Department of Mechanical & Aerospace Engineering

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Department of Mechanical & Aerospace Engineering
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ME 121 Statics of Engineers
ME 121 Statics of Engineers Introduction to engineering mechanics, Force System: Force, rectangular components, moment, couples, resultant of forces, moments and couples (two and three dimensional systems), equilibrium: Mechanical System, isolation and equilibrium equations for two and three dimensional systems. Free body diagram, two force and three force members, structures: Plane trusses, method of joints, method of section, friction: Types of friction, application of friction, application of friction, application of static to mechanical engineering problem
ME 122 Engineering Mechanics
ME 122 Engineering Mechanics Fundamental concepts and principals of mechanics. Important vector quantities. Fundamental units. Moments and couples, wrench, resultants of force and couples. Law of equilibrium and application, free body diagram, trusses (section method and joint method) and their applications, centre of mass, centre of gravity, friction (static and dynamic) their applications and limitations. Fundamental of dynamics. Dynamics of particles and rigid body including kinematics and kinetics. Applications of Newton¿s second law of motion. Analysis of motion in two and three dimensional space. Methods of energy and momentum. Applications of dynamics to the engineering concepts. Impulse and momentum, angular impulse and angular momentum, Instantaneous centre of zero velocity, relative acceleration planar kinetics of rigid bodies
ME 123 Engineering Statics
ME 123 Engineering Statics Fundamental concepts and principles of mechanics. Important vector quantities. Fundamental units. Moments and couples, wrench, Resultants of forces and couples. Law of equilibrium and applications, Free body diagram, trusses (section method and joint method) and their applications, centre of mass, centre of gravity, friction (static and dynamic) their applications and limitations.
ME 140 Workshop Practice - I
ME 140 Workshop Practice - I Introduction to workshop technology, plant layout, safety concept and practices, Engineering Materials, Carpentry shop, types of woods, felling, conversion and seasoning of wood, defects in timber, timber preservation characteristics of a good timber, plywood and its application, Common tools used in carpentry shop (marking and measuring tools, holding and supporting tools , cutting tools), types of wood joints. Introduction to welding, soldering and brazing, gas and electric arc welding, Introduction to sheet metal work, metals used in sheet metal work, tools, folding terminology of sheet metal joint. Sheet metal operations, development of a pattern layout, machines used, types of presses. Basic training on converting technical drawings into practical workshop models and hands on practice.
ME 141 Workshop Technology
ME 141 Workshop Technology Intro to workshops of mechanical engineering, lathe, milling, drilling & Shaper machines. Types of welding, engineering materials used in workshop. Steel, Aluminium and their different alloys. Safety measures etc.
ME 142 Engineering Drawing and Graphics
ME 142 Engineering Drawing and Graphics Introduction to engineering graphics and visualization including sketching, line drawing, projections of solid surfaces, section of solids, simple frame and solid geometric modeling. Development and interpretation of drawing and specifications for product realization.
ME 143 Workshop Practice - II
ME 143 Workshop Practice - II Introduction to machining, cutting tools, measurement instruments, operations using Lathe and Milling machines, drillers, and other workshop techniques such as welding, turning and boring. Basic training on converting technical drawings into practical workshop models and hands on practice on production of small machine components. Familiarization with drawing, casting and forging, assembly/disassembly of basic mechanical components. Some aspects of engineering practice and safety are also covered.
ME 144 Engineering Drawing and Graphics/CAD
ME 144 Engineering Drawing and Graphics/CAD Introduction to constructive geometric modelling and use of various modelling software such as AutoCAD and Pro-Engineer. Understanding graphical user interface, drawing commands, modifying commands, developing a sketch in AutoCAD. Drawing orthographic projections, dimensioning, using drawing templates. Introduction to the concept of 3d modeling, Constructive solid geometry, B Rep, NURB modeling etc. Demonstration in different soft wares.
