18MAT31

1. Use Laplace Transform and Inverse Laplace Transform in solving differential/integral equation arising in network analysis, control systems and other fields of engineering.
2. Demonstrate the Fourier series to study the behavior of periodic functions and their applications in system communications, digital signal processing and field theory. .
3. Make use of Fourier transform and Z-transform to illustrate discrete/continuous function arising in wave and heat propagation, signals and system. .
4.Solve first and second order ordinary differential equations arising in engineering problems using single step and multistep numerical methods. .
5.Determine the externals of functional using calculus of variations and solve problems arising in dynamics of rigid bodies and vibrational analysis.

18ME32

1. Understand simple, compound, thermal stresses and strains their relations and strain energy. .
2. Analyse structural members for stresses, strains and deformations. .
3. Analyse the structural members subjected to bending and shear loads. .
4. Analyse shafts subjected to twisting loads. .
5. Analyse the short columns for stability.

18ME33

1. Explain fundamentals of thermodynamics and evaluate energy interactions across the boundary of thermodynamic systems. .
2. Evaluate the feasibility of cyclic and non-cyclic processes using 2nd law of thermodynamics. .
3. Apply the knowledge of entropy, reversibility and irreversibility to solve numerical problems and apply 1st law of thermodynamics to closed and open systems and determine quantity of energy transfers and change in properties. .
4. Interpret the behavior of pure substances and its application in practical problems. .
5. Recognize differences between ideal and real gases and evaluate thermodynamic properties of ideal and real gas mixtures using various relations.

18ME34

1.Explain the basic organization of a computer system. .
2.Demonstrate functioning of different sub systems, such as processor, Input/output, and memory. .
3.Illustrate hardwired control and micro programmed control, pipelining, embedded and other computing systems. .
4.Design and analyze simple arithmetic and logical units.

18ME35A/45A

1. Explain the construction & specification of various machine tools. .
2. Discuss different cutting tool materials, tool nomenclature & surface finish. .
3. Apply mechanics of machining process to evaluate machining time. .
4. Analyze tool wear mechanisms and equations to enhance tool life and minimize machining cost. .
5. Understand the concepts of different metal forming processes. .
6. Apply the concepts of design of sheet metal dies to design different dies for simple sheet metal components.

18ME35B/45B

1. Describe the casting process and prepare different types of cast products. .
2. Acquire knowledge on Pattern, Core, Gating, Riser system and to use Jolt, Squeeze, Sand Slinger Moulding machines. .
3. Compare the Gas fired pit, Resistance, Coreless, Electrical and Cupola Metal Furnaces. .
4. Compare the Gravity, Pressure die, Centrifugal, Squeeze, slush and Continuous Metal mold castings. .
5. Understand the Solidification process and Casting of Non-Ferrous Metals. .
6. Describe the Metal Arc, TIG, MIG, Submerged and Atomic Hydrogen Welding processes etc. used in manufacturing. .
7. Describe methods for the quality assurance of components made of casting and joining process

18ME36A/46A

1. Identify the national and international standards pertaining to machine drawing. .
2. Understand the importance of the linking functional and visualization aspects in the preparation of the part drawings.
3. Apply limits and tolerances to assemblies and choose appropriate fits for given assemblies.
4. Interpret the Machining and surface finish symbols on the component drawings.
5. Preparation of the part or assembly drawings as per the conventions.

18ME36B/46B

1. Understand the objectives of metrology, methods of measurement, standards of measurement & various measurement parameters. .
2. Explain tolerance, limits of size, fits, geometric and position tolerances, gauges and their design.
3. Understand the working principle of different types of comparators.
4. Describe measurement of major & minor diameter, pitch, angle and effective diameter of screw threads.
5. Explain measurement systems, transducers, intermediate modifying devices and terminating devices.
6. Describe functioning of force, torque, pressure, strain and temperature measuring devices.

18MEL37A/47A

1. Acquire experimentation skills in the field of material testing.
2. Develop theoretical understanding of the mechanical properties of materials by performing experiments.
3. Apply the knowledge to analyse a material failure and determine the failure inducing agent/s.
4. Apply the knowledge of testing methods in related areas.
5. Understand how to improve structure/behaviour of materials for various industrial applications.

