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• Volumetric_heat_capacity abstract "For a table of volumetric heat capacities, see Heat capacity#Table of specific heat capacities.Volumetric heat capacity (VHC), also termed volume-specific heat capacity, describes the ability of a given volume of a substance to store internal energy while undergoing a given temperature change, but without undergoing a phase transition. It is different from specific heat capacity in that the VHC is a 'per unit volume' measure of the relationship between thermal energy and temperature of a material, while the specific heat is a 'per unit mass' measure (or occasionally per molar quantity of the material). If given a specific heat value of a substance, one can convert it to the VHC by multiplying the specific heat by the density of the substance.Dulong and Petit predicted in 1818[citation needed] that the product of solid substance density and specific heat capacity (ρcp) would be constant for all solids. This amounted to a prediction that volumetric heat capacity in solids would be constant. In 1819 they found that volumetric heat capacities were not quite constant, but that the most constant quantity was the heat capacity of solids adjusted by the presumed weight of the atoms of the substance, as defined by Dalton (the Dulong–Petit law). This quantity was proportional to the heat capacity per atomic weight (or per molar mass), which suggested that it is the heat capacity per atom (not per unit of volume) which is closest to being a constant in solids. Eventually (see the discussion in heat capacity) it has become clear that heat capacities per particle for all substances in all states are the same, to within a factor of two, so long as temperatures are not in the cryogenic range. For very cold temperatures, heat capacities fall drastically and eventually approach zero as temperature approaches zero.The heat capacity on a volumetric basis in solid materials at room temperatures and above varies more widely, from about 1.2 to 4.5 MJ/m³K[citation needed], but this is mostly due to differences in the physical size of atoms. See a discussion in atom. Atoms vary greatly in density, with the heaviest often being more dense, and thus are closer to taking up the same average volume in solids than their mass-alone would predict. If all atoms were the same size, molar and volumetric heat capacity would be proportional and differ by only a single constant reflecting ratios of the atomic-molar-volume of materials (their atomic density). An additional factor for all types of specific heat capacities (including molar specific heats) then further reflects degrees of freedom available to the atoms composing the substance, at various temperatures. For liquids, the volumetric heat capacity is narrower: in the range 1.3 to 1.9 MJ/m³K[citation needed]. This reflects the modest loss of degrees of freedom for particles in liquids as compared with solids. For gases at room temperature, the range of volumetric heat capacities per atom (not per molecule) only varies between different gases by a small factor less than two, due to the fact that in every ideal gas has the same molar volume. Thus, each gas molecule occupies the same mean volume in all ideal gases, regardless of the type of gas (see kinetic theory). This fact gives each gas molecule the same effective "volume" in all ideal gases (although this volume/molecule in gases is far larger than molecules occupy on average in solids or liquids). Thus, in the limit of ideal gas behavior (which many gases approximate except at low temperatures and/or extremes of pressure) this property reduces differences in gas volumetric heat capacity to simple differences in the heat capacities of individual molecules. As noted, these differ by a factor depending on the degrees of freedom available to particles within the molecules.".
• Volumetric_heat_capacity wikiPageID "52827".
• Volumetric_heat_capacity wikiPageRevisionID "567001617".
• Volumetric_heat_capacity hasPhotoCollection Volumetric_heat_capacity.
• Volumetric_heat_capacity subject Category:Heat_transfer.
• Volumetric_heat_capacity subject Category:Physical_quantities.
• Volumetric_heat_capacity subject Category:Thermodynamic_properties.
• Volumetric_heat_capacity subject Category:Volume.
• Volumetric_heat_capacity type Abstraction100002137.
• Volumetric_heat_capacity type Measure100033615.
• Volumetric_heat_capacity type PhysicalQuantities.
• Volumetric_heat_capacity type Possession100032613.
• Volumetric_heat_capacity type Property113244109.
• Volumetric_heat_capacity type Relation100031921.
• Volumetric_heat_capacity type ThermodynamicProperties.
• Volumetric_heat_capacity comment "For a table of volumetric heat capacities, see Heat capacity#Table of specific heat capacities.Volumetric heat capacity (VHC), also termed volume-specific heat capacity, describes the ability of a given volume of a substance to store internal energy while undergoing a given temperature change, but without undergoing a phase transition.".
• Volumetric_heat_capacity label "Capacidad calorífica volumétrica".
• Volumetric_heat_capacity label "Capacité thermique volumique".
• Volumetric_heat_capacity label "Inércia térmica".
• Volumetric_heat_capacity label "Volumetric heat capacity".
• Volumetric_heat_capacity label "Wärmespeicherzahl".
• Volumetric_heat_capacity label "Объёмная теплоёмкость".
• Volumetric_heat_capacity label "سعة حرارية حجمية".
• Volumetric_heat_capacity label "容積熱容".
• Volumetric_heat_capacity sameAs Wärmespeicherzahl.
• Volumetric_heat_capacity sameAs Capacidad_calorífica_volumétrica.
• Volumetric_heat_capacity sameAs Capacité_thermique_volumique.
• Volumetric_heat_capacity sameAs Inércia_térmica.
• Volumetric_heat_capacity sameAs m.0dwhl.
• Volumetric_heat_capacity sameAs Q900661.
• Volumetric_heat_capacity sameAs Q900661.
• Volumetric_heat_capacity sameAs Volumetric_heat_capacity.
• Volumetric_heat_capacity wasDerivedFrom Volumetric_heat_capacity?oldid=567001617.
• Volumetric_heat_capacity isPrimaryTopicOf Volumetric_heat_capacity.