3. Flavio B. Reis, Studies of Correlation and Spectra in Homogeneous Turbulence, Doctoral 



Dissertation, Department of Mathematics, M.I.T., 1952. 



4. J. M. Burgers and M. Mitchner, On Homogeneous Non-Isotropic Turbulence Connected 



with a Mean Motion Having a Constant Velocity Gradient, Proc. Kon. Ned. Akad. 

 van. Wet. B, 56 (3) and 56 (4), 1953. 



5. J. Laufer, Investigation of Turbulent Flow in a Two-Dimensional Channel, N.A.C.A. 



T.N. 2123, July, 1950. 



6. P. S. Klebanoff and G. B. Schubauer, Investigation of Separation of the Turbulent Boun- 



dary Layer, N.A.C.A. T.N. 2133, August, 1950. 



7. P. S. Klebanoff, Characteristics of Turbulence in a Boundary Layer with Zero Pressure 



Gradient, N.A.C.A. T.N. 3178, July, 1954. 



8. S. Corrsin, Investigation of Flow in an Axially Symmetrical Heated Jet of Air, N.A.C.A. 



ACR 3L23, Dec. 1943 (reissued as Wartime Rep. W-94). 



9. S. Corrsin and A. L. Kistler, The Free Stream Boundaries of Turbulent Flows, NACA 



Tech. Note 3133, Jan. 1955. 



10. A. A. Townsend, The Uniform Distortion of Homogeneous Turbulence, Quart. Jour. 



Mech. and Appl. Math., 7(1), 1954. 



11. M. S. Uberoi, Effect of Wind-Tunnel Contraction on Free-Stream Turbulence, Jour. Aero. 



Sci. 23 (8) August, 1956. 



12. A. N. Kolmogoroff, The Local Structure of Turbulence in an Incompressible Viscous 



Fluid for Very High Reynolds Numbers, C. R. Acad. Sci. U.R.S.S. (Doklady) 30, 

 1941, pp. 301-5. 



13. See, for example, G. K. Batchelor, The Theory of Homogeneous Turbulence, Cambridge 



U. Press, 1953. 



14. S. Corrsin, On Local Isotropy in Turbulent Shear Flow, report to National Advisory Com- 



mittee for Aeronautics under contract NAw 6398, Aug., 1956. 



15. A. A. Townsend, The Fully Developed Turbulent Wake of a Circular Cylinder, Austral. 



Jour, of Sci. Res., A, 2 (4), 1949. 



16. S. Corrsin, An Experimental Verification of Local Isotropy, Jour. Aero. Sci., 16 (12), 



Dec, 1949. 



17. I. Tani and Y. Kobashi, Experimental Studies on Compound Jets, Proc. 1st Japan Nat. 



Congr. for Appl. Mech. (1951), May 1952. 



18. C. -M. Tchen, Transport Processes as Foundations of the Heisenberg and Obukhoff 



Theories of Turbulence, Phys. Rev. 93 (1), Jan. 1, 1954. 



19. See, for example, pp. 358-60 of S. Goldstein's Modern Developments in Fluid Dynamics, 



Oxford U. Press, 1938. 



20. See, for example, R. C. L. Bosworth, Heat Transfer Phenomena, J. Wiley and Sons, 



1952 (Chapt. 1). 



21. F. H. Clauser, The Turbulent Boundary Layer, Advances in Applied Mechanics, IV, 



Academic Press, 1956. 



22. G. I. Taylor, Conditions at the Surface of a Hot Body Exposed to the Wind, A. R. C. 



Rep. and Mem. #272, May, 1916. 



23. See, for example, figure 17 of J. Laufer's The Structure of Turbulence in Fully Developed 



Pipe Flow, NACA T.N. 2954, June, 1953, or see figure 22 of ref. 7. 



24. J. R. Ruetenik, Investigation of Equilibrium Flow in a Slightly Divergent Channel, Rep. 



No. 1-19, Mech. Eng'g. Dept. The Johns Hopkins Univ., Off. of Naval Res. Contract 

 Nonr 248(33), August, 1954 (figure 30). 



25. O. M. Phillips, Surface Noise from a Plane Turbulent Boundary Layer, Fluid Mot. Sub- 



Comm., Rep. F. M. 2099, Aug. 1954. 



26. H. A. Einstein and H. Li, The Viscous Sublayer Along a Smooth Boundary, Jour, of the 



Eng'g Mech. Div., Proc. Am. Soc. Civil Engineers, No. EM2, April 1956. 



27. H. W. Liepmann, On the Acoustic Radiation from Boundary Layers and Jets, GALCIT 



report submitted to NACA under contract NAw 6288, August, 1954. 



400 