ME 201 Engineering Materials
ME 201 Engineering Materials This introductory level course gives an introduction to materials and composites used in engineering applications. Topics include: structure of metals, metals and alloy systems, material forms and designation, non metals, polymers, ceramics, composite materials. The course also covers deformation mechanisms and material failure analysis
ME 202 Mechanics of Materials-I
ME 202 Mechanics of Materials-I Concepts regarding Stress and Strain at a point. Mechanical properties of materials; Elastic constants Young¿s modulus, modulus of rigidity, Poisson¿s ratio and their relationships; Tensile, compressive and shear stresses and strains; Hooke¿s law and elasticity, Axially loaded members in structures; Statically indeterminate structure; Thermal effects; Strain energy; Torsional deformation and stresses of circular bars; Statically indeterminate torsional members; Transmission of power by circular shafts; Strain energy in torsion; Shear force and bending moments; Shear force and bending moment diagrams; Stresses in beams; Pure bending; Normal and shear stresses in beams of linearly elastic materials. Shear center of beams, shear flow in thin wall cross-sections.
ME 203 Mechanics of Materials-II
ME 203 Mechanics of Materials-II Analysis of stress and strain: plane stress and strain, principal stresses and maximum shear stresses; Mohr¿s circle for stresses and strains; theories of failure; yield, fatigue and creep, deflection, strain gauges, photoelasticity, Applications of plane stress: pressure vessels, beams, combined loading, Deflection of beams: deflection equation, deflection curve, method of superposition; Strain energy of bending; Castigliano¿s theorem: Analysis of statically indeterminate beams; Columns: buckling and instability of columns with various ends and other support conditions, secant formula for columns; Special topics in mechanics of materials
ME 212 Control Engineering
ME 212 Control Engineering Introduction to system, control system, input, output, open-loop and closed loop control systems, block diagrams and signal flow graphs system modelling, elements of a general control system, examples of control system. Mathematical modeling of physical systems, stability of control systems, transfer functions and systems response.
ME 221 Engineering Dynamics
ME 221 Engineering Dynamics Dynamics of particles and rigid bodies in one, two and three dimensions. Kinematics of Particles; rectilinear motion, plane curvilinear motion, rectangular coordinates, normal and tangential coordinates, polar coordinates, Kinetics of Particles; kinetic diagrams, rectilinear motion, curvilinear motion. Plane Kinematics of Rigid Bodies; angular motion relations, absolute motion, relative velocity, Plane Kinetics of Rigid Bodies; Force, mass, and acceleration, equation of motion, translation, fixed axis rotation, general plane motion. Introduction to work and energy relationship, impulse and momentum concepts.
ME 230 Fluid Mechanics-I
ME 230 Fluid Mechanics-I Topics covered in this course are mainly related to the fundamentals of fluid mechanics such as fluid statics, control volume approach, dimensional analysis and non-dimensional numbers (Reynolds, Peclet etc), flow types: laminar, transition, and turbulent, viscous and inviscid flows. Introduction to the Navier Stokes equations, their formulation and simplification into Bernoulli and Euler equations.
ME 231 Thermodynamics - I
ME 231 Thermodynamics - I Introduction to thermodynamics, thermodynamics properties, the system, control volume, working substance, state and properties, thermodynamic process and cycles, phase diagrams and use of steam tables. First law of thermodynamics; state change, Internal energy, enthalpy, specific heats. Ideal gas laws; equations of state. Thermodynamic processes relationships, second law of thermodynamics; definitions, its applications. Reversible and irreversible processes, P-V, and T-S diagrams of thermodynamic cycles, Carnot cycle, Rankine cycle, entropy and its engineering applications.
ME 232 Thermodynamics
ME 232 Thermodynamics Thermodynamic properties, steam and ideal gases. First Law of Thermodynamics, Steady-Flow Energy Equations, control volume analysis (steady state and transient). Ideal gas thermal analysis. Entropy , entropy generation and its applications to Second Law of Thermodynamics. Mixtures, basic thermodynamic cycles.
