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Course Outcomes(RC 2019-20)
| Course Name | Course Code | Course Outcomes |
|---|---|---|
| MATHEMATICS-I | FE 110 | Explain the concepts of an infinite series, Beta and Gamma Functions, ordinary differential equations and limit and continuity |
| Evaluate integrals using Beta and Gamma functions, | ||
| Demonstrate various operations on complex numbers & analytic properties of functions of complex variables | ||
| Apply Partial differentiation in engineering applications | ||
| PHYSICS | FE 120 / FE220 | Explain the behaviour of light, lasers, x-rays, semiconductors and ultrasonic devices. |
| Describe the influence of physical system parameters on propagation of light, lasers, x-rays and the properties of magnetic materials and semiconductors | ||
| Determine the influence of the physical parameters on behaviour of light, lasers, semiconductors, ultrasonic waves, magnetism and x-rays | ||
| Compute the dimensions of lenses, wavelength of ultrasonic waves, magnetic saturation, semiconductor characteristics, lasers passing through fibre optics and x-ray diffraction. | ||
| BASICS OF ELECTRICAL & ELECTRONICS ENGINEERING | FE 130 | understand circuit laws, magnetic circuit quantities, single phase and three phase circuits, diode applications, principles of single phase transformer, Bipolar junction transistor, MOSFET and IGBT. |
| Describe the concept of Power generation, magnetic circuits, voltage-current phasor relationships in three phase circuits, working of single phase transformer, Bipolar junction transistor, MOSFET and IGBT | ||
| Use circuit laws to compute electrical quantities in DC, single phase and three phase circuits, rectifier circuits, voltage regulator circuits and transistor biasing circuits. | ||
| Develop phasor diagrams of single phase, three phase ac circuits and single phase transformer and analyse the performance of voltage regulator circuits using Zener diode and phase angle control circuits using SCR. | ||
| BASICS OF MECHANICAL ENGINEERING | FE 140 | Understand circuit laws, magnetic circuit quantities, single phase and three phase circuits, diode applications, principles of single phase transformer, Bipolar junction transistor, MOSFET and IGBT. |
| Describe the concept of Power generation, magnetic circuits, voltage-current phasor relationships in three phase circuits, working of single phase transformer, Bipolar junction transistor, MOSFET and IGBT | ||
| Use circuit laws to compute electrical quantities in DC, single phase and three phase circuits, rectifier circuits, voltage regulator circuits and transistor biasing circuits. | ||
| Develop phasor diagrams of single phase, three phase ac circuits and single phase transformer and analyse the performance of voltage regulator circuits using Zener diode and phase angle control circuits using SCR. | ||
| PHYSICS LABORATORY | FE 150/FE250 | Explain the applications of concepts like Ultrasonics, X- rays, Superconductivity and Lasers in the different fields of daily life |
| Experiment using various apparatus like Cathode ray Oscilloscope and CRT tube. | ||
| Analyse the concept of physics like interference, semiconductors, ultrasonics and , Electron Ballistics. | ||
| Design and develop a simple applications of semiconductors and ultrasonics | ||
| ELECTRICAL & ELECTRONICS LABORATORY | FE 160 | Understand working of regulators, rectifiers, characteristics of various electronics devices |
| Assemble and test different circuit theorems and characteristics | ||
| Analyse and verify power in electric circuit, testing of single phase transformer | ||
| Apply circuit concept in electrical wiring | ||
| WORKSHOP-I | FE 170 | Explain the basic workshop skills from raw material stage to finished product. |
| Identify the tools required for fitting, forging, welding and carpentry jobs | ||
| Demonstrate the use of tools, machines and effort required to complete the job | ||
| Demonstrate the skills required to complete fitting, forging, welding and carpentry jobs | ||
| ENVIRONMENTAL SCIENCE | AC180 | Describe the Present, past and future status of the Environment. |
| Demonstrate the knowledge of core concepts and components in Environmental Science. | ||
| Explain environment management by equitable handling of natural resources, pollution control technologies, biodiversity and ecosystem protection. | ||
| Identify environmental issues and problems arising due to human activities at local, national and global level. | ||
| MATHEMATICS-II | FE 210 | Evaluate double & triple integrals & learn its various Engineering applications. |
| Explain analytic properties of vector valued functions & the associated results used in engineering. | ||
| Solve first order differential equation & higher order linear differential equations | ||
| Explain the multiple integrals, vector calculus, solve ordinary differential equations. | ||
