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![[Figure 7]](ge5158fig7mag.jpg)
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Figure 7
Number density of spheres, N(r) = r−a, as a function of radius normalized so that each distribution has the same total number of spheres over the radius range 10–300 Å. When the radial exponent a increases, the number of large spheres decreases, as does the average radius of spheres within the ensemble. Left: linear plot. Right: log–log plot exhibiting the power-law property of the distribution chosen. |
![[Figure 7]](ge5158fig7.jpg)
 | JOURNAL OF APPLIED CRYSTALLOGRAPHY |
ISSN: 1600-5767
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