Results 171 to 180 of about 237,264 (235)
Thermodynamic limits in far-from-equilibrium molecular templating networks.
NewtonQureshi B, Poulton JM, Ouldridge TE.
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Review of the Use of Entropy to Understand the Thermodynamics of Pure-Substance PCMs. [PDF]
Entropy (Basel)Mehling H.
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Non-equilibrium thermodynamics of magnetic resonance using the quantum mechanics
, 2016 Wellington Luiz Ribeiro +2 more
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1994
The ideas which we shall present in the remainder of this book are intimately connected with thermodynamics. In order to describe the various transport processes in structured continua, one must first build a solid foundation of equilibrium thermodynamics upon which to base further development.
Antony N. Beris, Brian J. Edwards
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The ideas which we shall present in the remainder of this book are intimately connected with thermodynamics. In order to describe the various transport processes in structured continua, one must first build a solid foundation of equilibrium thermodynamics upon which to base further development.
Antony N. Beris, Brian J. Edwards
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Non-equilibrium Thermodynamics
2013In the preceding chapters with few exceptions we studied systems at equilibrium. This means that the systems do not change or evolve over time.
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Equilibrium thermodynamics — Callen’s postulational approach
Journal of Non-Newtonian Fluid Mechanics, 2001zbMATH Open Web Interface contents unavailable due to conflicting licenses.
Jongschaap, R.J.J. +1 more
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1983
Equilibrium Thermodynamics gives a comprehensive but concise course in the fundamentals of classical thermodynamics. Although the subject is essentially classical in nature, illustrative material is drawn widely from modern physics and free use is made of microscopic ideas to illuminate it.
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Equilibrium Thermodynamics gives a comprehensive but concise course in the fundamentals of classical thermodynamics. Although the subject is essentially classical in nature, illustrative material is drawn widely from modern physics and free use is made of microscopic ideas to illuminate it.
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2010
Biological systems are far from thermodynamic equilibrium. Concentration gradients and electrostatic potential differences are the driving forces for diffusive currents and chemical reactions. In this chapter, we present the basic ingredients of nonequilibrium thermodynamics. We derive continuity equations for mass and energy.
Philipp O. J. Scherer +1 more
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Biological systems are far from thermodynamic equilibrium. Concentration gradients and electrostatic potential differences are the driving forces for diffusive currents and chemical reactions. In this chapter, we present the basic ingredients of nonequilibrium thermodynamics. We derive continuity equations for mass and energy.
Philipp O. J. Scherer +1 more
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