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4. E. Meyer and K. Tamm, "Natural Vibration and Damping of Gas Bubbles in Liquids", 



Taylor Model Basin Trans, 109, April 1943. Orig. in Akust. Z., 4, 1945 (1939). 



5. H. Pfriem, "Zur Thermischen Dampfung in Kugelsymmetrisch Schwingenden Gasblasen," 



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7. M. Strasberg, "Gas Bubbles as Sources of Sound in Liquids," J. Acoust. Soc. Am. 28, 



20 (1956). 



8. E. H. Kennard, "Radial Motion of Water Surrounding a Sphere of Gas in Relation to 



Pressure Waves," Taylor Model Basin Report 517, Sept. 1943. 



9. B. E. Noltingk and E. A. Neppiras, "Cavitation Produced by Ultrasonics," Proc. Phys. 



Soc. London, B63, 674 (1950); B64, 1032 (1951). 



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11. A. B. Wood, "A Textbook of Sound," (Macmillan, New York, 1930) p. 215. 



12. H. Mueller, "Uber den gegenwartigen Stand der Kavitationsforschung," Die Naturwissen- 



schaften, 16 Jahrg., Heft 22 (1928). 



13. R. T. Knapp and A. Hollander, "Laboratory Investigations of the Mechanism of Cavita- 



tion," Trans. A.S.M.E., 70, 419, (1948). 



14. Mark Harrison, "An Experimental Study of Single-Bubble Cavitation Noise," Taylor 



Model Basin Report 815, June 1952. 



15. B. Parkin, "Scale Effects in Cavitating Flow," Calif. Inst. Tech. HL-CIT Report 21-7, 



Dec. 1951. 



16. P. Eisenberg. "Modern Developments in the Mechanics of Cavitation," App. Mech. Rev. 



10, 85, (1957). 



17. M. S. Plessett, "Dynamics of Cavitation Bubbles," App. Mech., 16, 277, (1949). 



18. Lord Rayleigh, "On the Pressure Developed in a Liquid During the Collapse of a Spher- 



ical Cavity," Phil. Mag. 34, 94, (1917). 



19. T. Brooke Benjamin. "Cavitation in Liquids," doctoral dissertation, Cambridge Univ., 



Cambridge. (As quoted in Reference 26.) 



20. R. H. Mellen, "Ultrasonic Spectrum of Cavitation Noise in Water," J. Acoust. Soc. Am., 



26, 356, (1954). 



21. D. W. Jorgensen, "Measurements of Noise from Cavitating Submerged Water Jets," 



Taylor Model Basin Report 1126, in preparation. 



22. R. H. Mellen, "An Experimental Study of the Collapse of a Spherical Cavity in Water," 



J. Acoust. Soc. Am. 28, 447. (1956). (In an unpublished communication. Dr. T. 

 Brooke Benjamin indicates that evidence of a shock wave has been observed at King's 

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23. E. Meyer, "Some New Measurements on Sonically Induced Cavitation," J. Acoust. Soc. 



Am. 29, 4, (1957). 



24. W. Girth, "Zur Entstehung Der Stosswellen Bei Der Kavitation," Acustica, 6, 526, (1956). 



25. J. B. Keller and I. Kolodner, "Damping of Underwater Explosion Bubble Oscillations," 



J. App. Phy. 27, 1152 (1956). 



26. H. G. Flynn, "The Collapse of a Transient Cavity in a Compressible Liquid," doctoral 



dissertation, Harvard Univ. 1956. 



27. A. J. R. Schneider, "Some Compressible Effects in Cavitation Bubble Dynamics," Ph. D. 



Thesis, Calif. Inst. Tech. 1949. 



28. F. R. Gilmore, "The Growth and Collapse of a Spherical Bubble in a Viscous Com- 



pressible Liquid," Hydro. Lab. Calif. Inst. Tech. Report 26-4, April 1952. 



29. F. R. Gilmore, "Collapse of a Spherical Bubble in a Compressible Liquid," Presented at 



274 



