Experiments on Heat-Stabilized Laminar Boundary Layers 



in a Tube T^ 



Steven J. Barker 



Some Effects of Several Freestream Factors on Cavitation 



Inception on Axisymmetric Bodies 86 



Edward M. Gates and Allan J. Acosta 

 Discussion 109 



SESSION III: SHIP BOUNDARY LAYERS AND PROPELLER HULL INTERACTION 



Calculation of Thick Boundary Layer and Near Wake of Bodies 



of Revolution by a Differential Method 115 



Virenda C. Patel and Yu-Tai Lee 



Stern Boundary-Layer Flow on Axisymmetric Bodies 127 



Thomas T. Huang, Nicholas Santelli, and Garnell Belt 



Theoretical Computation and Model and Full-Scale Correlation 



of the Flow at the Stern of a Submerged Body ' 158 



A. W. Moore and C. B. Wills 



Experimental and Theoretical Investigation of Ship Boxindary 



Layer and Wake 159 



Shuji Hatano, Kazuhiro Mori, and Takio Hotta 



A General Method for Calculating Three-Dimensional Laminar 



and Turbulent Boundary Layers on Ship Hulls 188 



Tuncer Cebeci, K. C. Chang, and Kalle Kaups 



Study on the Structure of Ship Vortices Generated by 



Full Sterns 209 



Hiraku Tanaka and Takayasu Ueda 



SESSION IV: SHIP BOUNDARY LAYERS AND PROPELLER HULL INTERACTION 



Wake Scale Effects on a Twin-Screw Displacement Ship 225 



Arthur M. Reed and William G. Day, Jr. 

 Influence of Propeller Action on Flow Field Around a Hull 248 



Shunichi Ishida 

 Prediction Of the Velocity Field in Way of the Ship Propeller 265 



I. A. Titov, A. F. Poostoshniy, and O. P. Orlov 



Recent Theoretical ^Lnd Experimental Developments in the 



Prediction of Propeller Induced Vibration Forces on 



Nearby Boundaries 278 



Bruce D. Cox, William S. Vorus , John P. Breslin, 

 and Edwin P. Rood 



