Entropy and the Thermodynamics of a Single Particle

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Entropy and the Thermodynamics of a Single Particle W. J. Wilson Department of Engineering

Entropy and the Thermodynamics of a Single Particle W. J. Wilson Department of Engineering and Physics University of Central Oklahoma Edmond, OK 73034 2012 Oklahoma Academy of Sciences Annual Technical Meeting University of Central Oklahoma Edmond, OK November 9, 2012 wwilson@uco. edu

First Law – Sign Convention Chemistry and Physics sign convention wwilson@uco. edu

First Law – Sign Convention Chemistry and Physics sign convention wwilson@uco. edu

For a single particle, U = KE+PE = U(x, v) and F = F(x,

For a single particle, U = KE+PE = U(x, v) and F = F(x, v) are functions of position and velocity only so if we use the work on system positive sign convention which becomes for a free(non-relativistic) particle, wwilson@uco. edu

Now if the change dx and dv occur in time dt So for a

Now if the change dx and dv occur in time dt So for a single particle system, wwilson@uco. edu

So for a single particle system, And for a closed system (no energy allowed

So for a single particle system, And for a closed system (no energy allowed to enter or escape) We find wwilson@uco. edu (i. e. , an “Adiabatic” Process)

So for a single particle system, using the work done on the system is

So for a single particle system, using the work done on the system is positive sign convention, 1. Yields Newton’s 2 nd Law in the standard form 2. Particle motions governed by Newton’s 2 nd Law correspond to “adiabatic” processes wwilson@uco. edu

Generalized Newton’s 2 nd Law For a single particle, or wwilson@uco. edu

Generalized Newton’s 2 nd Law For a single particle, or wwilson@uco. edu

Now if the change dx and dv occur in time dt So for a

Now if the change dx and dv occur in time dt So for a single particle, isothermal system wwilson@uco. edu

So, Or Generalized 2 nd Law ! wwilson@uco. edu

So, Or Generalized 2 nd Law ! wwilson@uco. edu

The extra “Force-Like” term in is an entropic force or wwilson@uco. edu

The extra “Force-Like” term in is an entropic force or wwilson@uco. edu

Entropic Force Example Long Chain Molecules wwilson@uco. edu

Entropic Force Example Long Chain Molecules wwilson@uco. edu

Expansion of Universe is Accelerating 2011 Physics Nobel Prize • Saul Perlmutter (Lawrence Berkeley

Expansion of Universe is Accelerating 2011 Physics Nobel Prize • Saul Perlmutter (Lawrence Berkeley Lab) • Brian Schmidt (Australian National Lab) • Adam Reiss (Johns Hopkins) wwilson@uco. edu

Dark Energy as Entropic Force? Accelerating expansion wwilson@uco. edu

Dark Energy as Entropic Force? Accelerating expansion wwilson@uco. edu

Summary • 1 st Law of Thermodynamics (Td. S = d. U – Fdx

Summary • 1 st Law of Thermodynamics (Td. S = d. U – Fdx ) applied to a single particle leads to a generalized 2 nd Law • The entropic force term could give an explanation of the observed accelerating expansion of the universe. wwilson@uco. edu

References W. J. Wilson, Thermodynamics of a Single Particle System, 2012 Oklahoma Academy of

References W. J. Wilson, Thermodynamics of a Single Particle System, 2012 Oklahoma Academy of Sciences Annual Technical Meeting, Durant, OK, November 11, 2011. Slides available at http: //cyberphysics. org/wwilson. E. C. G. Stueckelberg and P. B. Scheurer, Thermocinéque Phénoménologique Galiléenne, (Birkhauser, Stuttgart, 1974) P. E. Williams, On a Possible Formulation of Particle Dynamics in Terms of Thermodynamics Conceptualizations and the Role of Entropy in It (M. S. Thesis, Naval Postgraduate School, Monterey, CA, 1976). wwilson@uco. edu 15