ME 234 Thermodynamics-II
ME 234 Thermodynamics-II This advanced course covers diverse topics from fluid dynamics. Internal flows: channels, u-ducts, T-joints. Turbomachinery: Compressors, pumps, turbines. External flows: Aerodynamics, hydrodynamics, external flows, compressible flows, applied aerodynamics. The course also gives an introduction to turbulence dynamics, numerical analysis and computational fluid dynamics techniques.
ME 246 Mechanics of Materials
ME 246 Mechanics of Materials Stress and Strain at a point. Tensile, compressive and sheer stresses. Hooke¿s law and elasticity, Young¿s modulus, modulus of rigidity, Poisson¿s ratio and their correction, tensile and torsional loading of shafts, combined loading, principal stresses & strains, Mohr¿s circle, elastic bending of beams, shear force & bending moment diagrams, stresses & deflections of beams. Torsional axis & shear center of beams, shear flow in beams of thin wall cross-sections, theory of columns.
ME 311 Measurement and Instrumentation
ME 311 Measurement and Instrumentation The course focuses on significance of accurate measurement systems and instrumentation used in experimental and engineering analysis. Topics include significance of measurement, planning of experiments, general measurement system, calibration, static and dynamic measurements, range, repeatability, uncertainty of instruments, measurement accuracy, precision, and errors. Introduction to data acquisition through computers.
ME 321 Mechanics of Machines
ME 321 Mechanics of Machines The course covers introductory topics of machine design elements such as friction between dry surfaces, screw threads and efficiency, friction of pivot, collar and conical bearing, cone, plate and centrifugal clutch, belts and rope drives, chains and sprockets, bands and shoe brakes. Introduction to gears, simple and compound gear trains, epicyclic trains, compound epicyclic trains, torque on gear trains, dynamometers. Linkages: synthesis and analysis, position, velocity and acceleration analysis, turning moment diagram, flywheels, valve diagrams and valve gears.
ME 322 Machine Design
ME 322 Machine Design Concept/criteria of design of machine element, Load and stress analysis, deflection and stiffness, failure resulting form static and variable loading, failure prevention. Design of mechanical elements, screws, fasteners, metal fits and the design of non-permanent joints. Introduction to the design of permanent joints using welding and bonding. Assembly incorporating mechanical springs, contact bearings and general bearing. Gears: Spur and helical gears, bevel and worm gears. Introduction to flexible and non- flexible mechanical elements: Clutches, brakes, couplings, flywheels, Shafts and axels. Design standards.
ME 332 Fluid Mechanics
ME 332 Fluid Mechanics Introduction to fluids & their properties, fluid pressure, Pascal¿s law, manometry, pressure on submerged surfaces, laws of fluid flow, control volume and system approach applied to the development of continuity, momentum & energy equations of incompressible and compressible fluids. Simplification to Bernoulli¿s and Euler equations. Applications to simple physical systems.
ME 333 Heat and Mass Transfer
ME 333 Heat and Mass Transfer Introduction to conduction, 1-D heat transfer, heat transfer through composite wall, cylinders and spheres. Design and analysis of fins. Variable thermal conductivity. Introduction to free and forced convection. Thermal boundary layer. Flow over plates. Flow within pipes. Laminar and turbulent flow correlations. Design of Heat exchangers. Introduction to radiation heat transfer. Fick¿s law, molecular diffusion, mass transfer.
ME 341 Manufacturing Processes-I
ME 341 Manufacturing Processes-I Introduction to manufacturing tools and techniques: forming & shaping processes and equipment, sheet metal forming, forming & shaping plastics & composite materials, joining process & equipment, metal casting process & equipment, powder metallurgy, surface treatment, coating and cleaning, NC and CNC designing and manufacturing. A brief introduction to manufacturing processes, their capabilities, analysis and process selection and implementation.
ME 342 Manufacturing Processes-II
ME 342 Manufacturing Processes-II The course covers advanced topics of manufacturing processes such as material removal, cutting tools, machine processes for producing various shapes, abrasive machining & finishing operations, non conventional machining process, control of machine tools, jigs & fixtures and precision measurements. A brief introduction to compute integrated manufacturing systems (CIM), metrology, precision measurements and process planning.
