o 



*0 3 



CC 



20 



40 



t- MICROSECONDS 



60 



80 



Figure 18. Bubble radius is shown as a function of time for the conditions of Fig. 17. 



REFERENCES 



1. M. S. Plesset and T. P. Mitchell, Quarterly of Applied Mathematics, Vol. 13, 419 (1956). 



2. W. E. Mathews, Thesis, California Institute of Technology, 1953. 



3. M. S. Plesset and S. A. Zwick, Physical Review, Vol. 81, p. 658, (1951); Journal of 



Applied Physics, Vol. 23, p. 95 (1952). 



4. P. Dergarabedian, Journal of Applied Mechanics, Vol. 20, p. 537, (1953). 



5. M. S. Plesset, Journal of Applied Mechanics, Vol. 16, p. 277, (1949). 



6. J. R. Dietrich, Proceedings of the International Conference on the Peaceful Uses of 



Atomic Energy (1955), Vol. 13, p. 88. 



Table I 



To °C 



Rayleigh velocity cm/sec 



Rmax cm/sec 



Po X 10" 6 dynes/cm 2 



Ro cm 



216 

 13.9x10= 



16.9 

 19.1 

 2.96xl0- 5 



213 

 9.62X10= 



2.28 

 19.1 

 6.12X10" 1 



106 

 4.08 x 10 2 



159 

 1.01 

 4.83 x 10- 



103 

 2.82x10= 



32.7 

 1.01 

 1.02 X10" 3 



317 