18MEL37B/47B

1. Understand Calibration of pressure gauge, thermocouple, LVDT, load cell, micrometre.
2. Apply concepts of Measurement of angle using Sine Centre/ Sine Bar/ Bevel Protractor, alignment using Autocollimator/ Roller set.
3. Demonstrate measurements using Optical Projector/Tool maker microscope, Optical flats.
4. Analyse tool forces using Lathe/Drill tool dynamometer.
5. Analyse Screw thread parameters using 2-Wire or 3-Wire method, gear tooth profile using gear tooth Vernier/Gear tooth micrometre
6. Understand the concepts of measurement of surface roughness.

18MEL38A/48A

1. To read working drawings, understand operational symbols and execute machining operations.
2. Prepare fitting models according to drawings using hand tools- V-block, marking gauge, files, hacksaw, drills etc.
3. Understand integral parts of lathe, shaping and milling machines and various accessories and attachments used.
4. Select cutting parameters like cutting speed, feed, depth of cut, and tooling for various machining operations.
5. Perform cylindrical turning operations such as plain turning, taper turning, step turning, thread Cutting, facing, knurling, internal thread cutting, eccentric turning and estimate cutting time.
6.Perform machining operations such as plain shaping, inclined shaping, keyway cutting, Indexing and

18MEL38B/48B

1. Demonstrate various skills in preparation of molding sand for conducting tensile, shear and compression tests using Universal sand testing machine.
2. Demonstrate skills in determining permeability, clay content and Grain Fineness Number of base sands.
3. Demonstrate skills in preparation of forging models involving upsetting, drawing and bending operations.

18CPC39/49

1. Have constitutional knowledge and legal literacy.
2. Understand Engineering and Professional ethics and responsibilities of Engineers.
3. Understand the cybercrimes and cyber laws for cyber safety measures.

18MATDIP31

1. Apply concepts of complex numbers and vector algebra to analyze the problems arising in related area.
2. Use derivatives and partial derivatives to calculate rate of change of multivariate functions.
3. Analyze position, velocity and acceleration in two and three dimensions of vector valued functions.
4. Learn techniques of integration including the evaluation of double and triple integrals.
5. Identify and solve first order ordinary differential equations.

18MAT41

1. Use the concepts of analytic function and complex potentials to solve the problems arising in electromagnetic field theory.
2. Utilize conformal transformation and complex integral arising in aerofoil theory, fluid flow visualization and image processing.
3. Apply discrete and continuous probability distributions in analyzing the probability models arising in engineering field.
4. Make use of the correlation and regression analysis to fit a suitable mathematical model for the statistical data.
5. Construct joint probability distributions and demonstrate the validity of testing the hypothesis.

18ME42

1. Apply thermodynamic concepts to analyze the performance of gas power cycles.
2. Apply thermodynamic concepts to analyze the performance of vapour power cycles.
3. Understand combustion of fuels and performance of I C engines.
4. Understand the principles and applications of refrigeration systems.
5. Apply Thermodynamic concepts to determine performance parameters of refrigeration and air-conditioning systems.
6. Understand the working principle of Air compressors and Steam nozzles, applications, relevance of air and identify methods for performance improvement.

18ME43

1. Identify and calculate the key fluid properties used in the analysis of fluid behavior.
2. Explain the principles of pressure, buoyancy and floatation
3. Apply the knowledge of fluid statics, kinematics and dynamics while addressing problems of mechanical and chemical engineering.
4. Describe the principles of fluid kinematics and dynamics.
5. Explain the concept of boundary layer in fluid flow and apply dimensional analysis to form dimensionless numbers in terms of input output variables.
6. Illustrate and explain the basic concept of compressible flow and CFD

18ME44

1. Knowledge of mechanisms and their motion.
2. Understand the inversions of four bar mechanisms.
3. Analyse the velocity, acceleration of links and joints of mechanisms.
4. Analysis of cam follower motion for the motion specifications.
5. Understand the working of the spur gears.
6. Analyse the gear trains speed ratio and torque.

