Home / ESE / GATE+IES 2019 – Fluid Mechanics (FM) Detailed Syllabus – Mechanical Engineering

GATE+IES 2019 – Fluid Mechanics (FM) Detailed Syllabus – Mechanical Engineering

Engineering Services Exam+GATE 2019 Syllabus

GATE 2019 – Fluid Mechanics (FM) Official Syllabus

Fluid properties; fluid statics, manometry, buoyancy, forces on submerged bodies, stability of floating bodies; control-volume analysis of mass, momentum and energy; fluid acceleration; differential equations of continuity and momentum; Bernoulli’s equation; dimensional analysis; viscous flow of incompressible fluids, boundary layer, elementary turbulent flow, flow through pipes, head losses in pipes, bends and fittings.

ESE 2019 – Fluid Mechanics (FM) IES Official Syllabus
Fluid Mechanics: Basic Concepts and Properties of Fluids, Manometry, Fluid Statics, Buoyancy, Equations of Motion, Bernoulli’s equation and applications, Viscous flow of incompressible fluids, Laminar and Turbulent flows, Flow through pipes and head losses in pipes.
The above syllabus is just a outline given by UPSC to mechanical engineering students. From the above syllabus students may feel the syllabus is very short, but when they start there preparation they come to know that this syllabus is just the heading of chapters they are reading and it become very difficult to students to decide which topic to read and which topic to leave. So we are giving expert advice, following topics will need to be covered by students while preparing for ESE i.e engineering services exam.
ESE 2019 – Fluid Mechanics (FM) Experts Detailed Syllabus

Unit – I
Fluid and continuum, Physical properties of fluids, Rheology of fluids.
Pressure-density-height relationship, manometers, pressure transducers, pressure on plane and curved surfaces, centre of pressure, buoyancy, stability of immersed and floating bodies, fluid masses subjected to linear acceleration and uniform rotation about an axis.
Unit – II
Types of fluid flows: Continuum & free molecular flows. Steady and unsteady, uniform and non- uniform, laminar and turbulent flows, rotational and irrotational flows, compressible and incompressible flows, subsonic, sonic and supersonic flows, sub-critical, critical and supercritical flows, one, two and three dimensional flows, streamlines, continuity equation for 3D and 1D flows, circulation, stream function and velocity potential.
Dimensional analysis, Buckingham’s Pi theorem, important dimensionless numbers and their significance.
Unit – III
Potential Flow: source, sink, doublet and half-body.
Equation of motion along a streamline and its integration, Bernoulli’s equation and its applications- Pitot tube, orifice meter, venturi meter and bend meter, Hot-wire anemometer and LDA, notches and weirs, momentum equation and its application to pipe bends.
Similarity Laws: geometric, kinematics and dynamic similarity, undistorted and distorted model studies.
Unit – IV
Equation of motion for laminar flow through pipes, Stokes’ law, transition from laminar to turbulent flow, turbulent flow, types of turbulent flow, isotropic, homogeneous turbulence, scale and intensity of turbulence, measurement of turbulence, eddy viscosity, mixing length concept and velocity distribution in turbulent flow over smooth and rough surfaces, resistance to flow, minor losses, pipe in series and parallel, power transmission through a pipe, siphon, water hammer, three reservoir problems and pipe networks.
Unit – V
Boundary layer thickness, boundary layer over a flat plate, laminar boundary layer, application of momentum equation, turbulent boundary layer, laminar sub-layer, separation and its control, Drag and lift, drag on a sphere, a a two dimensional cylinder, and an aerofoil, Magnus effect. Introduction to compressible flow.

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  1. Thanks sir

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