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200 10$aD. Erasmi Roterodami de duplici copia verborum ac rerum$b[electronic resource] $ecommentarii duo, multa accessione nouisq?ue formulis locupletati. Vna cum commentarijs M. Veltkirchij oratoria professoris in schola Wittenbergensi, iam recens natis ac ęditis
210   $aLondini $capud Henricum Middeltonum$danno Domini 1573
215   $a[]+ leaves
300   $aM. Veltkirchius = Joannes Velcurio, sometimes known as Bernhardi. Cf. STC.
300   $aAnother edition of STC 10472, revised. Includes index.
300   $aFragment: t.p. only; print missing from title..
300   $aReproduction of original in the British Library.
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606   $aStudy, Method of$vEarly works to 1800
608   $aTitle pages$zEngland$y16th century.
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200 10$aNon-Fourier Heat Conduction $eFrom Phase-Lag Models to Relativistic and Quantum Transport /$fby Alexander I. Zhmakin
205   $a1st ed. 2023.
210  1$aCham :$cSpringer International Publishing :$cImprint: Springer,$d2023.
215   $a1 online resource (419 pages)
311 08$aPrint version: Zhmakin, Alexander I. Non-Fourier Heat Conduction Cham : Springer International Publishing AG,c2023 9783031259722 
320   $aIncludes bibliographical references.
327   $a1. Introduction -- 2. Phase-Lag Models -- 3. Phonon Models -- 4. Thermomass Model  -- 5. Mesoscopic Moment Equations -- 6. Micro-Temperature & Micromorphic Temperature Models -- 7. Thermodynamic Models -- 8. Fractional Derivative Models  -- 9. Fractional Boltzmann and Fokker-Planck equations -- 10. Elasticity and thermal expansion coupling -- 11. Some Exact Solutions -- 12. Relativistic Brownian Motion  -- 13. Relativistic Boltzmann Equation  -- 14. Variational Models -- 15. Relativistic Thermodynamics -- 16. Landauer approach -- 17. Green-Kubo approach -- 18. Coherent Phonon Transport -- 19. Conclusions.
330   $aThis book presents a broad and well-structured overview of various non-Fourier heat conduction models. The classical Fourier heat conduction model is valid for most macroscopic problems. However, it fails when the wave nature of the heat propagation becomes dominant and memory or non-local spatial effects become significant; e.g., during ultrafast heating, heat transfer at the nanoscale, in granular and porous materials, at extremely high values of the heat flux, or in heat transfer in biological tissues. The book looks at numerous non-Fourier heat conduction models that incorporate time non-locality for materials with memory, such as hereditary materials, including fractional hereditary materials, and/or spatial non-locality, i.e. materials with a non-homogeneous inner structure. Beginning with an introduction to classical transport theory, including phase-lag, phonon, and thermomass models, the book then looks at various aspects of relativistic and quantum transport, including approaches based on the Landauer formalism as well as the Green-Kubo theory of linear response. Featuring an appendix that provides an introduction to methods in fractional calculus, this book is a valuable resource for any researcher interested in theoretical and numerical aspects of complex, non-trivial heat conduction problems.
606   $aPhysics
606   $aMathematical physics
606   $aStatistical physics
606   $aSoft condensed matter
606   $aThermodynamics
606   $aHeat engineering
606   $aHeat$xTransmission
606   $aMass transfer
606   $aClassical and Continuum Physics
606   $aMathematical Methods in Physics
606   $aStatistical Physics
606   $aSoft and Granular Matter
606   $aEngineering Thermodynamics, Heat and Mass Transfer
615  0$aPhysics.
615  0$aMathematical physics.
615  0$aStatistical physics.
615  0$aSoft condensed matter.
615  0$aThermodynamics.
615  0$aHeat engineering.
615  0$aHeat$xTransmission.
615  0$aMass transfer.
615 14$aClassical and Continuum Physics.
615 24$aMathematical Methods in Physics.
615 24$aStatistical Physics.
615 24$aSoft and Granular Matter.
615 24$aEngineering Thermodynamics, Heat and Mass Transfer.
676   $a621
676   $a536.2012
700   $aZhmakin$b Alexander I.$01432710
801  0$bMiAaPQ
801  1$bMiAaPQ
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912   $a9910744504303321
996   $aNon-Fourier Heat Conduction$93577759
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