ME 351 Engineering Management and Economics
ME 351 Engineering Management and Economics Important concepts in relations to both engineering management and economics are taught. The engineering management module covers effective plant management: management systems, productivity, role of work study and other plant management parameters. The course also includes inventory management and PERT-CPM. The engineering economics module on the other hand deals with the types of costs, equivalence, types of investments, depreciation accounting, inflation and economic considerations.
ME 352 Total Quality Management
ME 352 Total Quality Management Fundamental principles; standards; techniques for quality analysis and improvements; statistical methods and SPC. Acceptance sampling; QFD; value engineering; Cross-functional management and benchmarking; ISO-9000 application, clauses and implementation issues
ME 361 Instrumentation and Measurement
ME 361 Instrumentation and Measurement Measurement processes. Errors, its types, causes and removal of errors in measurement systems. Signal and noise in instrumentation. Display and recording systems. Signal processing. Transducers and actuators. Smart sensors. Filter design microprocessor-based instrumentation systems. Data logging and interfaces, data processing and storage teleprocessing, remote sensing techniques. Measurement of Temperature, pressure, flow, humidity in process and other Mechatronics systems.
ME 413 Introduction to Mechatronics
ME 413 Introduction to Mechatronics Introduction to Mechatronics. Sensors and transducers, transducer characteristics, sensors for measuring displacement, strain, force, pressure, temperature and motion. Encoders. Motors and their types. Stepper motors. Permanent magnet DC motors. Servo Systems. Interfacing. Ports, Input/Output, Analog to Digital converter, sampling theory, Digital to Analog converter. Sample and hold, multiplexer. Interfacing switches, LEDs, stepper motors and DC motors to micro-controllers.
ME 422 Automobile Engineering
ME 422 Automobile Engineering Introduction to automobile engineering, vehicle structural layout, vehicle dynamics, automobile systems; suspension, steering, brakes, transmission, wheel alignment, electrical, air conditioning etc. Engine and engine systems; cooling, lubrication, EFI and carburetors, intake and exhaust. The course also includes practical lab work and demonstration
ME 423 Mechanical Vibrations
ME 423 Mechanical Vibrations Oscillatory motion, harmonic motion, periodic motion, vibration terminology. Free vibration equation of motion, energy method. Viscously damped free vibration. Logarithmic, decrement harmonically excited vibration. Forced harmonic vibration, vibration isolation, vibration measuring instruments, two degree of freedom system. Normal mode vibration, co-ordinate coupling, forced harmonic vibration, vibration absorber, vibration damper, multi-degree of freedom system, Lagrange¿s equation
ME 424 Automation and Robotics
ME 424 Automation and Robotics Robotics: Basic concepts in robotics, classification and structure of robotic system, drive and control system, coordinate transformation, kinematics dynamic analysis and trajectory interpolation, interfacing with micro controllers and PLCs, applications of robots. Robotics and Automated Guided Vehicles. Basic robot motion, path control, robot drive system sensors, robot-computer interface, robot programming, Automated Guided Vehicles (AGV) types. Programmeable logic controller (PLC). Basics components and terminologies, ladder diagram elements, relay sequencing, processor input and output modules, programming unit and programming procedures with machines or assembly language. Microcontroller. Basic elements of microcontroller, types of microcontroller, micro processor and PLC, overview of architecture and principles of operations, assembly, machine and high level programming languages for microcontroller, input and out put peripherals for specific application in mechanical engineering with interfacing techniques. Actuators, sensor, input signals, output signals, signal conditioning. Automations: Introduction to automations, automation strategies, economics of automations, partial automations, group technology and flexible manufacturing. Use of sensors and actuators in automations.