18ME51

1. Understand needs, functions, roles, scope and evolution of Management .
2. Understand importance, purpose of Planning and hierarchy of planning and also54nalyse its types.
3. Discuss Decision making, Organizing, Staffing, Directing and Controlling.
4. Select the best economic model from various available alternatives.
5. Understand various interest rate methods and implement the suitable one.
6. Estimate various depreciation values of commodities.
7. Prepare the project reports effectively.

18ME52

1. Apply the concepts of selection of materials for given mechanical components.
2. List the functions and uses of machine elements used in mechanical systems.
3. Apply codes and standards in the design of machine elements and select an element based on the Manufacturer’s catalogue.
4. Analyse the performance and failure modes of mechanical components subjected to combined loading and fatigue loading using the concepts of theories of failure.
5. Demonstrate the application of engineering design tools to the design of machine components like shafts, couplings, power screws, fasteners, welded and riveted joints.
6. Understand the art of working in a team.

18ME53

1. Analyse the mechanisms for static and dynamic equilibrium.
2. Carry out the balancing of rotating and reciprocating masses
3. Analyse different types of governors used in real life situation.
4. Analyse the gyroscopic effects on disks, airplanes, stability of ships, two and four wheelers
5. Understand the free and forced vibration phenomenon.
6. Determine the natural frequency, force and motion transmitted in vibrating systems.

18ME54

1. Model studies and thermodynamics analysis of turbomachines.
2. Analyse the energy transfer in Turbo machine with degree of reaction and utilisation factor.
3. Classify, analyse and understand various type of steam turbine.
4. Classify, analyse and understand various type of hydraulic turbine.
5. Understand the concept of radial power absorbing machine and the problems involved during its operation.

18ME55

1. Identify and analyse the functional requirements of a fluid power transmission system for a given application.
2. Visualize how a hydraulic/pneumatic circuit will work to accomplish the function.
3. Design an appropriate hydraulic or pneumatic circuit or combination circuit like electro-hydraulics, electro- pneumatics for a given application.
4. Select and size the different components of the circuit.
5. Develop a comprehensive circuit diagram by integrating the components selected for the given application.

18ME56

1. Explain the concept and scope of operations management in a business context
2. Recognize the role of Operations management among various business functions and its role in the organizations’ strategic planning and gaining competitive advantage.
3. Analyze the appropriateness and applicability of a range of operations management systems/models in decision making.
4. Assess a range of strategies for improving the efficiency and effectiveness of organizational operations.
5. Evaluate a selection of frameworks used in the design and delivery of operations

18MEL57

1. Perform experiments to determine the coefficient of discharge of flow measuring devices.
2. Conduct experiments on hydraulic turbines and pumps to draw characteristics.
3. Test basic performance parameters of hydraulic turbines and pumps and execute the knowledge in real life situations.
4. Determine the energy flow pattern through the hydraulic turbines and pumps.
5. Exhibit his competency towards preventive maintenance of hydraulic machines.

18MEL58

1. Perform experiments to determine the properties of fuels and oils.
2. Conduct experiments on engines and draw characteristics.
3. Test basic performance parameters of I.C. Engine and implement the knowledge in industry.
4. Identify exhaust emission, factors affecting them and exhibit his competency towards preventive maintenance of IC engines.

18CIV59

1. Understand the principles of ecology and environmental issues that apply to air, land, and water issues on a global scale,
2. Develop critical thinking and/or observation skills, and apply them to the analysis of a problem or question related to the environment.
3. Demonstrate ecology knowledge of a complex relationship between biotic and abiotic components.
4. Apply their ecological knowledge to illustrate and graph a problem and describe the realities that managers face when dealing with complex issues.

18ME61

1. Identify the application and characteristics of FEA elements such as bars, beams, plane and isoparametric elements.
2. Develop element characteristic equation and generation of global equation.
3. Formulate and solve Axi-symmetric and heat transfer problems.
4. Apply suitable boundary conditions to a global equation for bars, trusses, beams, circular shafts, heat transfer, fluid flow, axi-symmetric and dynamic problems

18ME62

1. Apply design principles for the design of mechanical systems involving springs, belts, pulleys, and wire ropes.
2. Design different types of gears and simple gear boxes for relevant applications.
3. Understand the design principles of brakes and clutches.
4. Apply design concepts of hydrodynamic bearings for different applications and select Anti friction bearings for different applications using the manufacturers, catalogue.
5. Apply engineering design tools to product design.
6. Become good design engineers through learning the art of working in a team.

