About: Relativistic heat conduction

Property	Value
dbo:abstract	Relativistic heat conduction refers to the modelling of heat conduction (and similar diffusion processes) in a way compatible with special relativity. In special (and general) relativity, the usual heat equation for non-relativistic heat conduction must be modified, as it leads to faster-than-light signal propagation. Relativistic heat conduction, therefore, encompasses a set of models for heat propagation in continuous media (solids, fluids, gases) that are consistent with relativistic causality, namely the principle that an effect must be within the light-cone associated to its cause. Any reasonable relativistic model for heat conduction must also be stable, in the sense that differences in temperature propagate both slower than light and are damped over time (this stability property is intimately intertwined with relativistic causality). (en) A teoria da condução de calor relativística (em inglês Relativistic Heat Conduction, RHC) reivindica ser o único modelo para a condução térmica (e processos de difusão similares) que é compatível com a teoria da relatividade especial, a segunda lei da termodinâmica, eletrodinâmica e mecânica quântica, simultaneamente. As principais características da RHC são: 1. * Admite uma velocidade para a do calor, e permite efeitos relativísticos quando os fluxos de calor transientes aproximam-se desta velocidade. 2. * Remove a possibilidade de situações paradoxais que possam violar a segunda lei da termodinâmica. 3. * ELa, implicitamente, admite a dualidade onda-partícula do calor transportando “fônon”. Estes resultados são obtidos por (1) atualizar a equação de Fourier de condução de calor para a forma de uma da eletrodinâmica, e (2), que introduz uma nova definição do vetor fluxo de calor. Por conseguinte, a RHC dá origem a uma série de fenômenos interessantes, tais como ressonância térmica e ondas de choque térmicas, que são possíveis durante aquecimento de isolantes por laseres pulsados de alta frequência. A principal característica interessante da teoria é a sua elegância e simplicidade matemática. (pt)
dbo:wikiPageID	20916902 (xsd:integer)
dbo:wikiPageLength	9548 (xsd:nonNegativeInteger)
dbo:wikiPageRevisionID	1121435208 (xsd:integer)
dbo:wikiPageWikiLink	dbr:Cartesian_coordinate_system dbr:Entropy_production dbr:Hyperbolic_partial_differential_equation dbr:Resonance dbc:Hyperbolic_partial_differential_equations dbr:Del dbr:Light_cone dbr:Quasiparticle dbr:Entropy dbr:General_relativity dbr:Green's_function dbr:Conservation_law dbr:Thermal_diffusivity dbr:Shock_waves dbr:Density dbr:Parabolic_partial_differential_equation dbc:Concepts_in_physics dbc:Thermodynamics dbr:Dissipation dbc:Heat_conduction dbr:First_law_of_thermodynamics dbr:Partial_differential_equation dbr:Causality_(physics) dbr:Diffusion dbr:Thermal_conductivity dbr:Fick's_law_of_diffusion dbr:Heat_equation dbr:Heat_kernel dbc:Diffusion dbr:Telegrapher's_equation dbr:Temperature dbc:Special_relativity dbc:Transport_phenomena dbr:Laplace_operator dbr:Time_in_physics dbr:Phonon dbr:Special_relativity dbr:Speed_of_light dbr:Field_(physics) dbr:Maxwell’s_equations dbr:Carlo_Cattaneo_(mathematician) dbr:Specific_heat_capacity dbr:Lyapunov_stability dbr:Excited_state dbr:Second_sound dbr:Heat_conduction dbr:Relaxation_time
dbp:wikiPageUsesTemplate	dbt:COI dbt:Cleanup_rewrite dbt:Multiple dbt:Reflist dbt:Short_description
dcterms:subject	dbc:Hyperbolic_partial_differential_equations dbc:Concepts_in_physics dbc:Thermodynamics dbc:Heat_conduction dbc:Diffusion dbc:Special_relativity dbc:Transport_phenomena
rdf:type	yago:WikicatConceptsInPhysics yago:Abstraction100002137 yago:Cognition100023271 yago:Communication100033020 yago:Concept105835747 yago:Content105809192 yago:DifferentialEquation106670521 yago:Equation106669864 yago:Idea105833840 yago:MathematicalStatement106732169 yago:Message106598915 yago:PartialDifferentialEquation106670866 yago:PsychologicalFeature100023100 yago:WikicatHyperbolicPartialDifferentialEquations yago:Statement106722453
rdfs:comment	Relativistic heat conduction refers to the modelling of heat conduction (and similar diffusion processes) in a way compatible with special relativity. In special (and general) relativity, the usual heat equation for non-relativistic heat conduction must be modified, as it leads to faster-than-light signal propagation. Relativistic heat conduction, therefore, encompasses a set of models for heat propagation in continuous media (solids, fluids, gases) that are consistent with relativistic causality, namely the principle that an effect must be within the light-cone associated to its cause. Any reasonable relativistic model for heat conduction must also be stable, in the sense that differences in temperature propagate both slower than light and are damped over time (this stability property is (en) A teoria da condução de calor relativística (em inglês Relativistic Heat Conduction, RHC) reivindica ser o único modelo para a condução térmica (e processos de difusão similares) que é compatível com a teoria da relatividade especial, a segunda lei da termodinâmica, eletrodinâmica e mecânica quântica, simultaneamente. As principais características da RHC são: (pt)
rdfs:label	Relativistic heat conduction (en) Condução de calor relativística (pt)
owl:sameAs	freebase:Relativistic heat conduction yago-res:Relativistic heat conduction wikidata:Relativistic heat conduction dbpedia-pt:Relativistic heat conduction https://global.dbpedia.org/id/4tPr7
prov:wasDerivedFrom	wikipedia-en:Relativistic_heat_conduction?oldid=1121435208&ns=0
foaf:isPrimaryTopicOf	wikipedia-en:Relativistic_heat_conduction
is dbo:wikiPageDisambiguates of	dbr:RHC
is dbo:wikiPageWikiLink of	dbr:D'Alembert_operator dbr:Index_of_physics_articles_(R) dbr:List_of_laser_articles dbr:Relativistic_mechanics dbr:Newton's_law_of_cooling dbr:Green's_function dbr:Heat_flux dbr:First_law_of_thermodynamics dbr:History_of_special_relativity dbr:RHC dbr:Heat dbr:Heat_equation dbr:Relativistic_Euler_equations dbr:Thermal_conduction dbr:Phonon dbr:Special_relativity dbr:Carlo_Cattaneo_(mathematician) dbr:Second_law_of_thermodynamics dbr:Guo_Zengyuan
is rdfs:seeAlso of	dbr:Four-vector
is foaf:primaryTopic of	wikipedia-en:Relativistic_heat_conduction