After giving a brief review of the fundamental equations of fluid flow, we use the method of "analysis" to unravel the physical content of these equations. In this course we follow a complementary approach. The subject was then developed by a method of "synthesis" by systematically applying Newton's laws to fluid elements culminating in the fundamental equations of fluid flow - the Euler system of equations (if the fluid is inviscid) or the Navier-Stokes equations in the case of viscous flows. In ME 241 (a prerequisite for this course) the concept of a fluid and its properties was introduced. Most undergraduates take it during their junior year. ME undergraduates are required to take either Thermodynamics II (ME 370) or this course as a part of the required 11 courses in mechanical engineering. ME 373 is the second course in fluid mechanics for undergraduates. As we travel through this "landscape," theoretical principles are applied to a wide variety of practical problems. These areas are laid out as broad swaths of contiguous "territories": viscous flows, inviscid flows, "almost" inviscid flows (boundary layer theory), compressible flows, and so on. Unlike ME 241, where the subject of fluid mechanics was developed by "synthesis" starting from elementary ideas on the nature of fluids, this course takes as its starting point the fundamental equations of fluid flow and proceeds by way of "analysis" to explore its myriad consequences and applications. This course essentially picks up where ME 241 leaves off. ME undergraduates are required to take either Thermodynamics II (ME 370) or this course as a part of the mechanical engineering curriculum. News & Events CollapseNews & Events SubmenuĬourse DescriptionsMECH_ENG 373: Engineering Fluid Mechanics VIEW ALL COURSE TIMES AND SESSIONS PrerequisitesME 241 Description.Areas of Research CollapseAreas of Research Submenu.Student Resources CollapseStudent Resources Submenu.Prospective Master's Students CollapseProspective Master's Students Submenu.Prospective PhD Students CollapseProspective PhD Students Submenu.Graduate Study CollapseGraduate Study Submenu.Student Organizations CollapseStudent Organizations Submenu.Honors, Electives, and Certificate Programs. BS Curriculum CollapseBS Curriculum Submenu.Prospective Undergraduates CollapseProspective Undergraduates Submenu. Undergraduate Study CollapseUndergraduate Study Submenu.The Major Field Advisors for each research area are listed here. All are equipped with data acquisition and processing systems. The instrumentation includes numerous lasers for PIV, LDV and flow visualization, hot wire anemometers, pressure transducers, strain gauge balances, and various motion systems. Our experimental facilities are equipped with a low speed wind tunnel, a ship-model towing basin, a hydraulically driven wave tank, and apparatus for vascular flows, rotating flows, channel flows, jet flows, grid turbulence. Topics of current study include suspension mechanics, dynamics of phase changes (in engineering and in geophysical flows), earth mantle dynamics, interfacial phenomena, non-Newtonian fluid mechanics, biofluid mechanics, vascular flows, chaotic mixing and transport of scalars, bubble dynamics, flow in curved pipes, environmental fluid dynamics, external aerodynamics, unsteady aerodynamics, bluff-body aerodynamics, vortex dynamics and breakdown, aircraft wake vortices, vortex merger, vortex instabilities, rotating flows, stability and transition, chaos, grid turbulence, shear turbulence, turbulence modeling, shock dynamics, sonoluminescence, sonochemistry, reacting flows, planetary atmospheres, ship waves, internal waves, and nonlinear wave-vorticity interaction. Research activities span the Reynolds number range from creeping flows to planetary phenomena. In addition, the group strives to provide graduates with a firm foundation in analytical, computational and experimental essentials of fluid dynamics. The program prepares graduate students for careers in industry and academia.Īt the graduate level, all students must complete a one-year course in fluid dynamics before specializing in particular areas. Training in the Fluid Mechanics group provides students with an understanding of the fundamentals of fluid flow. Sexual Violence & Sexual Harassment Prevention.
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