18ME63

1. Understand the modes of heat transfer and apply the basic laws to formulate engineering systems.
2. Understand and apply the basic laws of heat transfer to extended surface, composite material and unsteady state heat transfer problems.
3. Analyze heat conduction through numerical methods and apply the fundamental principle to solve radiation heat transfer problems.
4. Analyze heat transfer due to free and forced convective heat transfer.
5. Understand the design and performance analysis of heat exchangers and their practical applications, Condensation and Boiling phenomena.

18ME641

1. Understand the compare traditional and non-traditional machining process and recognize the need for Non- traditional machining process.
2. Understand the constructional features, performance parameters, process characteristics, applications, advantages and limitations of USM, AJM and WJM.
3. Identify the need of Chemical and electro-chemical machining process along with the constructional features, process parameters, process characteristics, applications, advantages and limitations.
4. Understand the constructional feature of the equipment, process parameters, process characteristics, applications, advantages and limitations EDM & PAM.
5. Understand the LBM equipment, LBM parameters, and characteristics. EBM equipment and mechanism of metal removal, applications, advantages and limitations LBM & EBM.

18ME642

1. Illustrate the principles, nomenclature and applications of refrigeration systems.
2. Explain vapour compression refrigeration system and identify methods for performance improvement
3. Study the working principles of air, vapour absorption, thermoelectric and steam-jet and thermoacoustic refrigeration systems.
4. Estimate the performance of air-conditioning systems using the principles of psychrometry.
5. Compute and Interpret cooling and heating loads in an air-conditioning system. 6. Identify suitable refrigerant for various refrigerating systems.

18ME643

1. Understand the Basic field equations of linear elastic solids, force, stress, strain and equilibrium in solids.
2. Analyse the 2D structural elements, beams, cylinders.
3. Use analytical techniques to predict deformation, internal force and failure of simple solids and structural components.
4. Analyse the axisymmetric structural elements.
5. Analyse the structural members subjected to torsion
6. Determine the thermal stresses in plain stress and plane stain conditions.

18ME644

1. Characterize the single and multi-degrees of freedom systems subjected to free and forced vibrations with and without damping.
2. Apply the method of vibration measurements and its controlling. 3. Determine vibratory responses of SDOF and MDOF systems to harmonic, periodic and non-periodic excitation.
4. Analyze the mathematical model of a linear vibratory system to determine its response.
5. Obtain linear mathematical models of real life engineering systems.
6. Apply the principles of vibration and noise reduction techniques to real life engineering problems.

18ME645

1. Use different types of manufacturing processes in the preparation of composite materials
2. Analyze the problems on macro mechanical 88ehavior of composites
3. Analyze the problems on micromechanical 88ehavior of Composites
4. Determine stresses and strains relation in composites materials.
5. Understand and effective use of properties in design of composite structures
6. Perform literature search on a selected advanced material topic.

18ME646

1. understand the concept of Entrepreneur and Entrepreneurship and relevant roles
2. learn creativity and entrepreneurial plan including Project Feasibility and Project Appraisal
3. understand Corporate entrepreneurship and issues related to Corporate entrepreneurship.
4. understand Family and Non Family Entrepreneur & Women entrepreneurs and women entrepreneurs in India
5. understand International Entrepreneurship Opportunities and Case studies on Indian Start ups

18ME651

1. Describe the environmental aspects of non-conventional energy resources. In Comparison with various conventional energy systems, their prospects and limitations.
2. Know the need of renewable energy resources, historical and latest developments.
3. Describe the use of solar energy and the various components used in the energy production with respect to applications like-heating, cooling, desalination, power generation, drying, cooking etc.
4. Appreciate the need of Wind Energy and the various components used in energy generation and know the classifications.
5. Understand the concept of Biomass energy resources and their classification, types of biogas Plants applications
6. Compare Solar, Wind and bio energy systems, their prospects, Advantages and limitations.
7. Acquire the knowledge of fuel cells, wave power, tidal power and geothermal principles and applications.

