# Download Fundamentals of Fluid Mechanics - GET205 Past Question PDF

You will find Fundamentals of Fluid Mechanics past question PDF which can be downloaded for FREE on this page. Fundamentals of Fluid Mechanics is useful when preparing for GET205 course exams.

Fundamentals of Fluid Mechanics past question for the year 2021 examines 200-level Engineering students of AFIT, offering GET205 course on their knowledge of Fluid Mechanics, Fluids, Bernoulli's equation, Pascal's principle, flow rate, Darcy-Weisbach formula, Dimensional analysis, Model analysis, Hydraulic machines

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## Past Questions related to Fundamentals of Fluid Mechanics

Year: 2020

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: PTE411

Topics: Polymer rheology, Newtonian fluid, pseudolastric liquids, dilatant fluid, Bingham fluid, casson fluid, rheopectic fluid, thixotropic fluid, stress relaxation, creep deformation, polymer rheology, time-independent fluids, pseudoplastic fluid, Casson fluid, Ostwald-de Waele equation, Maxwell model, Maxwell element, cone-and-plate viscometer, creep formation, rheometers, rheological equation, fluid viscosity, volumetric flow rate

Year: 2018

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: ENG310

Topics: fluid velocity, velocity potential, dimensional analysis, hydraulic power plant, pelton wheel, hydraulic, mach number, mach angle, gross head, net head, hydraulic efficiency, shock-wave, vortex, Fronde's number, Reynolds number

Year: 2020

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: ENG309

Topics: Bernoulli's Equation, Euler's Equation, Boundary Conditions, No-slip Condition, Lagrangian Method, Flow types, Fluid mechanics

Year: 2019

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: PET302

Topics: Drilling fluids technology, drilling mud, drilling fluid controls, mud weight, chemical analysis, Drilling overbalance pressure, drilling fluids classification, equivalent circulating density

Year: 2019

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: ENG309

Topics: Bernoulli equation, Euler equation, laminar flow, turbulent flow, velocity, hagen-poiseuille, grade line, field, pressure centre, manometer

Year: 2017

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: ENG309

Topics: Bernoulli equation, vectorial diagram, darley-weibach formula

Year: 2015

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: ENG309

Topics: pressure, free surface, Reynolds number, bulk modulus, turbulent flow, steady flow, cavitation, shear, orfice, kinetic energy, potential flow, incompressibility of fluid

Year: 2018

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: CIE206

Topics: pressure, static fluid, surface tension, viscosity, manometer, piezometer, laminar flow, turbulent flow

Year: 2020

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: CIE311

Topics: hydraulics, open channel, trapezoidal channel, specific energy curve, subcritical flow, supercritical flow, critical depth, Froud number, Chezy constant, Hydraulic jump, dimensional analysis

Year: 2020

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: PET517

Topics: Pipe Multiple phase flow, multiphase heat transfer, stratified flow, Taylor bubbles, slug-free flow, Taitel-Dukler flow regime models, boiling, condensation, evaporation, fluid transportation, Boiling regimes, natural convection boiling, nucleate boiling, transition boiling, film boiling, total pressure drop equation

Year: 2019

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: CIE311

Topics: channel, hydraulic, open channel flow, critical depth, critical velocity, specific energy, downstream, dimensional analysis

Year: 2020

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: BRE331

Topics: Fluids, ideal fluid, pseudo plastic fluid, dilatant fluid, specific gravity, viscosity, moisture content, biomaterials, terminal velocity, drag coefficient

Year: 2018

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: WRE510

Topics: hydraulic structures, clam site, principal spillway, reservoir, seepeage, dredging, foundation, dam, flooding, drainage, gravity dam, river training, siphon, siphon spillway, river training, manning's formula, Kaplan turbine

Year: 2019

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: PET301

Topics: Drilling Engineering, power system, hoisting system, circulation system.drilling fluids, drilling hydraulics, fluid, well control, monitoring program, formation pore, fractures pressure estimation, drillstring design, casing design, cementing, cost analysis, well completion

