantum and
more » ... l, quantum and information theories viewpoints. The controversial over entropy and a measure of disorder misconception, stated by many scientists, is addressed as well to come up with less confusing physical interpretation of entropy. Hence, over time, an increase of entropy, a quantitative quantity, is most often associated to a rising of disorder, a non-quantitative quantity and no value-returning mathematical equation, rather than a continuously increasing of hidden data. In other words, linking disorder to hidden data is typically raising more confusion than clarification. Here, we shed more light on both concepts to find out an acceptable interpretation of entropy.
doi:10.4236/wjcmp.2018.84014 fatcat:x7di5edqlfaz7igkl2u7krghei