ME 425 Tribology
ME 425 Tribology Friction, wear mechanism, wear debris classification, surface roughness, friction and wear measurement techniques, lubrication of sliding and rolling parts. Types of lubricants, grades and their properties; theories of lubrication, oil whirl, Hydrodynamic and elastohydrodynamics lubrication of journal bearing. Solid lubricants, self lubricating fuel, tribology in manufacturing, tribology in automobiles.
ME 427 I.C. Engines
ME 427 I.C. Engines Engine classification, Combustion reaction of engine fuels, real engine cycle. Working principles of SI and CI engines, Ignition delay and combustion phases of SI and CI engines. Testing and performance characteristics of petrol and diesel engines under variable condition of load and speed. Knocking characteristics, Octane and Cetane numbers, engine valve timing and ignition advance and retard, Pressure-crank angle diagram. Working principle of turbo- charged engine, its performance characteristics and comparison with naturally aspirated engine of equal power. Engine emissions and their control through in-cylinder and out-cylinder techniques. Exhaust gas recirculation (EGR) system. Thermal reactor and catalytic converters. Trade off of NOx and HC emissions. Fuel injected petrol engine and its performance, advantages over conventional petrol engine. Engine performance under part cut-out conditions and fuel savings Introduction to duel fuel / multi fuel engines, CNG engines. Engine lubrication and lubricants, fuel additives.
ME 428 Machine Design II
ME 428 Machine Design II Design of gears (spur, helical, bevel, worm), design of springs and shafts. Stress concentrations on elements
ME 428 Mechanical engineering design analysis
ME 428 Mechanical engineering design analysis Philosophy and concept of engineering design. Engineering creativity, phases and procedure in design. Management of engineering project. Computer aided design. Modeling and similitude, optimization and reliability. Application of industrial design codes.
ME 429 Finite Element Method (FEM)
ME 429 Finite Element Method (FEM) Introduction: stress analysis by FEM; energy, variational principles and Ritz¿s methods; co-ordinate transformation; isoparametric formulation, solution of engine value, boundary value, discretized time dependant problems
ME 433 Renewable Energy Technology
ME 433 Renewable Energy Technology Introduction to types of renewable energy, solar energy, wind energy, geothermal energy, ocean thermal energy, tidal wave and geothermal energy, biomass energy. Fuel cell and heat pump systems, energy efficiency issues and energy storage. Potential of using renewable energy resources as supplement of conventional energy resources. Renewable and non- renewable energies used as hybrid energy systems, Modern renewable energy plants. Wind energy, wind turbine design specifications, compatible electric generators and major operational issues of the wind mill for electric power generation. Wind mills design usage for pumping water. Biomass energy conversion methods, detailed description of biomass energy conversion plant, operational and maintenance problems and their remedies.
ME 434 Heating Ventilation and Air-conditioning Systems (HVAC)
ME 434 Heating Ventilation and Air-conditioning Systems (HVAC) Refrigeration cycles: vapor compression cycle, COP, pressure- enthalpy chart, types of refrigerants, air cycle refrigeration, vapor absorption system. Air conditioning: Indoor and outdoor air conditions, comfort conditions and comfort zone, indoor air quality. psychrometry, Central air-conditioning system, essential components of central air-conditioning plant, water chiller and water heater, air handling unit, chilled water and hot water recirculation system, return air supply system, fresh air supply system air mixture chamber, supply fan. Air dust cleaning and bacteria removal, air supply and air return terminals, diffusers and grilles, CFM rating and tons of air-conditioning of a central air-conditioning plant. Cooling load and heating load calculation procedures, duct sizing and piping design, pumps and fans selection. Air ventilation: calculation of fresh air supply of a multi story building, air handling unit for untreated fresh air, dust and bacteria removal systems, forced convection based air ventilator design
ME 435 Gas Dynamics
ME 435 Gas Dynamics Basic governing laws of conservation of mass, momentum and energy, limitations. Sub-sonic and supersonic gas flow. Mach number and Mach angle. Isentropic Flow and Applications; Operation of nozzles under varying pressure ratios. Normal and oblique shocks, Prandtl-Meyer compression and expansion with applications. Rayleigh flow and Fanno flow, Busemann¿s shock polar diagram
ME 436 Aerodynamics
ME 436 Aerodynamics Introduction, aerodynamics of incompressible flow, compressible and ideal fluid flow, airfoils theory, finite wing aerodynamics, blade element theory and aircraft propellers, Cascade aerodynamics, jet propulsion, intake and nozzle performance, aircraft performance measurement
ME 437 Computational Fluid Dynamics (CFD)
ME 437 Computational Fluid Dynamics (CFD) Types of ordinary and partial differential equations, solution of equation sets, boundary value and initial value problems, control volume approach, time stepping, accuracy, stability, consistency, linearization, diffusion, dispersion, vorticity stream function and primitive variable formulations. Turbulence modeling. Examples of external flow across various configuration, internal flows through pipes, ducts and valves.
