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VIII.—The Atomic Weight of the Calcium contained in very Old Potassium-rich Minerals occurring at Portsoy, Banffshire, and at Cape Wrath, Sutherlandshire

Published online by Cambridge University Press:  15 September 2014

William W. Smith  and
Thomas Tait
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Extract

The radioactivity of potassium was discovered by Campbell and Wood (1907). Since the β-ray activity shown by all the potassium salts investigated was very small, the suspicion naturally arose that this activity was due to a trace of radioactive impurity and not to the potassium itself. All tests for the presence of an emanation gave, however, negative results, and it became necessary to conclude that the observed emission of the β-radiation was indeed a property of the potassium atom. The subsequent investigations of Campbell (1907) and of Hoffman (1924), whose attempts to alter the activity by chemical operations were unsuccessful, supported this conclusion, as did also the work of Biltz and Marcus, who prepared specimens of potassium sulphate from potassium minerals of different geological ages and found that the activity of the preparations per atom of potassium was always the same.

Type
Proceedings
Information
Proceedings of the Royal Society of Edinburgh , Volume 54 , 1935 , pp. 88 - 101
Copyright
Copyright © Royal Society of Edinburgh 1935

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References

References to Literature

Allison, F., and Goslin, R., 1932. “The Transformation Product of Potassium,” Phys. Rev., vol. xl, pp. 10151016CrossRefGoogle Scholar
Baxter, G. P., and Alter, C. M., 1933. “The Atomic Weight of Less Volatile Potassium prepared by Hevesy,” J Amer. Chem. Soc., vol. lv, pp. 32703271.CrossRefGoogle Scholar
Biltz, M., and Zeigert, H., 1928. “Radioactivity of Potassium Isotopes,” Phys. Zeit., Bd. xxix, pp. 197200.Google Scholar
Calcagni, G., 1930. “Potassium Salts from Insoluble Minerals,” Annali Chim. Appl., vol. xx, pp. 522527.Google Scholar
Campbell, N. R., 1907. “β-Rays from Potassium,” Proc. Camb. Phil. Soc., vol. xiv, pp. 211216.Google Scholar
Campbell, N. R., and Wood, A., 1907. “Radioactivity of Alkali Metals,” Proc. Camb. Phil. Soc., vol. xiv, pp. 1521.Google Scholar
Frost, A. V. and , O. 1930. “The Product of Radioactive Disintegration of Potassium,” Nature, vol. cxxv, p. 48.CrossRefGoogle Scholar
Hevesy, G., 1927. “The Radioactivity of Potassium,” Nature, vol. cxx, pp. 838839.CrossRefGoogle Scholar
Hevesy, G., Seith, W., and Pahl, M., 1931. “Radioactivity of Potassium,” Z. physikal. Chem., Bodenstein Festband, pp. 309318.Google Scholar
Hoffmann, G., 1924. “Measurement of Feeble Radioactivity and the Radioactivity of Alkali Metals and some other Substances,” Z. Physik, Bd. xxv, pp. 177199.CrossRefGoogle Scholar
Holmes, A., 1927. The Age of the Earth, p. 78.Google Scholar
Holmes, A., and Lawson, R. W., 1926. “Radioactivity of Potassium and its Geological Significance,” Phil. Mag., vol. ii, pp. 12181233.CrossRefGoogle Scholar
Hönigschmid, O., and Kempter, K., 1931. “Revision des Atomgewichtes des Calciums,” Zeit. anorg. Chem., Bd. cxcv, pp. 114.Google Scholar
Kendall, J., Smith, W. W., and Tait, T., 1933. “Calcium Isotope with Mass 41 and the Radioactive Half-period of Potassium,” Nature, vol. cxxxi, p. 68. A second note, correcting certain errors, appears in Nature, vol. cxxxiii, pp. 613, 614.Google Scholar
Mühlhoff, W., 1930. “Activity of Potassium and Rubidium determined by Means of the Electron Counter,” Ann. Physik, Bd. vii, pp. 205224.CrossRefGoogle Scholar
Richards, T. W., and Hönigschmid, O., 1910. “Further Investigations concerning the Atomic Weights of Silver, Lithium, and Chlorine,” J Amer. Chem. Soc, vol. xxxii, p. 12.Google Scholar
Richards, T. W., and Wells, R. C, 1905. “ A Revision of the Atomic Weights of Sodium and Chlorine,” J. Amer. Chem. Soc, vol. xxvii, p. 459.CrossRefGoogle Scholar