. Carnegie Institution of Washington publication. 12 HYDRATES IN AQUEOUS SOLUTION. Owing to limited solubility the study of the sulphates at great concentra- tion was not possible, so that it can not be stated whether or not these salts exhibit the phenomenon. In general, we may say that the freezing-point curve for any acid lies above those of the salts which it forms with the metals of the first group, while it lies below the curves for its second group salts. The molecular conductivities are plotted in curves, figs. 7 to 10. The ordinates are molecular conduc- tivities, and the abscissae vo
. Carnegie Institution of Washington publication. 12 HYDRATES IN AQUEOUS SOLUTION. Owing to limited solubility the study of the sulphates at great concentra- tion was not possible, so that it can not be stated whether or not these salts exhibit the phenomenon. In general, we may say that the freezing-point curve for any acid lies above those of the salts which it forms with the metals of the first group, while it lies below the curves for its second group salts. The molecular conductivities are plotted in curves, figs. 7 to 10. The ordinates are molecular conduc- tivities, and the abscissae volume of the solution, or the number of liters that contain a gram-molecular weight of the electrolyte. The conductivity curves for all of the substances studied are perfectly normal throughout, showing absolutely no peculiarities in the region of dilution where the minimum of molecular depression manifests v 10 Volume FIG. 10. is. 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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