| CHEMISTRY | FE120/FE 220 | Explain the basic concept of electrochemical system involving different types of energy systems and components involved therein |
| Describe the classification and grading of Hydrocarbon fuels and non- conventional energy systems like solar and Biogas | ||
| Differentiate various types of corrosion and gain knowledge on control measures associated with corrosion | ||
| Identify polymeric materials, methods and properties associated with these materials. | ||
| COMPUTER PROGRAMMING | FE 230 | Demonstrate the use of algorithms and flowcharts to plan the solution of a computing problem |
| Explain the use of formatted and unformatted input and output statements in C programs | ||
| Analyse the syntax and semantics of any given data types, data structures and programs in C language. | ||
| Design and implement programs using standard C language infrastructure regardless of the hardware or software platform | ||
| INTRODUCTION TO CIVIL ENGINEERING | FE 240 | Explain the history and basic disciplines of Civil Engineering and building materials. |
| Identify various processes involved in building constructions and structures. | ||
| Apply the IoT and Computational methods in Civil Engineering. | ||
| Implement safety measures for buildings | ||
| CHEMISTRY LABORATORY | FE 250 | Explain the basic concept of electrochemical system involving different types of energy systems and components involved therein |
| Describe the classification and grading of Hydrocarbon fuels and non- conventional energy systems like solar and Biogas. | ||
| Differentiate various types of corrosion and gain knowledge on control measures associated with corrosion. | ||
| Identify polymeric materials, methods and properties associated with these materials. | ||
| PROGRAMMING LABORATORY | FE 260 | Explain the program development denvironment for editing, compiling, executing and debugging a C Program. |
| Demonstrate the concepts of C Programming Language using a program development environment. | ||
| Design and develop C programs to solve real life problems | ||
| Evaluate and modify any given C program as per the requirement. | ||
| ENGINEERING GRAPHICS | FE 270 | Demonstrate the imagination skills required in converting idea into drawing. |
| Explain projection systems in engineering drawing. | ||
| Analyze solids and their cut sections along with development of surfaces. | ||
| Explain Orthographic and Isometric projection of parts. | ||
| WORKSHOP-II | FE 280 | Explain the basic workshop skills from raw material stage to finished product. |
| Demonstrate the skills required for turning, plumbing, pattern making and foundry jobs. | ||
| Identify the tools, machines and effort required to complete the job. | ||
| Explain the concepts of machining, joining and forming processes. | ||
| Mmathametics III | ME310 | Understand the theory of matrices, Laplace transforms, Fourier Series, Probability theory and the formulation of one dimensional wave equation, heat flow equation and its solution. |
| Compute the rank of matrix, eigen values and eigen vectors of a matrix, Laplace/ inverse transform of functions, Fourier Series of functions and Probability of events. | ||
| Use rank of a matrix to analyze solutions of linear systems of equations. Solve differential /integral equations using Laplace transforms. Use Fourier series to find the solution of .Partial differential equations such as wave equations and heat flow equations. | ||
| Model real life problems with matrices, use probability for estimation. Propose a value to be substituted in a Fourier series to obtain the given real number series | ||
| Mechanics of Solid | ME320 | Understand the basic concepts of Stress. Strain, Moment of Inertia, Shear Force and Bending Moment Diagram, Theories of Failure and energy Methods |
| Remember the basic relations for Stress, Strain. Moment of Inertia. Pure Torsion. bendino of beams, Theories of Failure & Energy Methods. | ||
| Reinernber the basic relations .for Stress, Strain. Moment of Inertia. Pure Torsion. bendino. of beams, Theories of Failure & Energy Methods. | ||
| Analyze structural members and machine elements subjected to axial loads. lateral loads. bending and twisting moments for stresses, strains, and displacements and analyze statically determinate structures using Energy methods | ||
| Engineering Thermodynamics | ME330 | Remember the basic concepts, properties, processes, laws, relations, and formulae of thermodynamic systems, pure substance, heat engines and basic energy conversion cycles. |
| Understand the basic concepts, properties, processes, laws, relations, derivations, diagrams, charts and tables of thermodynamic systems, pure substance, heat engines and basic energy conversion cycles. | ||
| Apply the knowledge of thermodynamics to various applications in engineering and real life. | ||
| Analyze the various problems associated with thermodynamics in engineering and real life. | ||
