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  • Course Content
    • Week Topics Study Metarials
    1 Introduction: Definition of fluid, Scope of fluid mechanics in engineering, Dimensions and units, Properties of fluid R1, Chapter 1, pp. (2-33) R2, Chapter 1
    2 Basic Concepts: Definition of continuum, Viscosity, Fluid types, Vapor pressure and cavitations R1, Chapter 2, pp. (38-63) R2, Chapter 2
    3 Pressure and Fluid Static: Pressure and pressure gradient, Hydrostatic pressure distribution, Manometers R1, Chapter 3, pp. (76-89) R2, Chapter 3
    4 Pressure and Fluid Static: Hydrostatic forces acting on immersed plane surfaces, Hydrostatic forces acting on immersed bodies R1, Chapter 3, pp. (89-95) R2, Chapter 3
    5 Pressure and Fluid Static: Flotation and stability, Pressure distribution in rigid body motion R1, Chapter 3, pp. (95-112) R2, Chapter 3
    6 Fluid Kınematics: Basic conservation equations for a system: Mass, momentum and energy conservation equations, Reynolds transport theorem, Definition of streamline function R1, Chapter 4, pp. (134-170) R2, Chapter 4
    7 Continuity and Bernoulli Equations - I R1, Chapter 5, pp. (186-199) R2, Chapter 5
    8 Continuity and Bernoulli Equations - II R1, Chapter 5, pp. (199-230) R2, Chapter 5
    9 Momentum Theorem: Momentum Analysis Of Flow Systems R1, Chapter 6, pp. (244-275) R2, Chapter 6
    10 Dimensional Analysis And Similarity: Basic principles, Pi theorem, Non-dimensionlisation R1, Chapter 7, pp. (275-327) R2, Chapter 7
    11 Frictional Pipe Flow: Reynolds number, Velocity and pressure distribution, Calculation of friction and local losses in laminar and turbulent flows R1, Chapter 8, pp. (347-374) R2, Chapter 8
    12 Frictional Pipe Flow: Parallel-serial pipeline systems, Flow in non-circular pipes. Flow rate and velocity measurements R1, Chapter 8, pp. (374-408) R2, Chapter 8
    13 External Flow: Boundary layer equations, Drag and lifting forces R1, Chapter 11, pp. (608-630) R2, Chapter 9
    14 External flows over common geometries R1, Chapter 12, pp. (660-702) R2, Chapter 10
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