ME 438 Nuclear Engineering
ME 438 Nuclear Engineering Review of nuclear physics, reactor physics, reactor heat transport. Types enrichment and reprocessing ; handling of fuels . Safety aspects.
ME 439 Power Plant Technology
ME 439 Power Plant Technology Conventional Power Plants: Thermodynamics review, fossil fuel steam generator, Brayton cycle, Open and closed cycle power plants, combined cycle power plants, Combustion chamber configuration, Fuel injection system, combustion, flame stabilization. Gas turbine and jet engine power plants, Diesel engine power plant Combined heat and power plants (CHP), Hydro-electric power plants. Renewable Energy Power Plants: Power plants using Renewable energy, Wind mills power plants, Renewable and non- renewable energies used as hybrid energy systems, Wind energy, wind turbine design specifications, Geo-thermal, Biomass energy conversion methods, Solar Thermal power plant. Other and Emerging Power Plants: Nuclear energy power plants, Fuel cells technology. Environmental impacts of power plants
ME 441 CAD/CAM
ME 441 CAD/CAM Short form for Computer Aided Design and Computer Added Manufacturing, this course highlights current CAD/CAM procedures and techniques. Contents include fundamentals of CAD, hardware in CAD, computer graphics, mathematical elements of CAD, detailed Conventional Numerical Control and NC part programming. Application of numerical/computational techniques for Finite Element Analysis and engineering design
ME 443 Maintenance Engineering
ME 443 Maintenance Engineering Introduction and types: Preventive maintenance, its objectives, benefits and economics, inspection and implementation. Routine maintenance and monitoring of fault indicators, main concepts and implementation. Proper assembly/ disassembly, alignment aspects, machine handling. Record keeping and maintenance scheduling, stocking spares and cost effectiveness, safety in maintenance. Basic repairs of electro-mechanical equipment, fault diagnosis and assessment. Introduction to predictive maintenance. Condition base monitoring. basic Repairs. Replacement/refurbishment of defectiveness parts e.g. bearings, brakes, shafts.
ME 444 Fundamentals of Automated Manufacturing
ME 444 Fundamentals of Automated Manufacturing Intro to manufacturing automation, numerically controlled machines, integration of NC and robotics. Machine tool controls, CNC, Programming for CNC Lathe
ME 453 Operations Research 3-0-3
ME 453 Operations Research 3-0-3 No course outline is available.
ME 454 Safety Health and Environment (HSE) 3-0-3
ME 454 Safety Health and Environment (HSE) 3-0-3 No course outline is available.
ME 455 Engineering Law 3-0-3
ME 455 Engineering Law 3-0-3 No course outline is available.
ME 456 Project Management 3-0-3
ME 456 Project Management 3-0-3 No course outline is available.
ME 457 Businesses and Entrepreneurship 3-0-3
ME 457 Businesses and Entrepreneurship 3-0-3 No course outline is available.
ME 458 Maintenance Management 3-0-3
ME 458 Maintenance Management 3-0-3 No course outline is available.