| Engineering Material Science and Metallurgy | ME340 | Describe crystal structures and understand the impacts of defects at the atomic and microstructure scales. |
| Interpret phase diagrams, understand the concepts of solid solution and solubility limits, and be able to predict the development of microstructures and impacts of phase transformations, | ||
| Understand heat treatment of materials and characterisation of material properties. | ||
| Understand the choice of an alloy for a particular application. | ||
| Engineering Metrology and Machine Drawing | ME350 | Understand basic principles and standards of engineering measurements |
| Understand the use of limits, fits, tolerances, GMT in Mechanical engineering | ||
| Create assembly drawings and freehand sketches of mechanical joints / fasteners. | ||
| Create disassembly drawings and freehand sketches of permanent joints. | ||
| Engineering Material Science and Metallurgy Laboratory | ME360 | Determine the mechanical properties of a given material such as hardness, impact strength. tensile properties, creep and fatigue strength |
| Analyse micrograph of given metallic material and correlate the effect of heat treatment on microstructure | ||
| Engineering Metrology and Machine Drawing Laboratory | ME370 | To inculcate in students the habit of giving importance to metrology and measurement and to apply measurement concepts in real-world situations. |
| To possess knowledge of the sources of measurement errors and how their influence may be reduced. | ||
| To read and understand the geometric representations and conventional symbols used in machining and mechanical details as per IS on the drawing. | ||
| To visualize mechanical component and convert it into a drawing. | ||
| To gain knowledge in two dimensional drafting and to assemble and disassemble the mechanical parts. | ||
| Technical Communication | HM001 | Demonstrate precise language skills with suitable vocabulary and apt style. |
| Develop lifeskills/interpersonal skills to progress professionally | ||
| Apply traits of suitable candidature for a job/higher education. | ||
| Deliver formal presentations and effectively implementing the verbal and non-verbal skills. | ||
| Energy Conversion | ME410 | Understand the construction and operation of engine with alternate fuels used and modern trends in IC Engines |
| Illustrate principle of combustion, concepts of fuel air and Actual Cycles | ||
| Analyse Performance characteristics of the engine, supercharged and turbocharged engines. | ||
| Evaluate performance and emissions of IC Engines | ||
| Machine Drawing | ME420 | Understand the basic principles for designing machine elements and joints subjected to Static and Fatigue loading. |
| Comprehend and apply mathematical relations for designing machine elements and joints. | ||
| Calculate the dimensions of machine elements and joints subjected to static and dynamic | ||
| Analyze the problems related to static and fatigue loading of machine components and selection of drives for given applications. | ||
| Fluid Mechanics | ME430 | Understand the basic concept of fluid flow and properties of fluids |
| Understand the principles of fluid statics, kinematics and dynamics | ||
| Analyse fluid flow problems with the application of the momentum and energy equations. Understand concept of buoyancy, viscosity and importance of viscosity in real flows | ||
| Perform dimensional analysis for problems in fluid mechanics. Understand the concept of boundary layer formation. | ||
| Analysis and Synthesis of Mechanisms | ME440 | Understand fundamental concepts in the study of mechanisms and analyse the motion of commonly used linkages. |
| Analyse linkages for position, velocity and acceleration using analytical and graphical methods. | ||
| Synthesize linkages to produce predetermined motion using analytical and graphical methods. | ||
| Design and analyse cams, gears, and gear trains. | ||
| Thermal Laboratory-I | ME450 | Understand the knowledge of mathematics, science and engineering fundamentals to model the energy conversion phenomenon |
| Apply the knowledge of mathematics, science and engineering fundamentals to study Internal Combustion Engines and Turbomachines | ||
| Analyze performance of Internal Combustion Engines, Turbomachines and Boiler | ||
| Evaluate performance parameters of Internal Combustion Engines and Turbomachines | ||
| Fluid Mechanics Laboratory | ME460 | Understand working and principle of flow rate measuring devices in closed conduit. Distinguish the constructional differences between orifice meter and venturimeter. |
| Understand working and principle of flow rate measuring devices in open channels. | ||
| Experimental measurement of coefficient of friction and losses in fluid system. | ||
| Understand effect of metacentric height on stability of Floating body and forces on submerged body. | ||
