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- Boltzmann's_entropy_formula abstract "In statistical mechanics, Boltzmann's equation is a probability equation relating the entropy S of an ideal gas to the quantity W, which is the number of microstates corresponding to a given macrostate: (1)where kB is the Boltzmann's constant, (also written with k) which is equal to 1.38062 x 10−23 J/K.In short, the Boltzmann formula shows the relationship between entropy and the number of ways the atoms or molecules of a thermodynamic system can be arranged. In 1934, Swiss physical chemist Werner Kuhn successfully derived a thermal equation of state for rubber molecules using Boltzmann's formula, which has since come to be known as the entropy model of rubber.".
- Boltzmann's_entropy_formula thumbnail Boltzmann_equation.JPG?width=300.
- Boltzmann's_entropy_formula wikiPageExternalLink Boltzmann.html.
- Boltzmann's_entropy_formula wikiPageID "9328562".
- Boltzmann's_entropy_formula wikiPageRevisionID "598856359".
- Boltzmann's_entropy_formula hasPhotoCollection Boltzmann's_entropy_formula.
- Boltzmann's_entropy_formula subject Category:Concepts_in_physics.
- Boltzmann's_entropy_formula subject Category:Thermodynamic_entropy.
- Boltzmann's_entropy_formula type Abstraction100002137.
- Boltzmann's_entropy_formula type Cognition100023271.
- Boltzmann's_entropy_formula type Concept105835747.
- Boltzmann's_entropy_formula type Content105809192.
- Boltzmann's_entropy_formula type FundamentalPhysicsConcepts.
- Boltzmann's_entropy_formula type Idea105833840.
- Boltzmann's_entropy_formula type PsychologicalFeature100023100.
- Boltzmann's_entropy_formula comment "In statistical mechanics, Boltzmann's equation is a probability equation relating the entropy S of an ideal gas to the quantity W, which is the number of microstates corresponding to a given macrostate: (1)where kB is the Boltzmann's constant, (also written with k) which is equal to 1.38062 x 10−23 J/K.In short, the Boltzmann formula shows the relationship between entropy and the number of ways the atoms or molecules of a thermodynamic system can be arranged.".
- Boltzmann's_entropy_formula label "Boltzmann's entropy formula".
- Boltzmann's_entropy_formula label "Entropieformule van Boltzmann".
- Boltzmann's_entropy_formula label "Formule de Boltzmann".
- Boltzmann's_entropy_formula label "ボルツマンの公式".
- Boltzmann's_entropy_formula sameAs Formule_de_Boltzmann.
- Boltzmann's_entropy_formula sameAs ボルツマンの公式.
- Boltzmann's_entropy_formula sameAs Entropieformule_van_Boltzmann.
- Boltzmann's_entropy_formula sameAs m.0284s0j.
- Boltzmann's_entropy_formula sameAs Q375553.
- Boltzmann's_entropy_formula sameAs Q375553.
- Boltzmann's_entropy_formula sameAs Boltzmann's_entropy_formula.
- Boltzmann's_entropy_formula wasDerivedFrom Boltzmann's_entropy_formula?oldid=598856359.
- Boltzmann's_entropy_formula depiction Boltzmann_equation.JPG.
- Boltzmann's_entropy_formula isPrimaryTopicOf Boltzmann's_entropy_formula.