Course Information

Course Name	Turkish	İleri Akışkanlar Mekaniği
	English	Advanced Fluid Mechanics
Course Code	MAK 4029E	Credit	Lecture (hour/week)	Recitation (hour/week)	Laboratory (hour/week)
Semester	8	3	-	-	-
Course Language		English
Course Coordinator		İlyas Bedii Özdemir
Course Objectives		To introduce; - basic concepts of fluid flows and their classifications, - methods of analyses of fluid flows, - description of well-established and known approaches and theories and their scope.
Course Description		Basic Definitions and Constitutive relation. Conservation of mass, momentum and energy (Integral & Differential Forms). Flow kinematics (Pathlines, streamlines, streaklines, circulation and vorticity lines). Kelvin’s theorem. Bernouille equation, Crocco’s theorem. Vorticity equation. Some exact solutions of Incompressible viscous flows: Couette, Poiseuille, Stokes, Stagnation point flows, Creeping (Low-Re) flows, Boundary-layer approximation, Jets and Wake flows.
Course Outcomes		- To develop skills and basic knowledge, - to model flow physics, - to analyze fluid flow, - solve relevant problems, - design flow systems, - use of CFD in real engineering problems.
Pre-requisite(s)
Required Facilities
Other
Textbook
Other References		- B. R. Munson, D. F. Young, T. H. Okiishi & W. W. Huebsch, Fundamentals of Fluid Mechanics, John Willey, 2010. . D. J. Tritton, Physical Fluid Dynamics, Oxford Sci. Pub., 1988. · R. H. Sabersky, A. J. Acosta & E. G. Hauptmann, Fluid Flow: A First Couse Fluid Mechanics, The Macmillan Co., 1971. · R. H. F. Pao, Fluid Mechanics, John Willey, 1965.

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