ME 492 Reliability in Engineering
ME 492 Reliability in Engineering Quality control and reliability, hazard function. Poisson process. Weibull distribution. Series and parallel systems, non series-parallel systems, time- dependent systems, life-testing, sequential probability ratio test.
ME 496 Experimental Stress Analysis
ME 496 Experimental Stress Analysis Rosettes and their principle of operation, strain gauge bridges for measurements of forces and moments and structural members. Instrumentation for stress analysis work. Photo elasticity methods stress optics, fringe patterns in polariscope. Calibration and compensation techniques for stress measurements on optical models.
ME 498 Final Year Design Project (0-3)
ME 498 Final Year Design Project (0-3) Independent, or group work, as prescribed by supervisor and projects committee of concerned department
ME 499 Final Year Design Project (0-3)
ME 499 Final Year Design Project (0-3) Independent, or group work, as prescribed by supervisor and projects committee of concerned department
AE 601 Theory of Elasticity
AE 601 Theory of Elasticity This is the first course in Structures, which in its broad aspect deals with the study of elastic bodies. When the elementary methods of strength of materials are inadequate to furnish satisfactory information regarding stress distribution in engineering structures, then a resort is made to the more powerful methods of theory of elasticity. Basic equations of the theory of elasticity in different co ordinate system, solution to plane stress and plane strain problems, Fourier transformation method and St. Venant's principle is also introduced in the course. Solution to plates of various profiles and end conditions along with the most commonly used numerical energy methods are explained to strengthen the concepts of student to undertake the advanced courses in structures in the future semesters.
AE 610 Advanced Incompressible Fluid Dynamics
AE 610 Advanced Incompressible Fluid Dynamics The main focus of this course is on incompressible flow. Incompressible flows form a major part of aerodynamics and their analysis is broadly classified under ?inviscid? and ?viscous? flows. In viscous incompressible flows, further subdivisions are made on the basis of flow Reynolds number (Re) i.e. Laminar boundary layer (High Re), Stokes flow (low Re) and turbulent flow (Very high Re). The basic governing equations of fluid/aerodynamics i.e. Navier Stokes equations are introduced and their various analytical solution techniques are explained in detail. Two dimensional incompressible and inviscid flows are solved using complex analysis treatment.
AE 611 Compressible Fluid Dynamics
AE 611 Compressible Fluid Dynamics The main focus of this course is on compressible flow. Compressible flows form a major part of aerodynamics and their analysis is broadly classified under ?inviscid? and ?viscous? flows. Inviscid compressible flows include analysis of properties across shocks / expansion waves, variable area flows, linearized 2 D flow, part of hypersonic flow and unsteady wave motion. Viscous compressible flows involve solution of the complete system of
AE 612 Gas Turbine Theory and Performance
AE 612 Gas Turbine Theory and Performance No course outline is available.
AE 613 Mechanics and Thermodynamics of A/C Propulsion
AE 613 Mechanics and Thermodynamics of A/C Propulsion No course outline is available.
AE 614 Combustion Phenomena
AE 614 Combustion Phenomena No course outline is available.
AE 615 Aircraft Engine Design
AE 615 Aircraft Engine Design No course outline is available.
AE 616 Advanced Thermodynamics
AE 616 Advanced Thermodynamics No course outline is available.
AE 629 Flight Dynamics and Control
AE 629 Flight Dynamics and Control No course outline is available.
AE 630 Computational Fluid Dynamics
AE 630 Computational Fluid Dynamics No course outline is available.
AE 633 Potential Flow and Panel Method
AE 633 Potential Flow and Panel Method No course outline is available.
AE 634 Applied Computational Fluid Dynamics
AE 634 Applied Computational Fluid Dynamics No course outline is available.
AE 638 Polymer Engineering
AE 638 Polymer Engineering No course outline is available.
AE 640 Finite Element Methods-I
AE 640 Finite Element Methods-I The course provide an introduction to the Finite Element Method as applied to one & two dimensional problems of structures, heat transfer & fluid flow. One dimensional & then two dimensional, Static & dynamic problems are solved by using FEM.
