578 Bibliography 



Harris, R. A. (1911). Arctic tides. U. S. Coast and Geod. Surv. Rep., Wash. 

 Harvey, H. W. (1955). The Chemistry and Fertility of Sea Waters, pp. 1-224. Cambridge Uni- 

 versity Press. 

 Haurwjtz, B. (1931). Zur Theorie der Wellenbewegung in Luft und Wasser. Veroff. Geophys. 



Just, Lpz. 5, no. 1, Ser. 2. 

 Haurwitz, B. (1950). Internal waves of tidal character. Trans. Amer. Geophys. Union 31, no. 1 , 47-52. 

 Haurwitz, B. (1954). The occurrence of internal tides in the ocean. Arch. Met. Geophys. Biokl. 7, 



406-24. 

 Haurwitz, B. and others (1949). Ocean surface waves. Ann. N. Y. Acad. Sci. 51, 347-72. 

 Hayford. J. (1922). Effects of winds and of barometric pressure on the Great Lakes Publ. Car- 

 negie Inst. Wash. 

 Helland-Hansen, B. and Nansen, F. (1909). The Norwegian Sea. Norv. Fish and Mar. Invest. 



Rep. 2, no. 1 and 2. 

 Helland-Hansen, B. (1930). Physical oceanography and meteorology. Rep. Sci. Res. "Michael 



Sars" North All. Deep-Sea Exp. 1910. 1. Bergen. 

 Helland-Hansen, B. and Ekman, W. (1931). Measurements of ocean currents (Experiments 



in the North Atlantic). K. fysiogr. Sdllsk. Lund Forh. 1, no. 1 (May). 

 Helmholtz, H. v. (1889). Zur Theorie von Wind und Wellen. S. B. K. Akad. Wiss. Berl., p. 761. 

 Helmholtz, H. v. (1890). Die Energie der Wogen und des Windes. S. B. K. Akad. Wiss., Berl, 



p. 853. 

 Henry, A. (1902). Wind Velocity and Fluctuations of Water Level on Lake Erie. Washington. 

 Hessen, K. (1920a). Dber eine neue Methode, die harmonischen Konstanten der langperiodischen 



Tiden der Mondgezeiten abzuleiten. Ann. Hydr. Mar. Met. 48, 441. 

 Hessen, K. (19206). LJher die Bdrgen'sche Methode der harmonischen Analyse der Meeresgezeiten, 



deren Vereinfachung und Erweiterung. Ann. Hydr. Mar. Met. 48, 1. 

 Hidaka, K. (1932o). Theory of uninodal longitudinal seiches in Lake Yamanaka. Geophys. Mag. 5. 



Tokyo. 

 Hidaka, K. (1932/)). Seiches of viscous water. Geophys. Mag. 5, no. 1. Tokyo. 

 Hidaka, K. (1935). Seiches due to a submarine bank (bank seiches). A theory of shelf seiches. 



Mem. Imp. Mar. Obs. Kobe 6, no. 1. 

 Hidaka, K. (1931 a). Problems of water oscillations in various types of basins and canals. Part I. 



The oscillations of water in spindle-shaped and elliptic basins as well as the associated pro- 

 blems. Mem. Imp. Mar. Obs. Kobe 4, no. 2. 

 Hidaka, K. (1931 b). Problems of water oscillations in various types of basins and canals. Part II. 



The free oscillations of water in a canal of spindle-shaped plane. Mem. Imp. Mar. Obs. Kobe 



4, no. 4. 

 Hidaka, K. (1932o). Problems of water oscillations in various types of basins and canals. Part III, 



IV and VI. Tidal oscillations in a rectangular basin of variable depth. Mem. Imp. Mar. Obs. 



Kobe 5, no. 1 : or Geophys. Mag. 5, no. 3. 

 Hidaka, K. (1932ft). Problems of water oscillations in various types of basins and canals. Part V. 



Tidal oscillations in a circular basin with an elevation or depression at its centre. Mem. Imp. 



Mar. Obs. Kobe 5, no. 2. 

 Hidaka, K. (1934). Problems of water oscillations in various types of basins and canals. Part VII. 



Oscillations of water in a fan-shaped basin. Geophys. Mag. 8, no. 2. 

 Hidaka, K. (1935o). Problems of water oscillations in various types of basins and canals. Part VIII. 



The oscillations of water in canals of asymmetric plane. Mem. Imp. Mar. Obs. Kobe 5, no. 4. 

 Hidaka, K. (1935ft). Problems of water oscillations in various types of basins and canals. Part IX. 



Seiches in a channel. Mem. Imp. Mar. Obs. Kobe 5, no. 4. 

 Hidaka, K. (1936). Problems of water oscillations in various types of basins and canals. Part X. 



Seiches in an infinite canal with undulatory bed. Geophys. Mag. 10, no. 1. 

 Hidaka, K. (1936). Application of Ritz Variation method to the determination of seiches in 



a lake. Mem. Imp. Mar. Obs. Kobe 6, no. 2. 



