Data Portal @ linkeddatafragments.org

Matches in DBpedia 2014 for { <http://dbpedia.org/resource/Entropy_of_vaporization> ?p ?o. }

• Entropy_of_vaporization abstract "The entropy of vaporization is the increase in entropy upon vaporization of a liquid. This is always positive since the degree of disorder increases in the transition from a liquid in a relatively small volume to a vapor or gas occupying a much larger space. At standard pressure Po = 1 bar, the value is denoted as ΔSovap and normally expressed in J mol-1 K-1. In a phase transition such as vaporization, both phases coexist in equilibrium, so the difference in Gibbs free energy is equal to zero. ,where is the heat or enthalpy of vaporization. Since this is a thermodynamic equation, the symbol T refers to the absolute thermodynamic temperature, measured in Kelvin (K). The entropy of vaporization is then equal to the heat of vaporization divided by the boiling point. According to Trouton's rule, the entropy of vaporization (at standard pressure) of most liquids is about 85 to 88 J mol-1 K-1.".
• Entropy_of_vaporization wikiPageID "3011538".
• Entropy_of_vaporization wikiPageRevisionID "556341603".
• Entropy_of_vaporization auto "yes".
• Entropy_of_vaporization date "December 2009".
• Entropy_of_vaporization hasPhotoCollection Entropy_of_vaporization.
• Entropy_of_vaporization subject Category:Thermodynamic_entropy.
• Entropy_of_vaporization subject Category:Thermodynamic_properties.
• Entropy_of_vaporization type Abstraction100002137.
• Entropy_of_vaporization type Possession100032613.
• Entropy_of_vaporization type Property113244109.
• Entropy_of_vaporization type Relation100031921.
• Entropy_of_vaporization type ThermodynamicProperties.
• Entropy_of_vaporization comment "The entropy of vaporization is the increase in entropy upon vaporization of a liquid. This is always positive since the degree of disorder increases in the transition from a liquid in a relatively small volume to a vapor or gas occupying a much larger space. At standard pressure Po = 1 bar, the value is denoted as ΔSovap and normally expressed in J mol-1 K-1. In a phase transition such as vaporization, both phases coexist in equilibrium, so the difference in Gibbs free energy is equal to zero.".
• Entropy_of_vaporization label "Entropia di vaporizzazione".
• Entropy_of_vaporization label "Entropy of vaporization".
• Entropy_of_vaporization label "Verdampfungsentropie".
• Entropy_of_vaporization label "اعتلاج التبخر".
• Entropy_of_vaporization sameAs Verdampfungsentropie.
• Entropy_of_vaporization sameAs Entropia_di_vaporizzazione.
• Entropy_of_vaporization sameAs m.08kg3z.
• Entropy_of_vaporization sameAs Q358136.
• Entropy_of_vaporization sameAs Q358136.
• Entropy_of_vaporization sameAs Entropy_of_vaporization.
• Entropy_of_vaporization wasDerivedFrom Entropy_of_vaporization?oldid=556341603.
• Entropy_of_vaporization isPrimaryTopicOf Entropy_of_vaporization.