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The Heat Capacity and Entropy of Silver Sulfate from 14 to 300°K. The Entropy of Sulfate Ion
1.Measurements on and are yet unpublished. For complete reference to the general theory and previous work, see the authors, J. Am. Chem. Soc. 55, 971 (1933).
2.Thomsen, Thermochemistry, p. 52. Longmans Green and Co., 1908. Translated by K. A. Burke.
3.Lange and Streeck, Zeits. f. Physik. Chemie A157, 1 (1931).
4.Randall and Rossini, J. Am. Chem. Soc. 51, 323 (1929).
5.Chloupek and Danes, Collection of Czeckoslovak Chemical Communications 4, 124 (1932).
6.Harkins, J. Am. Chem. Soc. 33, 1813 (1911); other references in this paper.
6.Hill and Simmons, J. Am. Chem. Soc. 31, 821 (1909);
6.Hill and Simmons, Zeits. f. Physik. Chemie 67, 594 (1909).
6.Rothmund, Zeits. f. Physik. Chemie 69, 523 (1910).
6.Drucker, Zeits. f. Anorg. Chemie 28, 362 (1901).
7.Lewis and Randall, Thermodynamics and Free Energy of Chemical Substances, McGraw‐Hill, New York, 1923.
8.Hass and Jellinek, Zeits. f. Physik. Chemie A162, 167 (1932). 0.533 compares favorably with values obtained for similar salts by these workers.
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