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propagation of inertial waves and the flow-control exercised by boundary layers. In particular, the paper on spin-up, with L.N. Howard, is among the most often cited in the literature. His research monograph on this subject, continues to stimulate research and to support scientific and technological applications.
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Scientific interests and industrial experience was synthesized in a patent for a centrifuge that separates, sorts and fractionates different particle species of a mixture in a truly continuous manner by means of an internal cascade of particle/flow diversions. He successfully constructed a patented
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In 1962, motivated by a technological difficulty with a fluid gyroscope, Greenspan initiated an inquiry of rotating fluids. The result of which, was a complete and compact theory, supported by simple yet profound experiments. These experiments demonstrated counter-intuitive results regarding
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Greenspan's academic career began with an investigation of waves on beaches (with G. F. Carrier). The result of this investigation, a now classical exact solution of the nonlinear theory, established conditions for the breaking of waves and as such remains a key element of tsunami research.
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To assist cancer researchers, Dr. Greenspan formulated a theory of tissue fluid dynamics to explain the growth, form, and function of tumor nodules.
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to describe the structure and role of the complex boundary layers, and the upstream precursor caused by the propagation of
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Greenspsn, H. P. and Howard, L. N. 1963 On a time dependent motion of a rotating fluid J. Fluid Mech. 17, pp 385–404.
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Greenspan, H. P. 1972 Models for the growth of a solid tumor by diffusion Stud. Appl. Math. 51, 317–340
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Greenspan, H. P. "The theory of rotating fluids" Cambridge
University Press. Cambridge, England (1968).
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His study of the interaction of fluids and electromagnetism, was among the earliest in the field of
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prototype of an industrial machine at MIT that demonstrated the feasibility of the basic concept.
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in 1953. He earned his master's degree in 1954 and his Ph.D. in 1956, under supervision of
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