### Books related to Fundamentals of Fluid Mechanics

Author: RK bansal

School: Covenant University

Department: Engineering

Course Code: CVE332

Topics: Fluid Mechanics, hydraulic machines, viscosity, compressibility, bulk modulus, surface tension, capillarity, vapor pressure, cavitation, Pascal's law, manometers, Piezometer, differential manometer, isothermal process, buoyancy, flotation, meta-center, fluid flow, continuity equation, velocity, acceleration, velocity potential function, stream function, equipotential line, Vortex flow, ideal flow, potential flow, momentum equation, free liquid jets, orifices, mouthpieces, notches, weirs, viscous flow, turbulent flow, Reynolds experiment, dimensional homogeneity, model analysis, dimensionless numbers, Boundary layer flow, compressible flow, Mach number, Jet propulsion, hydraulic machines, turbines, Pelton wheel, Radial flow reaction turbines, Francis turbine, axial flow reaction turbine, Draft tube, specific speed, unit quantities, centrifugal pumps, cavitation, maximum suction lift, net positive suction head, reciprocating pumps, air vessels, fluid system, hydraulic press, hydraulic accumulator, hydraulic intensifier, hydraulic ram, hydraulic lift, hydraulic crane, hydraulic coupling, hydraulic torque converter, air lift pump, gear-wheel pump

Author: Mahesh kumar

School: Chukwuemeka Odumegwu Ojukwu University

Department: Engineering

Course Code: ENG232

Topics: fluid pressure, hydrostatic forces, submerged surfaces, buoyancy, floatation, fluid kinematics, fluid dynamics, vortex flow, potential flow, ideal fluid flow, laminar flow, viscous flow, boundary layer theory, compressible flow, model similitude, free jets, fluid machines, pelton turbine, impulse turbine, francis turbine, radial flow reaction turbines, propeller, kaplan turbine, axial flow reaction turbines, hydraulic turbines, centrifugal pumps, reciprocation pumps, hydraulic systems, fluid continuum, fluid properties, specific weight, weight density, viscosity, perfect gas law, isobaric process, adiabatic process, surface tension, capillarity, capillary effect, vapour pressure, cavitation, pascal's law, hydrostatic law, Bouyant force, centre of buoyancy, archimedes principle, metacentre, metacentric height, cauchy-reimann equations, Euler's equation, Bernoulli's equation, continuity equation, orfices, hydraulic coefficients, uniform flow, source flow, sink flow, free vortex flow, notches, weirs, francis formula, bazin formula, rehbock formula, cipolletti weir, reynolds experiment, Navier-stoke equation, efflux viscometer, ogee weir, boundary layers, stagnation pressure, stagnation density, stagnation temperature, specific energy curve, critical depth, critical velocity, sub-critical flow, hydraulic jump, francis turbine, velocity triangle, draft tube, rotodynamic turbine

Author: Warren McCabe, Julian Smith, Peter Harriott

School: Institute of Management Technology

Department: Engineering

Course Code: CHE303

Topics: Fluid Mechanics, Fluid-Flow Phenomena, Equations of Fluid Flow, Flow of Incompressible Fluids, Flow of Compressible Fluids, Flow past immersed bodies, Transportation of fluids, Metering of fluids, Agitation of liquids, mixing of liquids, Heat transfer, heat flow in fluids, Heat transfer to fluids without phase change, Heat transfer to fluids with phase change, Radiation heat transfer, Heat exchange equipment, Evaporation, Equilibrium stage operations, Distillation, multicomponent distillation, Leaching, Extraction, Diffusion, Mass Transfer between Phases, Gas Absorption, Humidification Operations, Drying of Solids, Adsorption, Membrane Separation Processes, Crystallization, Properties of Particulate Solids, Handling of Particulate Solids, Mixing of Particulate Solids, Mechanical Separations

Author: IO Arukalam

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: ENG309

Topics: fluid resistance, Reynolds number, newtonian and non-newtonian fluid flow, laminar flow analysis, turbulent flow analysis, Newtonian fluids, non-newtonian fluids, fluid resistance, fluid resistance equation, laminar flow, turbulent flow, Reynolds number, unsteady fluid flow

Author: zoeb husain, zulkifly abdullah, zainal alimuddin

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: ENG309

Topics: Fluid flow, Thermal power stations, Hydro power stations, fluid machinery, pelton turbine, Francis turbine, Propeller Turbines, Kaplan Turbines, Turbo Pumps

Author: RK Rajput

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: ENG309

Topics: Properties of fluid, pressure measurement, Hydrostatic forces on surfaces, Buoyancy, flotation, Fluid Kinematics, Fluid Dynamics, Dimension analysis, model analysis, Flow through orfices, flow through Mouthpieces, Flow Over notches, Flow Over weirs, laminar flow, turbulent flow

Author: Philip pritchard, John Leylegian

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: ENG309, ENG310

Topics: Fluid Statics, Basic Equations in Integral Form for a Control Volume, Angular-Momentum Principle, Differential Analysis of Fluid Motion, Incompressible Inviscid Flow, Dimensional Analysis, Similitude, Internal Incompressible Viscous Flow, External Incompressible Viscous Flow, fluid machinery, flow in open channels, compressible flow, fluid property data