18ME652

1. Understand recent trends in manufacturing.
2. Demonstrate the relevance and basics of World Class Manufacturing.
3. Understand customization of product for manufacturing.
4. Understand the implementation of new technologies.
5. Compare the existing industries with WCM industries.

18ME653

1. Understand the framework and scope of supply chain management.
2. Build and manage a competitive supply chain using strategies, models, techniques and information technology.
3. Plan the demand, inventory and supply and optimize supply chain network.
4. Understand the emerging trends and impact of IT on Supply chain.

18ME654

1. Explain the concepts and principles of advanced materials and manufacturing processes.
2. Understand the applications of all kinds of Industrial materials.
3. Apply the material selection concepts to select a material for a given application.
4. Define Nanotechnology, Describe nano material characterization.
5. Understand the behaviour and applications of smart materials, ceramics, glasses and non-metallic materials.

18MEL66

1. Use the modern tools to formulate the problem, create geometry, descritize, apply boundary conditions to solve problems of bars, truss, beams, and plate to find stresses with different-loading conditions.
2. Demonstrate the ability to obtain deflection of beams subjected to point, uniformly distributed and varying loads and use the available results to draw shear force and bending moment diagrams.
3. Analyze and solve 1D and 2D heat transfer conduction and convection problems with different boundary conditions.
4. Carry out dynamic analysis and finding natural frequencies of beams, plates, and bars for various boundary conditions and also carry out dynamic analysis with forcing functions.

18MEL67

1. Determine the thermal conductivity of a metal rod and overall heat transfer coefficient of composite slabs.
2. Determine convective heat transfer coefficient for free and forced convection and correlate with theoretical values.
3. Evaluate temperature distribution characteristics of steady and transient heat conduction through solid cylinder experimentally.
4. Determine surface emissivity of a test plate and Stefan Boltzmann constant
5. Estimate performance of a refrigerator and effectiveness of a fin and Double pipe heat exchanger

18ME71

1. Identify the type of control and control actions.
2. Develop the mathematical model of the physical systems.
3. Estimate the response and error in response of first and second order systems subjected standard input signals.
4. Represent the complex physical system using block diagram and signal flow graph and obtain transfer function.
5. Analyse a linear feedback control system for stability using Hurwitz criterion, Routh’s criterion and root Locus technique in complex domain.
6. Analyse the stability of linear feedback control systems in frequency domain using polar plots, Nyquist and Bode plots.

18ME72

1. Define Automation, CIM, CAD, CAM and explain the differences between these concepts. Solve simple problems of transformations of entities on computer screen.
2. Explain the basics of automated manufacturing industries through mathematical models and analyze different types of automated flow lines.
3. Analyse the automated flow linestoreduce time and enhance productivity.
4. Explain the use of different computer applications in manufacturing, and able to prepare part programs forsimple jobs on CNC machine tools and robot programming.
5. Visualize and appreciate the modern trends in Manufacturing like additive manufacturing, Industry 4.0 and applications of Internet of Things leading to Smart Manufacturing.

18ME731

1. Select proper materials and manufacturing processes for designing products/components by applying the relevant principles for ease and economic production.
2. Identify faulty design factors leading to increased costs in producing mechanical components.
3. Apply appropriate design tolerances – dimensional, geometric and true position tolerances for the production processes of mechanical components.
4. Apply the concepts related to reducing machined areas, simplification by amalgamation and separation, clampability, accessibility etc., in the design of mechanical components.
5. Analyse the design of castings, weldments, forgings, powder metallurgy components and suggest design modifications to reduce the cost.

18ME732

1. Translate and simulate a real time activity using modern tools and discuss the Benefits of automation.
2. Identify suitable automation hardware for the given application.
3. Recommend appropriate modelling and simulation tool for the given manufacturing Application.
4. Explain the basic principles of Robotic technology, configurations, control and Programming of Robots.
5. Explain the basic principles of programming and apply it for typical Pick & place, Loading & unloading and palletizing applications

18ME733

1. Understand mathematical characteristics of partial differential equations.
2. Explain how to classify and computationally solve Euler and Navier-Stokes equations.
3. Make use of the concepts like accuracy, stability, consistency of numerical methods for the governing equations.
4. Identify and implement numerical techniques for space and time integration of partial differential equations.
5. Conduct numerical experiments and carry out data analysis.
6. Acquire basic skills on programming of numerical methods used to solve the Governing equations.

