MIT RADIATION LABORATORY SERIES 1947 - 1951 PDF on DVD (28 VOLUMES)

Description: MIT Radiation Laboratory Series 1947 thru 1951 28 Volumes (Includes Index) In Adobe PDF Format on DVD Wonderful collection of WW2 Books on radar. MIT RADIATION LABORATORY SERIES 1947 - 1951 PDF on DVD (28 VOLUMES) (#380403801890) After the end of World War II, the United States government continued to pay key people who had worked at the Radiation Laboratory for six months to enable them to write about their work. From the forward of each book: The tremendous research and development effort that went into the development of radar and related techniques during World War II resulted not only in hundreds of radar sets for military (and some for possible peacetime) use but also in a great body of information and new techniques in the electronics and high-frequency fields. Because this basic material may be of great value to science and engineering, it seemed most important to publish it as soon as security permitted. However, an altruistic drive to publish the Lab's achievements in open literature was not the only impetus. As C. C. Bissell observes: The imposing 27-volume [sic] Radiation Lab Series was not only a technological statement, but also a political statement about the role the United States was to play in the post-war world that in the post-war world the United States would be the intellectual driving force of science and technology, as well as the economic and political super power. The most interesting volumes to control engineers are volumes 21 and 25. The twenty-eight volumes are: 1. Louis N. Ridenour. Radar System Engineering, volume 1 of MIT Radiation Laboratory Series. McGraw-Hill, New York, 1947. 2. John S. Hall. Radar Aids to Navigation, volume 2 of MIT Radiation Laboratory Series. McGraw-Hill, New York, 1947. 3. Arthur Roberts. Radar Beacons, volume 3 of MIT Radiation Laboratory Series. McGraw-Hill, New York, 1947. 4. J. A. Pierce, A. A. McKenzie, and R. H. Woodward. Loran, volume 4 of MIT Radiation Laboratory Series. McGraw-Hill, New York, 1948. 5. G. N. Glasoe and J. V. Lebacqz. Pulse Generators, volume 5 of MIT Radiation Laboratory Series. McGraw-Hill, New York, 1948. 6. George B. Collins. Microwave Magnetrons, volume 6 of MIT Radiation Laboratory Series. McGraw-Hill, New York, 1948. 7. Donald R. Hamilton, Julian K. Knipp, and J. B. Horner Kuper. Klystrons and Microwave Triodes, volume 7 of MIT Radiation Laboratory Series. McGraw-Hill, New York, 1948. 8. C. G. Montgomery, R. H. Dicke, and E. M. Purcell. Principles of Microwave Circuits, volume 8 of MIT Radiation Laboratory Series. McGraw-Hill, New York, 1948. 9. George L. Ragan. Microwave Transmission Circuits, volume 9 of MIT Radiation Laboratory Series. McGraw-Hill, New York, 1948. 10. N. Marcuvitz. Waveguide Handbook, volume 10 of MIT Radiation Laboratory Series. McGraw-Hill, New York, 1951. 11. Carol G. Montgomery. Technique of Microwave Measurements, volume 11 of MIT Radiation Laboratory Series. McGraw-Hill, New York, 1947. 12. Samuel Silver. Microwave Antenna Theory and Design, volume 12 of MIT Radiation Laboratory Series. McGraw-Hill, New York, 1949. 13. Donald E. Kerr. Propagation of Short Radio Waves, volume 13 of MIT Radiation Laboratory Series. McGraw-Hill, New York, 1951. 14. Louis D. Smullin and Carol G. Montgomery. Microwave Duplexers, volume 14 of MIT Radiation Laboratory Series. McGraw-Hill, New York, 1948. 15. Henry C. Torrey and Charles A. Whitmer. Crystal Rectifiers, volume 15 of MIT Radiation Laboratory Series. McGraw-Hill, New York, 1948. 16. Robert V. Pound. Microwave Mixers, volume 16 of MIT Radiation Laboratory Series. McGraw-Hill, New York, 1948. 17. John F. Blackburn. Components Handbook, volume 17 of MIT Radiation Laboratory Series. McGraw-Hill, New York, 1949. 18. George E. Valley, Jr. and Henry Wallman. Vacuum Tube Amplifiers, volume 18 of MIT Radiation Laboratory Series. McGraw-Hill, New York, 1948. 19. Britton Chance, Vernon Hughes, Edward F. MacNichol, Jr., David Sayre, and Frederic C. Williams. Waveforms, volume 19 of MIT Radiation Laboratory Series. McGraw-Hill, New York, 1949. 20. Britton Chance, Robert I. Hulsizer, Edward F. MacNichol, Jr., and Frederic C. Williams. Electronic Time Measurements, volume 20 of MIT Radiation Laboratory Series. McGraw-Hill, New York, 1949. 21. Ivan A. Greenwood, Jr., J. Vance Holdam, Jr., and Duncan MacRae, Jr. Electronic Instruments, volume 21 of MIT Radiation Laboratory Series. McGraw-Hill, New York, 1948. 22. Theodore Soller, Merle A. Star, and George E. Valley, Jr. Cathode Ray Tube Displays, volume 22 of MIT Radiation Laboratory Series. McGraw-Hill, New York, 1948. 23. S. N. Van Voorhis. Microwave Receivers, volume 23 of MIT Radiation Laboratory Series. McGraw- Hill, New York, 1948. 24. James L. Lawson and George E. Uhlenbeck. Threshold Signals, volume 24 of MIT Radiation Laboratory Series. McGraw-Hill, New York, 1950. 25. Hubert M. James, Nathaniel B. Nichols, and Ralph S. Phillips. Theory of Servomechanisms, volume 25 of MIT Radiation Laboratory Series. McGraw-Hill, New York, 1947. 26. W. M. Cady, M. B. Karelitz, and Louis A. Turner. Radar Scanners and Radomes, volume 26 of MIT Radiation Laboratory Series. McGraw-Hill, New York, 1948. 27. Antonin Svoboda. Computing Mechanisms and Linkages, volume 27 of MIT Radiation Laboratory Series. McGraw-Hill, New York, 1948. 28. Keith Henney, editor. Index, volume 28 of MIT Radiation Laboratory Series. McGraw-Hill, New York, 1953. The Radiation Laboratory, commonly called the Rad Lab, was located at the Massachusetts Institute of Technology (MIT) in Cambridge, Massachusetts (US) and functioned from October 1940 until December 31, 1945. Alfred Lee Loomis, a millionaire and physicist who headed his own private laboratory, selected the location for the laboratory on the campus, named it the MIT Radiation Laboratory, and arranged funding for the Rad Lab until federal money was allocated. It was formed by, and initially operated under, the National Defense Researc Committee (NDRC), a commission established by U.S. President Franklin D. Roosevelt with Vannevar Bush as its chairman. In 1941, the NDRC was enlarged to become the Office of Scientific Research and Development (OSRD), with Bush remaining as chairman. Lee A. DuBridge served as the Rad Lab director. This facility was responsible for developing most of the microwave radars used by the United States during World War II including the H2X radar used for bomb-aiming and the subsequent improvements to the initial H2X radar's technology. The Rad Lab also developed LORAN, the first worldwide radio navigation system, which originally was known as "LRN" for Loomis Radio Navigation, after Alfred Lee Loomis, who invented LORAN and played a crucial role in military research and development during WWII. It remained the most widely used long-range navigation system until the advent of GPS which was developed from it and became used by the public after 2000. THIS IS A DVD WITH PDF FILE(S) AS DESCRIBED. THEY ARE VIEWABLE ON YOUR COMPUTER USING ADOBE READER.

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