Author: Philip Gerhart, Andrew Gerhart, John Hochstein

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: ENG309, ENG310

Topics: fluid statics, fluid dynamics, bernoulli equation, fluid kinematics, finite control volume analysis, dimensional analysis, similitude, modeling, flow over immersed bodies, viscous flow in pipes, open-channel flow, compressible flow, turbomachines

Author: ABE FUNAAB

School: Federal University of Agriculture, Abeokuta

Department: Engineering

Course Code: ABE106

Topics: Fluid mechanics, fluid statics, fluid flow, fluid properties, pascal law, Newtonian fluid, non-Newtonian fluid

Author: Slobodan Vukosavic

School: University of Ilorin

Department: Engineering

Course Code: ELE361, ELE771, MEE406, EEE361, EEE362

Topics: Electromechanical Energy, Magnetic Coupling Field, Electrical Coupling Field, magnetic circuit, rotating electrical machines, modelling electrical machines, single-fed converters, double-fed converters, electromotive forces, energy, flux, torque, DC machines, induction machines, variable speed induction machines, synchronous machines, steady-state operation, variable frequency synchronous machines

Author: Nayef Ghasem, Redhouane Henda

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: CHE202

Topics: Chemical Engineering Processes, Material Balance, Energy Balance, temperature measurement, temperature conversion, dimensional homogeneity, dimensionless quantities, process flow sheet, process unit, process streams, mass flow rates, volumetric rates, moles, molecular weight, stream composition, mass fraction, mole fraction, concentration, pressure measurement, pressure-sensing devices, process units, degrees of freedom analysis, process flow diagram, multiunit process flow diagram, mass balance, Stoichiometric Equation, Stoichiometric Coefficients, Stoichiometric Ratio, Limiting Reactant, Excess Reactants, Combustion Reactions, Chemical Equilibrium, Multiple-Unit Process Flowcharts, Single-Phase Systems, Multiphase Systems, Ideal Gas Equation of State, liquid density, solid density, gas density, Real Gas Relationships, Compressibility Factor, Virial Equation of State, van der Waals Equation of State, Soave–Redlich–Kwong Equation of State, Kay’s Mixing Rules, phase diagram, Vapor–Liquid Equilibrium Curve, Vapor Pressure Estimation, Clapeyron Equation, Clausius–Clapeyron Equation, Cox Chart, Antoine Equation, Partial Pressure, Dalton’s Law of Partial Pressures, Gibbs’ Phase Rule, Bubble Point, Dew Point, Critical Point, Kinetic Energy, Potential Energy, energy balance, steam turbine, heaters, coolers, compressors, Mechanical Energy Balance, Enthalpy Calculations, Constant Heat Capacity, Psychrometric Chart, Heat of Reaction, Heats of Formation, Heat of Combustion, Heat of Reaction Method, Unsteady-State Material Balance, Unsteady-State Energy Balance

Author: unknown

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: ENG309

Topics: statics and fluid systems, pressure in static fluids, manometery, forces on plane and convened surfaces, buoyancy and flotation, fluid resistance, unsteady flow in conduit, surge control

Author: Levi

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: ENG309

Topics: Definition of fluid and fluid and properties, Static and Fluid system, Pressure in a static fluid, manometry, forces on plane and curved surfaces, types of flows, Hydrolics and pipe flows, pressure concept

Author: KA Gavhane

School: Ahmadu Bello University, Zaria

Department: Engineering

Course Code: CHEN403

Topics: Size Reduction, Screening Operation, Filtration, Vacuum Filters, Centrifugal Filtration, Mixing, Fluids, Bernoulli Equation, Newtonian Fluids, Friction Factor Chart, Friction Losses, Centrifugal Pumps, Unit Operation, Unit Operation, Fluid flow, mechanical operations

Author: Wolfgang Demtröder

School: University of Nigeria, Nsukka

Department: Engineering

Course Code: MEC261

Topics: Mechanics of point mass, moving coordinate system, special relativity, systems of point masses, collisions, dynamics of rigid bodies, rigid body, real solid, liquid bodies, static liquids, gases, kinetic gas theory, fluid dynamics, Euler equation, continuity equation, Bernoulli equation, vacuum physics, laminar flow, navier-strokes equation, aerodynamics, reynold's number, thermodynamics, heat transport, mechanical oscillations, mechanical waves, forced oscillations, superposition of waves, standing waves, nonlinear dynamics, acoustics, nonlinear chaos, vector algebra, vector analysis, coordinate systems, complex numbers