118ME734

1. Explain the various approaches of TQM.
2. Infer the customer perception of quality.
3. Analyse customer needs and perceptions to design feedback systems.
4. Apply statistical tools for continuous improvement of systems
5. Apply the tools and technique for effective implementation of TQM.

18ME735

1. Understand the meaning, definitions, scope, need, phases and techniques of operations research.
2. Formulate as L.P.P and derive optimal solutions to linear programming problems by graphical method,Simplex method, Big-M method and Dual Simplex method.
3. Formulate as Transportation and Assignment problems and derive optimum solutions for transportation, Assignment and travelling salesman problems.
4. Solve problems on game theory for pure and mixed strategy under competitive environment.
5. Solve waiting line problems for M/M/1 and M/M/K queuing models.
6. Construct network diagrams and determine critical path, floats for deterministic and PERT networks including crashing of Networks.
7. Determine minimum processing times for sequencing of n jobs-2 machines, n jobs-3 machines, n jobs-m machines and 2 jobs-n machines using Johnson’s algorithm.

18ME741

1. Demonstrate the knowledge of the broad range of AM processes, devices, capabilities and materials that are available.
2. Demonstrate the knowledge of the broad range of AM processes, devices, capabilities and materials that are available.
3. Understand the various software tools, processes and techniques that enable advanced/additive manufacturing.
4. Apply the concepts of additive manufacturing to design and create components that satisfy product development/prototyping requirements, using advanced/additive manufacturing devices and processes.
5. Understand characterization techniques in additive manufacturing.
6. Understand the latest trends and business opportunities in additive manufacturing.

18ME742

1. Empathize with sustainable cooling as a means of enhancing social justice in India and mitigating climate change through their intellectual capabilities and ethical orientation
2. Compute and Interpret cooling and heating loads in a building and how they could be efficiently managed by using building energy modelling software
3. Estimate the performance of airconditioning systems using the principles of thermodynamics, heat transfer, and psychometry
4. Calculate and interpret the energy, cost, and greenhouse gas emissions performance of conventional and sustainable cooling technologies.
5. Conduct building and sustainable cooling modelling projects on a sophisticated building energy modelling software.

18ME743

b>1. Understand stress, strain, deformations, relation between stress and strain and plastic deformation in solids.
2. Understand plastic stress-strain relations and associated flow rules.
3. Perform stress analysis in beams and bars including Material nonlinearity.
4. Analyze the yielding of a material according to different yield theory for a given state of stress.
5. Interpret the importance of plastic deformation of metals in engineering problems.

18ME744

1. Illustrate various components of Mechatronics systems.
2. Assess various control systems used in automation.
3. Design and conduct experiments to evaluate the performance of a mechatronics system or component with respect to specifications, as well as to analyse and interpret data.
4. Apply the principles of Mechatronics design to product design.
5. Function effectively as members of multidisciplinary teams.

18ME745

1. Understand the selection, prioritization and initiation of individual projects and strategic role of project management.
2. Understand the work breakdown structure by integrating it with organization.
3. Understand the scheduling and uncertainty in projects.
4. Understand risk management planning using project quality tools.
5. Understand the activities like purchasing, acquisitions, contracting, partnering and collaborations related to performing projects.
6. Determine project progress and results through balanced scorecard approach
7. Draw the network diagram to calculate the duration of the project and reduce it using crashing.

18ME751

1. Understand energy scenario, energy sources and their utilization.
2. Understand various methods of energy storage, energy management and economic analysis.
3. Analyse the awareness about environment and eco system.
4. Understand the environment pollution along with social issues and acts.

18ME752

1. Identify the different parts of an automobile and it’s working.
2. Understand the working of transmission and braking systems.
3. Understand the working of steering and suspension systems and their applications.
4. Selection and applications of various types of fuels and injection systems.
5.Analyse the cause of automobile emissions, its effects on environment and methods to reduce the emissions.

