. Carnegie Institution of Washington publication. FIG. 38.—Nucleation of residual water nuclei in successive identical exhaustions made at different intervals of time apart. Fog particles precipitated upon ions. FIG. 39.—The same, constructed for successive exhaustions and ignoring the time intervals. All the results might be made more striking by reducing them to the same initial nucleation or ionization. Just how differences in these values arise is difficult to affirm, but all the after effects in the successive exhaustions are usually consistent. It does not follow, however, that the corre
. Carnegie Institution of Washington publication. FIG. 38.—Nucleation of residual water nuclei in successive identical exhaustions made at different intervals of time apart. Fog particles precipitated upon ions. FIG. 39.—The same, constructed for successive exhaustions and ignoring the time intervals. All the results might be made more striking by reducing them to the same initial nucleation or ionization. Just how differences in these values arise is difficult to affirm, but all the after effects in the successive exhaustions are usually consistent. It does not follow, however, that the correction is to be made by proportionately increasing all the low nucleations by the amount required in the primary nucleation. Series 7 and 8 were therefore added specially with a view to normally large initial •<_ . - ,J <5,\ ,*<8». --^'- LH. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original Carnegie Institution of Washington. Washington, Carnegie Institution of Washington
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