Author: AA Faremi

School: Federal University, Oye-Ekiti

Department: Science and Technology

Course Code: PHY103

Topics: Hydrodynamics, Compressible fluid flow, Incompressible fluid flow, isothermal flow, fluid dynamics, fluid flow, flow rate, Bernoulli’s principle, Bernoulli’s equation, Continuity equation

Author: Ronald Terry, Brandon Rogers

School: University of Port Harcourt

Department: Engineering

Course Code: PNG307

Topics: peak oil, rock properties, isothermal compressibilty, gas law, specific gravity, material balance equation, Havlena method, odeh method, single-phase reservoirs, gas reservoir, gas-condensate reservoir, lean gas cycling, water drive, oil reservoir fluid, Kelly-Snyder field, canyon reef reservoir, Gloyd-mitchell zone, Rodessa field, water compressibility, saturated oil reservoir, gas liberation technique, volatile oil reservoir, Darcy's law, permeability, steady-state flow, linear flow, radial flow, transient flow, pseudosteady-state flow, productivity ratio, superposition, drawdown testing, skin factor, buildup testing, water influx, steady-state model, unsteady-state model, Van Everdingen drive model, Hurst Edgewater drive model, bottomwater drive, recovery efficiency, microscopic displacement efficiency, relative permeability, macroscopic displacement efficiency, immiscible displacement process, Buckley-leverett displacement, Oil recovery

Author: Maliki

School: Edo University

Department: Science and Technology

Course Code: CHM111

Topics: atomic theory, atoms, Joseph John Thomson atomic model, cathode ray tube, Plum-pudding model, electromagnetic spectrum, subatomic particles, atomic number, mass number, relative atomic mass, mass spectrometer, mass spectra, isotopes, periodic law, transition element, Ionizations energy, electronegativity, atomic radius, ionic radius, electronic configuration, wave mechanical model, quantum numbers, electronic configuration of elements, Heisenberg uncertainty principle, Pauli's exclusion principle, Hund's rule, Aufbau‟s principle, atomic model hybridization, chemical symbols, chemical formula, molecular formula, structural formula, chemical equations, stoichiometry, mole concept, Avogadro's number, gram formula mass, gas laws, Boyle's law, Charles law, general gas equation, standard temperature and pressure, electrochemistry, cell notation, Standard Electrode Potentials, electrochemical, Daniel cell, cell potential electrolysis, reduction reaction, oxidation reaction, oxidation number, REDOX equation, chemical equilibrium, Lechatelier's Principle, solution chemistry, solubility, Raoult's law, nuclear reaction, radioactivity, Alpha rays, Beta rays, Gamma rays, natural radioactive decay series, thorium series, uranium series, actinium series, neptunium series

Author: John Spivey, John Lee

School: Abubakar Tafawa Balewa University, Bauchi

Department: Engineering

Course Code: PEE513

Topics: Well Test Interpretation, well test, wellbore storage, Radial Flow Semilog Analysis, Log-Log Type Curve Analysis, Pressure Transient Testing, gas flow equation, flow regimes, diagnostic plot, bounded reservoir behavior, Variable Flow Rate, flow rate, wellbore phenomena, Near-Wellbore Phenomena, Well Test Interpretation Workflow, Well Test Design Workflow

Author: RK Rajput

School: Federal University of Technology, Owerri

Department: Engineering

Course Code: MCE202

Topics: Mechatronics, control systems, microcontroller, electronic devices, semiconductor, diode, transistor, digital electronics, sensors, transducers, strain gauges, load cells, proximity sensors, light sensors, digital optical encoder, signal conditioning, amplification, amplifier, optical amplifier, data acquisition, analog-to-digital converter, digital-to-analog converter, digital signal transmission, microprocessors, microprocessor systems, Intel 8085 microprocessor, system models, mechanical system building blocks, electrical system building blocks, fluid system building blocks, thermal system building blocks, controllers, PID controllers, digital controllers, adaptive control system, programmable logic controllers, actuators, mechanical actuators, electrical actuators, DC motors, single phase motors, three phase induction motors, synchronous motors, hydraulic actuators, pumps, pressure regulator, hydraulic valves, linear actuators, rotary actuators, pneumatic actuators, mechatronic systems, embedded systems, CNC machines, CAD, CAM, Machine structure, drives, spindle, spindle bearings, swarf removal

### Tests related to Fundamentals of Fluid Mechanics

School: WAEC, JAMB & POST UTME

Department:

Course Code: JAMB

Topics: Physics, JAMB, Friction, work, force, motion, speed, velocity, energy, hydraulic press, relative density, hydrometer, gas law, sound wave, wave, light, mirror,capacitor, electricity, pressure