. Carnegie Institution of Washington publication. \ { [ Hydrates. m M Sp. gr. cor. Me Hc LiBr. Na
. Carnegie Institution of Washington publication. \ { [ Hydrates. m M Sp. gr. cor. Me Hc LiBr. NaBr LiBr. NaBr LiBr. NaBr LiBr. NaBr LiBr. NaBr LiBr. NaBr LiBr. NaBr LiBr. NaBr LiBr. NaBr 11. 4 7 .5 .5 2 15. 11. 4. 12. Curve II, fig. 10, representing the value of M in the mixture of lithium bromide and sodium bromide, crosses curve I, the value of M for lithium bromide in single solu- tion. The same phenomenon presents itself in the case of sodium bromide at a some- what greater concentration. In an earlier part of this investigation it was suggested that the hydrating power of the ions alone, and of these ions when combined to form molecules, would probably be different. If, now, the hydrating power of the lithium bromide and the sodium bromide molecules is greater than that of the respective ions, we might expect that the effect of the smaller amount of water present as solvent in the mixture would be overcome by the greater hydrating power of the undissociated molecules. Evidently, for this increased hydrating power of the molecules over the. Please note that these images are extracted from scanned page images that may have been digitally e
Size: 844px × 2961px
Photo credit: © Book Worm / Alamy / Afripics
License: Licensed
Model Released: No
Keywords: ., bookauthorcarnegie, bookcentury1900, bookdecade1910, bookyear1913