Difference between revisions of "Thermodynamic Generalization to Interfacial Systems of Einstein Theory of Brownian Motion"
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− | This talk discusses the rationale for accounting in thermodynamics for the particle momentum, associated with thermal motion (thermal momentum). The resulting theory is a field formulation, which has numerous, novel, fundamental theoretical and applied consequences of interdisciplinary nature. The applications include diversified problems that relate to: semiconductor diodes, solar cells, meteorology, and surface and interfacial phenomena. Experimental data related to semiconductor diodes are compared with two theories: one based on classical thermodynamics that ignores the particle thermal momentum and thermodynamics that accounts for that fundamental quantity. The latter theory is in accurate agreement with the experimental results.[[Category:Scientific Paper]] | + | This talk discusses the rationale for accounting in thermodynamics for the particle momentum, associated with thermal motion (thermal momentum). The resulting theory is a field formulation, which has numerous, novel, fundamental theoretical and applied consequences of interdisciplinary nature. The applications include diversified problems that relate to: semiconductor diodes, solar cells, meteorology, and surface and interfacial phenomena. Experimental data related to semiconductor diodes are compared with two theories: one based on classical thermodynamics that ignores the particle thermal momentum and thermodynamics that accounts for that fundamental quantity. The latter theory is in accurate agreement with the experimental results. |
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+ | [[Category:Scientific Paper|thermodynamic generalization interfacial systems einstein theory brownian motion]] |
Latest revision as of 11:25, 1 January 2017
Scientific Paper | |
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Title | Thermodynamic Generalization to Interfacial Systems of Einstein Theory of Brownian Motion |
Author(s) | Mahmoud A Melehy |
Keywords | {{{keywords}}} |
Published | 2011 |
Journal | None |
Abstract
This talk discusses the rationale for accounting in thermodynamics for the particle momentum, associated with thermal motion (thermal momentum). The resulting theory is a field formulation, which has numerous, novel, fundamental theoretical and applied consequences of interdisciplinary nature. The applications include diversified problems that relate to: semiconductor diodes, solar cells, meteorology, and surface and interfacial phenomena. Experimental data related to semiconductor diodes are compared with two theories: one based on classical thermodynamics that ignores the particle thermal momentum and thermodynamics that accounts for that fundamental quantity. The latter theory is in accurate agreement with the experimental results.