Equation of piezotropy: Difference between revisions
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<div class="definition"><div class="short_definition">( | <div class="definition"><div class="short_definition">(''Also called'' physical equation.) An equation relating the [[thermodynamic variables]] in processes of a piezotropic fluid.</div><br/> <div class="paragraph">In its general form it expresses the [[density]] ρ as a function of the [[pressure]] ''p'': <div class="display-formula"><blockquote>[[File:ams2001glos-Ee36.gif|link=|center|ams2001glos-Ee36]]</blockquote></div> The derivative ''d''ρ/''dp'' is called the [[coefficient of piezotropy]]. The most familiar such equation is that for polytropic changes of state in an [[ideal gas]]: <div class="display-formula"><blockquote>[[File:ams2001glos-Ee37.gif|link=|center|ams2001glos-Ee37]]</blockquote></div> where λ is the [[modulus]] of the [[polytropic process]]. Prior to the discovery of the [[first law of thermodynamics]] in the midnineteenth century, the equation of piezotropy was used to complete the hydrodynamic equation set consisting of the [[equations of motion]] and the [[conservation of mass]].</div><br/> </div> | ||
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Revision as of 14:10, 20 February 2012
equation of piezotropy
(Also called physical equation.) An equation relating the thermodynamic variables in processes of a piezotropic fluid.
In its general form it expresses the density ρ as a function of the pressure p: The derivative dρ/dp is called the coefficient of piezotropy. The most familiar such equation is that for polytropic changes of state in an ideal gas: where λ is the modulus of the polytropic process. Prior to the discovery of the first law of thermodynamics in the midnineteenth century, the equation of piezotropy was used to complete the hydrodynamic equation set consisting of the equations of motion and the conservation of mass.