| Economics for Engineers | HM003 | Understand the basic principles of economics, micro behaviour of consumer & firms in different market structures, various macroeconomic policies, aspects of financial market & measures of Economic Growth and Development. |
| Apply the basics of economics, costs concepts in decision making. | ||
| Analyze the macroeconomic concepts & their relation to microeconomic concept & how they affect the business and economy. Assess the measures of Economic Growth and Development | ||
| Evaluate economic theories, principles of economics, cost concepts, market structures, measures of National Income and assess its impact on economic growth and development. Make economically sound decision. | ||
| MANUFACTURING TECHNOLOGY ? I | ME510 | Understand the principles of Casting, welding, forming processes and processing of plastics. |
| Select the appropriate manufacturing processes for a given product. | ||
| Compute the process parameters for casting and metal forming. | ||
| Apply the knowledge of jigs and fixtures for turning and milling applications. | ||
| DYNAMICS OF MACHINERY | ME520 | Understand the basic principles of static and dynamics of rigid bodies, dynamometers, belt drives, balancing of rotating and reciprocating masses and mechanical vibrations |
| Apply the principles of dynamics to estimate the forces in lower and higher order pair linkages, gyroscope, flywheel and governors and estimate undamped and damped natural frequency of vibration for single dof systems. | ||
| Analyze linkages with lower and higher pair, gyroscopic effect, and vibratory response. | ||
| Evaluate force and torque in linkages with lower and higher pair, gyroscopic couple, firing order of cylinder for balancing requirements. | ||
| ADVANCEDTHERMODYNAMICS | ME531 | Understand the behavior of combustion of fuels, gas and vapour and different Thermodynamic cycles |
| Apply the knowledge of mathematics, science and engineering fundamentals to study combustion phenomenon, Psychrometry and thermodynamic cycles. | ||
| Analyze combustion equations, exhaust gases, Psychrometric Processes, Air and Vapour Cycles. | ||
| Evaluate Combustion, properties of Gas and Vapour Mixtures and performance of different thermodynamic cycles. | ||
| MECHANICAL VIBRATIONS | ME532 | Understand simple harmonic response in structures and machinery, undamped, damped free and forced vibrations for single and multiple degrees of freedom systems, critical speeds and vibration measurement. |
| Apply the relations forundamped and damped free and forced vibrations for single and multiple degrees of freedom systems for estimating natural frequencies and mode shapes. | ||
| Analyze system responses to steady state and transient excitation, critical speeds of shafts and use of vibration instrumentation for condition monitoring. | ||
| Evaluate the Vibration parameters for systems subjected to free and forced vibrations using classical and numerical methods. | ||
| MECHATRONICS | ME533 | Understand the basic concepts and working principle of elements of mechatronic system |
| Apply the concepts of various mechatronic sub system to build a simple mechatronic system | ||
| Apply the concepts of Fluid power systems and PLC programming to develop simple automation systems | ||
| Analyze mechatronic system using concepts of control engineering | ||
| MANAGEMENT INFORMATION SYSTEMS | ME534 | Understand various concepts of MIS systems |
| Apply tools /techniques/models/SQL in MIS | ||
| Analyze various architecture/models/systems as applicable in MIS | ||
| Evaluate the implementation of various entities in MIS | ||
| INDUSTRIAL SAFETY AND OCCUPATIONAL HEALTH | ME535 | Understand the concepts related to industrial safety and occupational health. |
| Apply techniques and methods for prevention of industrial accidents and occupational diseases. | ||
| Analyze situations involving industrial accidents and occupational diseases. | ||
| Evaluate situations involving industrial accidents, occupational diseases and develop solutions | ||
| GAS DYNAMICS AND TURBOMACHINERIES | ME 541 | Remember concept of compressible flow. Understands working of power absorbing and generating turbomachinaries. |
| Understand shock wave phenomenon. Understand energy exchange in Turbomachineries | ||
| Analyze change in properties across shock wave and manometric head and minimum speed of centrifugal pumps. | ||
| Evaluate compressible flow through ducts with area variation, heat transfer and friction, analyze power generating and absorbing Turbomachineries using velocity triangle. | ||
| ENGINEERING TRIBOLOGY | ME542 | Understand the principles of friction & wear mechanisms, fluid film lubrication, hydrostatic, hydrodynamic and elasto ? hydrodynamic lubrication |
| Apply theories of fluid film lubrication in relation to hydrostatic, hydrodynamic and elasto ? hydrodynamic lubrication and the knowledge of bearing materials and application of science of tribology. | ||