18ME753

1. Understand the basic safety terms and international standards.
2. Identify the hazards and risk analysis around the work environment and industries.
3. Use the safe measures while performing work in and around the work area of the available laboratories. Able to recognize the sign boards and its application
4. Recognise the types of fires extinguishers and to demonstrate the portable extinguishers used for different classes of fires.
5. Report the case studies by sharing experience of the employees working in housekeeping, laboratories like workshops, electrical labs, machine shops, electronics and computer laboratories.
6. Recognise the chemical and electrical hazards for its prevention and control.

18ME754

1. Define and use optimization terminology, concepts, and understand how to classify an optimization problem.
2. Understand how to classify an optimization problem.
3. Apply the mathematical concepts formulate the problem of the systems.
4. Analyse the problems for optimal solution using the algorithms.
5. Interpret the optimum solution.

18MEL77

1. Compute the natural frequency of the free and forced vibration of single degree freedom systems, critical speed of shafts.
2. Carry out balancing of rotating masses.
3. Analyse the governor characteristics.
4. Determine stresses in disk, beams, plates and hook using photo elastic bench.
5. Determination of Pressure distribution in Journal bearing
6. Analyse the stress and strains using strain gauges in compression and bending test and stress distribution in curved beams.

18ME81

1. Understand the construction and working of steam generators and their accessories.
2. Identify renewable energy sources and their utilization.
3. Understand principles of energy conversion from alternate sources including wind, geothermal, ocean, biomass, nuclear, hydel and tidal.

18ME821

1. Understand evolution, classification and principles of CNC machine tools.
2. Learn constructional details of CNC machine tools, selection of standard components used for CNC machine tools for accuracy and productivity enhancement.
3. Select drives and positional transducers for CNC machine tools.
4. Apply CNC programing concepts of for two axis turning centers and three axis vertical milling centers to generate programs different components.
5. Generate CNC programs for popular CNC controllers.
6. Analyse and select tooling and work holding devices for different components to be machined on CNC machine tools.

18ME822

1. Understand the fundamentals of tribology and associated parameters.
2. Apply concepts of tribology for the performance analysis and design of components experiencing relative motion.
3. Analyse the requirements and design hydrodynamic journal and plane slider bearings for a given application.
4. Select proper bearing materials and lubricants for a given tribological application.
5. Apply the principles of surface engineering for different applications of tribology.

18ME823

1. Classify various 144on-destructive testing methods.
2. Check different metals and alloys by visual inspection method.
3. Explain and perform non-destructive tests like: Liquid penetrant test, Magnetic particle test, Ultrasonic test, X- ray and Gamma ray radiography, Leak Test, Eddy current test.
4. Identify defects using relevant NDT methods.
5. Differentiate various defect types and select the appropriate NDT methods for better evaluation.
6. Document the testing and evaluation of the results.

18ME824

1. To identify the different parts of an automobile and it’s working
2. To understand the working of transmission and braking systems
3. To comprehend the working of steering and suspension systems
4. To learn various types of fuels and injection systems
5. To know the cause of automobile emissions, its effects on environment and methods to reduce the emissions.

18ME825

1. Select appropriate cutting tools required for producing a component.
2. Understand and interpret cutting tool and tool holder designation systems.
3. Select suitable locating and clamping devices for a given component for various operations.
4. Analyze and design a jig/fixture for a given simple component.
5. Understand various press tools and press tool operations.
6. Classify and explain various die casting and injection moulding dies

18ME826

1. Analyse the effects of crack like defects on the performance of Aerospace, Civil, and Mechanical Engineering structures.
2. Apply the concepts of fracture mechanics to select appropriate materials for engineering structures to insure damage tolerance.
3. Understand mechanics of crack tip fields and appropriate fracture characterizing parameters like stress intensity factor and J integral or nonlinear energy release rate and how to compute them using various methods.
4. Apply the concepts of fracture mechanics to determine critical crack sizes and fatigue crack propagation rates in engineering structures leading to life estimation.
5. Understand the status of academic research in field of fracture mechanics.