Operations research Philip Morse made many contributions to the development of operations research (OR). Early in 1942 he organized the
Anti-Submarine Warfare Operations Research Group (ASWORG), later ORG, for the
U.S. Navy, after the US had entered World War II and was faced with the problem of
Nazi German U-boat attacks on
transatlantic shipping. "That Morse’s group was an important factor in winning the war is fairly obvious to everyone who knows anything about the inside of the war," wrote historian John Burchard. During
World War II, Morse emphasized that effective operational decisions required scientifically trained observers to work directly in the field, collecting and analyzing real-world data and ensuring that new technologies and tactics were adapted to actual operational conditions. Philip Morse co-authored
Methods of Operations Research, the first OR textbook in the U.S., with
George E. Kimball based on the Navy work. His further writings include the influential books
Queues, Inventories, and Maintenance and
Library Effectiveness, which applies OR in civilian situations such as library management. He received ORSA's Lanchester Prize in 1968 for the latter book. Philip Morse gave the opening address at the 1957 organizing meeting of the International Federation of Operational Research Societies (IFORS). In 1959 he chaired the first
NATO advisory panel on OR.
Physics Philip Morse had a distinguished career in
physics. Amongst his contributions to physics are the textbooks
Quantum Mechanics (with
Edward Condon),
Methods of Theoretical Physics (with
Herman Feshbach),
Vibration and Sound,
Theoretical Acoustics, and
Thermal Physics. Morse is also one of the founding editors of
Annals of Physics. In 1929, he proposed the
Morse potential function for diatomic molecules which was often used to interpret vibrational spectra, though the standard is now the more modern
Morse/Long-range potential. He co-authored the first American textbook on quantum mechanics with E.U. Condon in 1929, the same year he earned his PhD from Princeton University. He also revolutionized the study of acoustics with his book Vibration and Sound in 1936, a product of a new course on acoustics he developed as part of a "renaissance" of the MIT Physics Department. His seminal research paper on this topic, "Sound Waves in Rooms," co-authored with Richard H. Bolt, was published in the Review of Modern Physics in 1944. The paper forms the foundation of modern room acoustics used in designing orchestral halls today. Through his role as chair of MIT's Computation Committee, he was instrumental in persuading IBM to donate the IBM 704—its most powerful computer at the time—to MIT, along with funding for a dozen student fellowships in computer use. He also served as a board member of the
RAND Corporation and the
Institute for Defense Analyses. He chaired the advisory committee that supervised preparation of
Handbook of Mathematical Functions, with Formulas, Graphs, and Mathematical Tables, commonly known as
Abramowitz and Stegun. == Publications ==