| Analyse & calculate bearings parameters for hydrostatic, hydrodynamic and elasto ? hydrodynamic lubrication | ||
| Evaluate bearings parameters for hydrostatic, hydrodynamic and elasto ? hydrodynamic lubrication | ||
| ADVANCED MACHINE DESIGN | ME532 | Understand the basic principles of designing clutches, brakes, flywheel gears, I. C. Engine components, power screws, Sliding contact bearings and selection of R. C. bearings. |
| Comprehend and apply mathematical relations for designing clutches, brakes, flywheel gears, I. C. Engine components, power screws and Sliding contact bearings. | ||
| Analyze the problems related to design of clutches, brakes, flywheel gears, I. C. Engine components, power screws and sliding contact bearings and R. C. Bearings | ||
| Evaluate the dimensions of the above machine elements for loading conditions specified and select appropriate R. C. bearings for given applications using standard data books / manufacturer?s catalogue. | ||
| MICROELECTROMECHANICAL SYSTEMS (MEMS) | ME544 | Understand the basics of MEMS systems and their micro fabrication techniques |
| Select appropriate sensors and actuators for a given MEMS application | ||
| Select a micro-fabrication technique for a specific MEMS fabrication process | ||
| Apply the concepts of basic science in design and modeling of MEMS systems | ||
| INSTRUMENTATION AND CONTROL | ME545 | Understand basic working principles of different measurement tools and control engineering concepts used in process industries |
| Select temperature, flow, pressure and level measuring device for specific process | ||
| Generate mathematical models of sensors and dynamic control systems | ||
| Analyze the behavior of a control system in terms of different system and performance parameters | ||
| MANUFACTURING LABORATORY | ME570 | Apply the concepts of Casting and Forming for the fabrication of simple components. |
| Apply the concepts of welding for making simple joints. | ||
| DYNAMICS OF MACHINERY LABORATORY | ME580 | Understating the principles ofnatural frequency, gyroscopic rule and characteristics of governor. |
| Apply static and dynamic force analysis on linkages. | ||
| Interpret the results and draw appropriate conclusions. | ||
| ENGINEERING STATISTICS | HM010 | Understand the concepts of randomness, probability distributions, inferential statistics and linear regression |
| Explain the development of characteristics of random variable, standard probability distributions and sampling distributions, applications of inferential statistics and linear regression | ||
| Compute - Probabilities and characteristics associated with random variable, outcomes in inferential statistics and coefficients of linear regression | ||
| Evaluate - behaviour of randomness, Point and Confidence Interval Estimators, Test of Hypothesis and regression model | ||
| HEAT AND MASS TRANSFER | ME610 | Understand the basic laws of heat transfer. |
| Analyze problems involving steady state heat conduction in simple geometries. | ||
| Apply the fundamentals of convective heat transfer process. | ||
| Evaluate heat exchanger performance by using the method of log mean temperature difference. | ||
| Manufacturing Technology II | ME620 | Understand the working principle of conventional &non conventional manufacturing processes |
| Understand the working principle of various finishing processes | ||
| Apply the concepts of cutting tool life and tool wear for conventional machining processes | ||
| Select the appropriate manufacturing process for a given product | ||
| POWER PLANT ENGINEERING | ME631 | Remember basics of Power Generation, solar, wind, tidal, Geothermal, Ocean, bio and new energy sources of power generation |
| Understand working principles the various renewable energy sources like wind, solar, biomass, Ocean energy, Fuel cells and MHD systems. | ||
| Apply principles of thermodynamics and energy conversion in different power plants | ||
| Analyze performance of various Power Plants | ||
| ADVANCED MECHANICS OF SOLIDS | ME632 | Understand the principles of asymmetric bending, curved beam theory, three dimensional stresses, strain, theory of elasticity, axis-symmetric problems and energy methods in evaluating structures. |
| Apply the relations of un-symmetric bending, curved beam theory, theory of elasticity, axis-symmetric problems and energy methods in engineering problems. | ||
| Analyze the structural members for stresses, strains and displacements subjected to external loading. | ||
| Evaluate the stresses, strains and displacements in members subjected to external loading including axis symmetric members and curved members and use of energy methods to evaluate structures. | ||
| FIBER REINFORCED COMPOSITES | ME633 | Explain the constituent materials, manufacturing mehods, fibre-matrix interactions and recycling of fibre reinforced composites |
