Carl McBride: Added DOI for the reference

2011-11-07T12:30:58Z

Added DOI for the reference

← Older revision		Revision as of 14:30, 7 November 2011
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	Baonza, ''et al'' formulated an equation based on a linear bulk modulus called the '''Baonza equation of state'''<ref>V.G. Baonza, M. Taravillo, ~~M. Caceres~~, and ~~J. Nunez,~~ Universal features of the equation of state of solids from a pseudospinodal hypothesis, ''~~Phys. Rev. B~~'' ~~53:~~5252, 1996.</ref>. It has a simple analytical form but also gives similar accuracy to the [[Rose-Vinet (Universal) equation of state]]. The equation of state is:		Baonza, ''et al'' formulated an equation based on a linear [[Compressibility \| bulk modulus]] called the '''Baonza equation of state'''<ref>[http://dx.doi.org/10.1103/PhysRevB.53.5252 Valentín García Baonza, Mercedes Taravillo, Mercedes Cáceres, and Javier Núñez "Universal features of the equation of state of solids from a pseudospinodal hypothesis", Physical Review B '''53''' pp. 5252-5258 (1996)]</ref>. It has a simple analytical form but also gives similar accuracy to the [[Rose-Vinet (Universal) equation of state]]. The equation of state is:

	:<math>p=\frac{\gamma B_0}{B_0'}\left[\left(1+B_0'\left(\frac{1}{\gamma}-1\right)ln\left(\frac{V_0}{V}\right)\right)^{1/(1-\gamma)}-1\right]</math>		:<math>p=\frac{\gamma B_0}{B_0'}\left[\left(1+B_0'\left(\frac{1}{\gamma}-1\right)ln\left(\frac{V_0}{V}\right)\right)^{1/(1-\gamma)}-1\right]</math>

	where <math>B_0</math> is the isothermal bulk modulus, <math>B_0'</math> is the pressure derivative of the bulk modulus and <math>\gamma</math> relates the bulk modulus and its pressure derivative via:		where <math>B_0</math> is the isothermal bulk modulus, <math>B_0'</math> is the [[pressure]] derivative of the bulk modulus and <math>\gamma</math> relates the bulk modulus and its pressure derivative via:

	:<math>B=B_0\left(1+\frac{B_0'}{B_0}P\right)^{\gamma}</math>		:<math>B=B_0\left(1+\frac{B_0'}{B_0}P\right)^{\gamma}</math>

Josephrpeterson: Created page with "Baonza, ''et al'' formulated an equation based on a linear bulk modulus called the '''Baonza equation of state'''V.G. Baonza, M. Taravillo, M. Caceres, and J. Nunez, Univers..."

2011-11-07T03:53:49Z

Created page with "Baonza, ''et al'' formulated an equation based on a linear bulk modulus called the '''Baonza equation of state'''<ref>V.G. Baonza, M. Taravillo, M. Caceres, and J. Nunez, Univers..."

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Baonza, ''et al'' formulated an equation based on a linear bulk modulus called the '''Baonza equation of state'''<ref>V.G. Baonza, M. Taravillo, M. Caceres, and J. Nunez, Universal features of the equation of state of solids from a pseudospinodal hypothesis, ''Phys. Rev. B'' 53:5252, 1996.</ref>. It has a simple analytical form but also gives similar accuracy to the [[Rose-Vinet (Universal) equation of state]]. The equation of state is:

:<math>p=\frac{\gamma B_0}{B_0'}\left[\left(1+B_0'\left(\frac{1}{\gamma}-1\right)ln\left(\frac{V_0}{V}\right)\right)^{1/(1-\gamma)}-1\right]</math>

where <math>B_0</math> is the isothermal bulk modulus, <math>B_0'</math> is the pressure derivative of the bulk modulus and <math>\gamma</math> relates the bulk modulus and its pressure derivative via:

:<math>B=B_0\left(1+\frac{B_0'}{B_0}P\right)^{\gamma}</math>

==References==
<references/>

[[category: equations of state]]

Baonza equation of state - Revision history

Carl McBride: Added DOI for the reference

Josephrpeterson: Created page with "Baonza, ''et al'' formulated an equation based on a linear bulk modulus called the '''Baonza equation of state'''V.G. Baonza, M. Taravillo, M. Caceres, and J. Nunez, Univers..."