. Carnegie Institution of Washington publication. . Log FIG. 25.—Malonic acid. 0 I 2 Log volume FIG. 26.—p-Chlorobenzoic acid. If dissociation in alcoholic solutions increases with rise in tempera- ture, it might account for the large temperature coefficients of conduc- tivity in such solutions; but this again seems highly improbable. The greater expansion of the alcohol with rise in temperature would allow a freer movement of the ions, and this doubtless is of some significance. A method for determining the dissociation of the organic acids in alcohol (somewhat similar to that used with aqueo


. Carnegie Institution of Washington publication. . Log FIG. 25.—Malonic acid. 0 I 2 Log volume FIG. 26.—p-Chlorobenzoic acid. If dissociation in alcoholic solutions increases with rise in tempera- ture, it might account for the large temperature coefficients of conduc- tivity in such solutions; but this again seems highly improbable. The greater expansion of the alcohol with rise in temperature would allow a freer movement of the ions, and this doubtless is of some significance. A method for determining the dissociation of the organic acids in alcohol (somewhat similar to that used with aqueous solutions) will, it is hoped, be worked out in the investigation of this subject which is to follow this preliminary one. It will involve the study in alcohol of. 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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