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Herman Feshbach (2 February 1917 – 22 December 2000) was an American physicist. He was an Institute Professor Emeritus of physics at MIT . Feshbach is best known for Feshbach resonance and for writing, with Philip M. Morse , Methods of Theoretical Physics .
Morse PM, Feshbach H (1953). Methods of Theoretical Physics, Part I. New York: McGraw-Hill. p. 664. ISBN 0-07-043316-X. LCCN 52011515. Margenau H, Murphy GM (1956). The Mathematics of Physics and Chemistry. New York: D. van Nostrand. pp. 184–185. LCCN 55010911. Korn GA, Korn TM (1961). Mathematical Handbook for Scientists and Engineers.
Morse PM, Feshbach H (1953). Methods of Theoretical Physics, Parts I and II. New York: McGraw-Hill. pp. 665–666, 1298–1301. Korn GA, Korn TM (1961).
Kaiser Jeep resulted from the 1953 merger of Kaiser Motors, an independent passenger car maker based in Willow Run, Michigan, with the Toledo, Ohio-based Willys-Overland Company. Willys-Overland had been at one point before World War II the U.S.'s second-largest car-maker after Ford , but their fortunes waned during the 1930s.
Prolate spheroidal coordinates μ and ν for a = 1.The lines of equal values of μ and ν are shown on the xz-plane, i.e. for φ = 0.The surfaces of constant μ and ν are obtained by rotation about the z-axis, so that the diagram is valid for any plane containing the z-axis: i.e. for any φ.
Philip McCord Morse (August 6, 1903 – 5 September 1985), was an American physicist, administrator and pioneer of operations research (OR) in World War II. [1] He is considered to be the father of operations research in the U.S.
The first Civilian Jeep put into production by Willys, marketed as the "Universal Jeep". 212,402 units were produced. CJ-3A (1949–1953) A refined CJ-2A, the CJ-3A featured a redesigned one-piece windshield with air vents below the glass. 131,843 units were produced. Derived from it was the first post-war military jeep: the M38. CJ-3B (1953 ...
Figure 2: Plot of the oblate spheroidal coordinates μ and ν in the x-z plane, where φ is zero and a equals one. The curves of constant μ form red ellipses, whereas those of constant ν form cyan half-hyperbolae in this plane.