Linear isothermal regularity

2012-01-31T10:12:04Z

Yan King:

{{Stub-general}}
The '''linear isothermal regularity''' was discovered by Parsafar in 1991. It suggests that <math>(Z-1)v^2</math> vs <math>\rho^2</math> is linear. This led to a new [[Van der Waals equation of state |Van der Waals]] like equation of state (Ref. 2 Eq. 8):

:<math>(Z-1) v^2 = \frac{1}{\rho } \left( \frac{\alpha}{1-\lambda b \rho} - \frac{\alpha - B_2}{1+ \delta b \rho} \right)</math>
==References==
#Gholam Abbas Parsafar "Deriving the Equation of State for Liquids and Extension of the Principle of Corresponding States", Journal of Sciences, Islamic Republic of Iran '''2''' pp. 111-123 (1991)
#[http://dx.doi.org/10.1021/j100137a035 Gholam Abbas Parsafar and E. A. Mason "Linear isotherms for dense fluids: a new regularity", Journal of Physical Chemistry '''97''' pp. 9048-9053 (1993)]
#[http://dx.doi.org/10.1016/j.fluid.2007.10.002 Mohammad Shokouhi and Gholam Abbas Parsafar "A new equation of state derived by the statistical mechanical perturbation theory", Fluid Phase Equilibria '''264''' pp. 1-11 (2008)]
[[category: equations of state]]
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Nano-ice

2012-01-31T10:12:03Z

Yan King:

{{Stub-water}}
==Pentagon ice nanotube==
==Hexagon ice nanotube==
==Heptagon ice nanotube==
==Octagon ice nanotube==
==Nonagon ice nanotube==
==References==
#[http://dx.doi.org/10.1073/pnas.0608401104 Jaeil Bai, Jun Wang, and X. C. Zeng "Multiwalled ice helixes and ice nanotubes", PNAS '''103''' pp. 19664-19667 (2006)]
[[category: water]]
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Linear isothermal regularity

Nano-ice