. Deep-sea moorings; design and use with unmanned instrument stations. Deep-sea moorings; Oceanographic buoys. Isaacs-Faughn-Schick-Sargent: Deep-Sea Moorings 305. 4000 J_ _L 60 68 76 84 92 100 108 Fig. 11. Correction (in meters) to be added to recorded depth. This is an example only, using data typical of an area in the Marshall Islands. 116 Taut-Nylon Mooring The taut-wire subsurface float mooring, heretofore described, probably will prove to be the optimum type when no surface float or only surface measurements are required. The optimum type of mooring, for the case where deep subsurface pa
. Deep-sea moorings; design and use with unmanned instrument stations. Deep-sea moorings; Oceanographic buoys. Isaacs-Faughn-Schick-Sargent: Deep-Sea Moorings 305. 4000 J_ _L 60 68 76 84 92 100 108 Fig. 11. Correction (in meters) to be added to recorded depth. This is an example only, using data typical of an area in the Marshall Islands. 116 Taut-Nylon Mooring The taut-wire subsurface float mooring, heretofore described, probably will prove to be the optimum type when no surface float or only surface measurements are required. The optimum type of mooring, for the case where deep subsurface parameters must be received at the surface, has not yet been designed. It is here. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original Isaacs, John D. (John Dove). Berkeley, University of California Press
Size: 1271px × 1966px
Photo credit: © The Book Worm / Alamy / Afripics
License: Licensed
Model Released: No
Keywords: ., bookcentury1900, bookpublisherberkeleyuniversityofcaliforniapre
