REFERENCES 



1. Moore, D.W. and P.G. Saffman, "Axial Flow in Laminar Trailing 

 Vortices," Proc. Royal Soc. London A. 333, pp. 491-508 (1973). 



2. Batchelor, G.K., "Axial Flow in Trailing Line Vortices," J. 

 Fluid Mech., Vol. 20, Part 4, pp. 645-658 (1964). 



3. Olsen, J.H., "Results of Trailing Vortex Studies in a Towing 

 Tank," publ. in "Aircraft Wake Turbulence and Its Detection," ed. by J.H. 

 Olsen et al., Plenum Press, New York (1971), p. 455. 



4. Moore, D.W., "A Numerical Study of the Roll Up of a Finite Vortex 

 Sheet," J. Fluid Mech., Vol. 63, Part 2 (1974). 



5. McCormick, B.W., Jr., "On Cavitation Produced by a Vortex Trailing 

 from a Lifting Surface," J. Basic Engineering, pp. 369-379 (Sep 1962) (ex- 

 tends PhD Thesis, Pennsylvania State University, 1954, to larger Reynolds 

 numbers) . 



6. Coon, J.M., "Propeller Vortex Cavitation Inception Studies," 

 David Taylor Model Basin Report 1724 (Mar 1963). 



7. Boswell, R.J., "Design, Cavitation Performance, and Open-Water 

 Performance of a Series of Research Skewed Propellers," Naval Ship Research 

 and Development Center Report 3339 (Mar 1971). 



8. Rorbe, J.B. and R.C. Moffitt, "Wind Tunnel Simulation of Full 

 Scale Vortices," National Aeronautics and Space Administration Report 

 CR-2180 (Mar 1973). 



9. Landgrebe, A.J. and E.D. Bellinger, "Experimental Investigation 

 of Model Variable-Geometry and Ogee Tip Rotors," Proc. 29th Annual National 

 Forum of the American Helicopter Society, Washington, DC, Preprint No. 703 

 (May 1973). 



10. Denny, S. , "Cavitation and Open Water Performance Tests of a 

 Series of Propellers Designed by Lifting Surface Methods," Naval Ship 

 Research and Development Center Report 2878 (Sep 1968) . 



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