| Determine stresses during longitudinal & transverse loading of unidirectional continuous & discontinuous fibres reinforced composites | ||
| Evaluate the compliance and stiffness matrices in unidirectional continuous fibres reinforced composites | ||
| Apply the quality inspection & mechanical testing methods and predict failure in fibre reinforced composites | ||
| QUALITY AND RELIABILITY | ME634 | Understand the concepts of quality, statistical process control, acceptance sampling, reliability engineering and reliability-based design. |
| Apply the knowledge gained from statistical process control, acceptance sampling, reliability engineering and reliability-based design on different cases. | ||
| Analyze using control charts, sampling plans, reliability measures and reliability based design. | ||
| Evaluate the performance using control charts, sampling plans, product/system reliability and reliability-based design. | ||
| APPLIED OPERATIONS RESEARCH | ME635 | Understand the applied concept of real life models, problem formulations and tools to solve various linear programming models |
| Apply the appropriate technique to solve any given real-life linear programming model | ||
| Analyze the formulation strategies of linear programming models and the complexity of solution procedures to solve linear programming problems | ||
| Evaluate the performance of various solution techniques used to solve the linear programming problems | ||
| ALTERNATE ENERGY SOURCES | ME641 | Remember basics of commercial and renewable energy sources |
| Understand working principles the various renewable energy sources like wind, solar, biomass, Ocean energy, Fuel cells and MHD systems. | ||
| Apply Principles of renewable and new energy sources | ||
| Analyze performance of various alternate Energy Sources | ||
| TOOL ENGINEERING | ME642 | Understand the principles of Press tools, Dies, Mould, jigs and fixtures |
| Compare and Select proper tool for precision manufacturing operation | ||
| Apply the knowledge of jigs and fixtures for turning and milling applications. | ||
| Compare and select a suitable CNC machining process for a given application | ||
| FLUID POWER CONTROL | ME643 | Understand the various concepts involved in fluid power control systems. |
| Apply the various concepts involved in fluid power control systems to simple hydraulic and pneumatic circuits. | ||
| Analyse the performance of various components in a fluid power circuit. | ||
| Evaluate the performance of various components in a fluid power circuit. | ||
| SUPPLY CHAIN MANAGEMENT | ME644 | Understand the basic concepts and role of drivers, customer & supplier relationships and performance measures associated with supply chain |
| Apply the supply chain and network design concepts in real life situations. | ||
| Analyze case studies on supplierselection, various business models and tourism business in Goa | ||
| Evaluate economics of scale and cost tradeoffs pertaining to drivers of supply chain. | ||
| SYSTEM MODELING AND SIMULATION | ME645 | Understand various concepts ofof system modeling and simulation |
| Apply simulation techniquesin Industrial engineering | ||
| Analyze simulation programs for various applications | ||
| Evaluate different entities of system modeling and simulation | ||
| THERMAL LABORATORY-II | ME650 | Understand the behavior of heat and mass transfer and refrigeration and Airconditioning |
| Apply the knowledge of mathematics, science and engineering fundamentals to study heat transfer, heating, refrigeration and Air-conditioning | ||
| Analyze performance of heat transfer, heating, refrigeration and Airconditioning equipment | ||
| Evaluate performance of heat transfer, heating, refrigeration and Airconditioning equipment | ||
| MANUFACTURING & AUTOMATION LABORATORY | ME660 | Apply the concepts of machining operations for the fabrication of simple components. |
| Apply the knowledge of various industrial automation tools | ||
| CAD/CAM | ME710 | Understand the basic concepts of geometric modeling, Finite Element Method, Computer Graphics and Computer Integrated Manufacturing Systems |
| Write programs for Line drawing, Geometric transformation and Computer Numerical Control using standard software tools | ||
| Apply the concepts of Geometric construction, Finite Element Methods, robotics and networking for various applications | ||
| Compare and select a suitable rapid prototyping process for a given application | ||
| REFRIGERATION AND AIRCONDITIONING | ME721 | Understand and Illustrate the fundamental principles of refrigeration and air conditioning system. |
| Analyse the various refrigeration systems by applying Thermodynamic principles. | ||
| Apply refrigeration load calculations for selection of components and refrigerants. | ||
| Evaluate Coefficient of performance, psychometric properties, heating/cooling load of different HVAC systems. | ||
