Studies in Molecular Dynamics. V. High‐Density Equation of State and Entropy for Hard Disks and Spheres

The equations of state for periodic systems of hard disks and hard spheres in the solid phase have been accurately determined and used to evaluate the coefficients in the expansion of the pressure in powers of the relative free volume, α = (V − V0) / V0, where V0 is the close‐packed volume. For disks pV / NkT = 2 / α + 1.90 + 0.67α + O(α2) and for spheres pV / NkT = 3 / α + 2.56 + 0.56α + O(α2). These coefficients are compared to cell models, and those models which include correlations between neighboring particles work best. An equivalent expansion of other thermodynamic properties requires the entropy constant to be evaluated in the close‐packed limit. This constant is obtained here by integrating the equation of state over the entire density region. The Lennard‐Jones–Devonshire cell‐theory estimates of the entropy constant are nearly correct; that is, the cell‐theory estimate is too small by 0.06Nk for disks and too large by 0.24Nk for spheres. The pressure difference and hence the entropy difference b...

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