作者:
SILVA, EAThe authorwas recently awarded a Ph.D. Degree in the Ocean Engineering Program
at the University of California Berkeley. He graduated from Stanford University with a Bachelor of Science Degree in Metallurgical Engineering in 1960 followed by a Master of Science Degree in Materials Science tn 1961. Dr. Silva has experience as a Materials Engineer in the aerospace industry and is an Engineering Duty Officer in the U.S. Naval Reserve. He is a member of the ASNE A1ME ASM AWS MTS SNAME and USNI.
作者:
ANdREWS, FRANK A.The author graduated from the U.S. Naval Academy in December 1941. He served aboard destroyers and submarines during World War II
and was subsequently commanding officer of USS BARRACUDA (K-1) and USS HARDER (SS 568). He was assigned in 1954 as Submarine Program Officer at the David Taylor Model Basin served as a Submarine Division Commander and became head of the Science Department at the U.S. Naval Academy in 1959. He was Commander Submarine Development Group II and headed the search operations at the site of the THRESHER disaster in 1963 and 1964. His decorations include the Silver Star Bronze Star and Navy and Marine Corps Medal. Captain Andrews received a Ph.D. degree in Physics from Yale University in 1950. He retired from the Navy in 1964 and is currently a Research Professor at Catholic University Washington D.C.
A method of fitting an autoregressive series to the EEG is described. Some results from this method of analysis relating to the statistical properties of the EEG are mentioned which show the EEG 'generators' t...
T his paper anticipates a future need for welding processes in depths to 5000 meters. Arc cutting and joining processes are found to be the most suitable for depths in excess of 1500 meters because they avoid the prob...
T his paper anticipates a future need for welding processes in depths to 5000 meters. Arc cutting and joining processes are found to be the most suitable for depths in excess of 1500 meters because they avoid the problem of gas liquification. The underwater arcs are enhanced by constricting effects produced by the deep ocean environment, and no problem with heat generation is expected. Argon or nitrogen shielded arcs are advised for deep sea work. Their use can lead to reduced power requirements, control of penetration and metal transfer rate, and a reduction in porosity and slag inclusions. The cumbersome diving dress required to offset the cold and the problem of visibility in bottom waters is expected to produce the most serious operating difficulties for the welders. Cryogenic gas transport and experimentation in the laboratory and at sea are recommended.
作者:
RANSOM, HARRY H.THE AUTHOR is the Research Associate
Defense Studies Program Graduate School of Public Administration Harvard University. He received his Bachelor of Arts degree from Vanderbilt University in 1943 and his Master of Arts and Ph.D. from Princeton University in 1949 and 1954. He has taught Political Science at Princeton Vassar College and Michigan State University. He was Assistant Professor of Political Science at the latter institution when he came to Harvard in July 1955. During 1953-54 Dr. Ransom was a “Congressional Fellow” of the American Political Science Association working on Capitol Hill as a staff member for Senators and Congressmen.
作者:
HARRISON, CHARLES W.COMMANDER CHARLES W. HARRISON
JR. USN attended the U. S. Naval Academy Preparatory School the U. S. Coast Guard Academy and the University of Virginia where in 1939 he received the S.B. degree in Engineering and in 1940 the degree of Electrical Engineer. In 1942 he was graduated with the S.M. degree in Communication Engineering from Cruft Laboratory Harvard University and that summer completed the Navy Course in Radar Engineering at Massachusetts Institute of Technology. Subsequently for several years he was engaged in lecturing to officers of the Armed Forces assigned to the radar schools at Harvard and Princeton Universities. He has had four tours of duty in the Electronics Design and Development Division Bureau of Ships two at the U.S. Naval Research Laboratoryone at the Signal Corps Engineering Laboratories (Evans Signal Laboratory)and one at the Philadelphia Naval Shipyard. His experience includes amateur
naval and broadcasting operation. In 1951 Commander Harrison was selected for training in Advanced Science at Harvard University under sponsorship of the Office of Naval Research. This program led to the M. Eng. degree in 1952 and Ph.D. degree in Applied Physics in 1954. Commander Harrison is presently Electronics Officer on the Staff of Commander Operational Development Force. He is a member of several societies and associations including the Harvard Chapter of the Society of Sigma Xi.
Summary: The measurement of the magnetic field associated with a linearly or elliptically polarized electric field, using a small loop, or magnetic probe, is discussed. It is shown that in general a loop will not meas...
作者:
ANdREWS, FRANK A.The author graduated from the U.S. Naval Academy in December 1941. He served aboard destroyers and submarines during World War II
and was subsequently commanding officer of USS BARRACUDA (K-1) and USS HARDER (SS 568). He was assigned in 1954 as Submarine Program Officer at the David Taylor Model Basin served as a Submarine Division Commander and became head of the Science Department at the U.S. Naval Academy in 1959. He was Commander Submarine Development Group II and headed the search operations at the site of the THRESHER disaster in 1963 and 1964. His decorations include the Silver Star Bronze Star and Navy and Marine Corps Medal. Captain Andrews received a Ph.D. degree in Physics from Yale University in 1950. He retired from the Navy in 1964 and is currently a Research Professor at Catholic University Washington D.C.
A three unit task group, USS HOIST, USNS MIZAR and Research Vehicle TRIESTE II, conducted tactical and technical development operations in the THRESHER loss area during the summer months 1964. A team of Naval Research...
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