Lunde, J. K. 



1. On the linearized theory of wave resistance of displacement ships in steady and 

 accelerated motion. Trans. SNAME 59 (1951), 24-76; discussion 76-85. 



2. B0lgemotstandens lineaere teori og dens anvendelse pa skipsformete legemer i beve- 

 gelse pa dypt. smult vann. Norges Tekniske H0gskole, Trondheim, Skipsmodelltankens 

 Meddelelse Nr. 23 (1953), 124 pp. (An English translation will be published shortly 

 as an SNAME Technical and Research Bulletin.) 



3. A note on the linearized theory of wave resistance for accelerated motion. Memoires 

 sur la mecanique des fiuides offerts a M. D. P. Riabouchinsky, pp. 219-232. Publ. 

 Sci. Tech. Ministere de 1" Air, Paris, 1954. 



Michell, J. H. 



1. The wave resistance of a ship. Phil. Mag. (5) 45 (1898), 106-123. 



Okabe, Jun-ichi, and Jinnaka. Tatsuo. 



1. On the waves of ships. Rep. Res. Inst. Fluid Engrg. Kyushu Univ. 7, No. 1 (1950), 

 46-76. 



Pavlenko, G. E. 



1. The ship of least resistance. Trudy Vsesoyuz. Nauch. Inzhen.-Tekhn. Obshch. Sudo- 

 stroen. 2, No. 3 (1937), 28-62. 

 Sekerzh-Zen'kovich, Ya. I. 



1. On the theory of standing waves of finite amplitude on the surface of a heavy fluid. 

 Dokl. Akad. Nauk SSSR (N.S.) 58 (1947), 551-553. 



Shearer, John R. 



1. A preliminary investigation of the discrepancies between the calculated and measured 

 wavemaking of hull forms. Trans. NECIES 67 (1951), 43-68. 

 Sretenskii, L. N. 



1. Sur un probleme de minimum dans la theorie du navire. C. R. (Dokl.) Acad. Sci. 

 URSS (N.S.) 3 (1935), 247-248. 



2. On the wave-making resistance of a ship moving along in a canal. Phil. Mag. (7) 

 22 (1936), 1005-1013. 



3. A theoretical investigation on wave resistance. Trudy Tsentral. Aero-Gidrodinam. 

 Inst., vyp. 319 (1937), 56 pp. 



4. On the theory of wave resistance. Trudy Tsentral. Aero-Gidrodinam. Inst., vyp. 458 

 (1939), 28 pp. 



Stoker, J. J.; and Peters, A. S. 



1. The motion of a ship, as a floating rigid body, in a seaway. Institute of Mathemati- 

 cal Sciences, New York Univ., Rep. IMM-NYU 203 (1954), 68 pp. 



Timman, R.; and Vossers, G. 



1. The linearized velocity potential round a Michell-ship. Technische Hogeschool, 

 Laboratorium voor Scheepsbouwkunde, Delft, Rapport 1 (1953), 30 pp. 



2. On the Michell's expression for the velocity potential of the flow around a ship. 

 Intern. Shipbldg. Progr. 2, No. 6 (1955), 96-102. 



Tulin, Marshall P. 



1. The separation of viscous drag and wave drag by means of the wake survey. TMB 

 Rpt. 772 (1951), 6 pp. 



Weinblum, Georg. 



1. Schiffe geringsten Widerstands. Proc. Third lnternat. Congr. Appl. Mech., Stockholm, 

 1930, pp. 449-458. 



2. Anwendungen der Michellschen Widerstandstheorie. JSTG 31 (1930), 389-436; 

 Erorterung, 436-440. 



3. Schiffsform und Wellenwiderstand. JSTG 33 (1932), 419-451. 



4. Untersuchungen fiber den Wellenwiderstand volliger Schiffsformen. JSTG 35 (1934), 

 165-192. 



5. Widerstandsuntersuchungen an Schiffen. Z. angew. Math. Mech. 15 (1935), 382-284. 



132 