AE 641 Behavior of Materials under Impact Loading
AE 641 Behavior of Materials under Impact Loading No course outline is available.
AE 644 Thin Walled Structures
AE 644 Thin Walled Structures No course outline is available.
AE 645 Advanced Materials in Engineering
AE 645 Advanced Materials in Engineering No course outline is available.
AE 646 Aero-Elasticity
AE 646 Aero-Elasticity No course outline is available.
AE 650 Turbo Machinery
AE 650 Turbo Machinery No course outline is available.
AE 661 Degradation of Materials
AE 661 Degradation of Materials No course outline is available.
AE 703 Advanced Strength of Materials
AE 703 Advanced Strength of Materials No course outline is available.
AE 705 Advance Aircraft Structures
AE 705 Advance Aircraft Structures No course outline is available.
AE 710 Experimental Techniques in Fluids and Thermal Sciences
AE 710 Experimental Techniques in Fluids and Thermal Sciences No course outline is available.
AE 720 Advanced Theory of Vibrations
AE 720 Advanced Theory of Vibrations It begins with an introduction to some basic concepts, discussion about spring, mass and damper elements, and introduction to harmonic motion and its analysis. The course then covers Free and Forced vibration of single degree of freedom (SDOF) system, damped and un damped system. After thoroughly covering SDOF system two and multi degrees of freedom system are covered. Special additional topics are covered at the end of the course.
AE 723 Advanced Mechanics of Composites
AE 723 Advanced Mechanics of Composites The objective of this course is to introduce composite materials to graduate students. It begins with an introduction to the composite material and their constituents. The course then covers unidirectional composites, in which various mechanical properties are of unidirectional composite are discussed. The course then covers behavior of laminated composite plates under various loading conditions; in that classical lamination theory is used. Special additional topics are covered at the end of the course.
AE 725 Mechanical Behavior of Engineering Materials
AE 725 Mechanical Behavior of Engineering Materials No course outline is available.
AE 726 Failure Mechanisms in Engineering Materials
AE 726 Failure Mechanisms in Engineering Materials No course outline is available.
AE 730 Computational Fluid Dynamics II
AE 730 Computational Fluid Dynamics II No course outline is available.
AE 731 Gas Turbine Combustion
AE 731 Gas Turbine Combustion No course outline is available.
AE 732 Propulsion System Performance and Integration
AE 732 Propulsion System Performance and Integration No course outline is available.
AE 735 Advanced Aerospace Propulsion
AE 735 Advanced Aerospace Propulsion No course outline is available.
AE 736 Hypersonic/High Temperature Gas Dynamics
AE 736 Hypersonic/High Temperature Gas Dynamics No course outline is available.
AE 740 Finite Element Methods
AE 740 Finite Element Methods No course outline is available.
AE 743 Theory of Plates and Shells
AE 743 Theory of Plates and Shells No course outline is available.
AE 743 Theory of plates and shells
AE 743 Theory of plates and shells No course outline is available.
AE 747 Theory of Plasticity
AE 747 Theory of Plasticity No course outline is available.
AE 748 Fracture Mechanics
AE 748 Fracture Mechanics No course outline is available.
AE 753 Advanced Heat Transfer
AE 753 Advanced Heat Transfer No course outline is available.
AE 754 Conduction Heat Transfer
AE 754 Conduction Heat Transfer No course outline is available.
AE 755 Convective Heat Transfer
AE 755 Convective Heat Transfer No course outline is available.
AE 756 Radiation Heat Transfer
AE 756 Radiation Heat Transfer No course outline is available.
AE 760 Surface Engineering
AE 760 Surface Engineering No course outline is available.
AE 810 Experimental Techniques in Solid Mechnanics
AE 810 Experimental Techniques in Solid Mechnanics No course outline is available.
AE 857 Hydrodynamic Stability
AE 857 Hydrodynamic Stability No course outline is available.
AE 859 Turbulent Fluid Flow
AE 859 Turbulent Fluid Flow No course outline is available.