| FINITE ELEMENT METHOD | ME723 | Understand the steps in FEM, the principles of theory of elasticity, variation of calculus, matrix algebra & calculus, numerical methods and the various approaches to model FEM problems including weighted residual techniques & Rayleigh Ritz method and review of basic equations in fluid mechanics and heat transfer. |
| Apply the FEM techniques to solve problems in statics, dynamics, structural engineering, heat transfer and fluid flow problems using FEM formulations / FEM techniques | ||
| Analyze the structural, heat transfer and fluid mechanics problems using FEM formulation. | ||
| Compute the stresses and displacements in structural problems, heat flow and temperature in heat transfer problems and pressure and flow rate in fluid flow problems. | ||
| SIX SIGMA MANAGEMENT | ME723 | Understand the concepts, tools, techniques and methodologies in Six Sigma Management |
| Apply Six Sigma concepts tools and techniques and methodologies to practical problems in service and manufacturing sectors. | ||
| Analyze real-life situations for design and continual improvement of product and processes | ||
| Evaluate cases using Six Sigma Methodologies | ||
| ADVANCED OPTIMIZATION | ME724 | Understand the applied concept of real life linear and non-linear models, problem formulations, algorithmic complexity and tools to solve these models |
| Apply the appropriate technique to solve specific linear and non-linear programming model | ||
| Analyze the complexity of solution procedures used to solve specific linear and non-linear programming model | ||
| Evaluate the performance of various traditional and recent solution techniques used to solve the models | ||
| ADDITIVE MANUFACTURING | ME725 | Understand the various processes of additive manufacturing, rapid tooling and reverse engineering |
| Select the appropriate additive manufacturing and rapid tooling process for a desired application | ||
| Apply the knowledge of Computer aided design and additive manufacturing for engineering and biomedical applications | ||
| Develop a simple prototype using the principle of additive manufacturing | ||
| CAD/CAM Laboratory | ME730 | Draw simple 3D & 2D views of machine parts using a standard CAD software |
| Analyse simple 1D structural problems using a standard FEM software | ||
| Simulate CNC programs for simple turning and milling operations | ||
| INDUSTRIAL ENGINEERING AND OPERATIONS MANAGEMENT | ME810 | Understand the objectives and techniques of Industrial Engineering and Operations Management |
| Apply techniques of Industrial Engineering and Operations Management for improving methods, establishing work standards, productivity improvement and effective management of Operations | ||
| Analyze work cycles for improving methods and establishing work standards for productivity improvement and Analyze situations using qualitative and quantitative techniques in operations management. | ||
| Evaluate situations to provide solutions to industrial problems. | ||
| ENERGY CONSERVATION AND MANAGEMENT | ME821 | Remember basics of General Aspects of Energy Auditing and Management |
| Understand working principles boilers, waste heat recovery systems, cogeneration, insulation and electrical systems. | ||
| Apply principles of working principles boilers, waste heat recovery systems, cogeneration, insulation and electrical systems. | ||
| Analyze energy economics and performance of thermal and electric utilities | ||
| AUTOMOBILE ENGINEERING | ME822 | Understand the need functioning and purpose of various automotive system. |
| Applying Automobile engineering solutions to performance pollution and safety norms. | ||
| Analyze the vehicle performance in various scenarios. | ||
| Evaluate automotive solutions to Performance, pollution and safety. | ||
| INDUSTRIAL AUTOMATION AND ROBOTICS | ME823 | Understand the basic concepts in industrial robot, machine vision and mobile robots |
| Understand the working principles of robot grippers, sensors, control systems and drives used in industrial robot | ||
| Apply the knowledge of PLC programming for an automatic control system | ||
| Apply spatial transformation to obtain forward kinematics equation and to solve inverse kinematics for robot manipulators | ||
| MAINTENANCE ENGINEERING AND MANAGEMENT | ME824 | Understand Reliability, Availability and Maintainability concepts. |
| Apply Reliability, Availability and Maintainability to product or system. | ||
| Analyze measures of Reliability, Availability and Maintainability | ||
| Evaluate performance of product or system based on Reliability, Availability and Maintainability. | ||
| COMPUTATIONAL FLUID DYNAMICS | ME825 | Remember basics of thermodynamics, Fluid Mechanics and Heat Transfer |
| Understand working principles of Basic governing equations in integral and differential forms | ||
| Apply principles of Two Dimensional Steady and unsteady heat conduction, Convection and Incompressible Fluid Flow | ||
| Analyze CFD as Practical Approach |