Ultrasonic absorption and structure of ionic solutions

The excess ultrasonic absorption in ionic solutions is explained on the basis of the molecular motions of solvent molecules at various distances frcm the ions. A comparison between experimental and theoretical results for pure water and for aqueous solutions of LiCl and KBr shows good agreement.

Recently one of us has shown that the ultrasonic absorption of DNA solutions goes through a well-defined maximum when the pH is changed.1 This maximum occurs, independently of the ultrasonic frequency, at pH = 11.9, that is, at a pH close to that which corresponds to the mid-point of the denaturatio

Values of A V for carboxyl and amino groups in the Synopsis and Table I were erroneously given and should read 9.4 and 19.7 cm3/mole, respectively. Consequently, the statement on page 788 that the bV is considerably smaller than that for glycine should be deleted. The value of A V for carboxyl group

## Abstract The titration curve of ultrasonic absorption at 2.82 MHz in aqueous solutions of lysozyme measured by Zana and Lang [__J. Phys. Chem.__, **74**, 2734 (1970)] is theoretically analyzed. The maxima at pH 3 and pH 11 are describable with proton‐transfer reactions of dissociable carboxyl an