COURSE OUTCOMES

Mechanical Engineering (For Anna University Curriculum Regulation-2013) 

Course Name: C101 (HS6151/ TECHNICAL ENGLISH – I)
CO COURSE OUTCOMES
C101.1 Apply the collaborative and social aspects of research and writing processes
 

C101.2

 Comprehend that research and writing is a series of tasks, including accessing, retrieving, evaluating, analyzing, and synthesizing appropriate data and information from sources that vary in content, format, structure, and scope
C101.3 Use appropriate technologies to organize, present, and communicate information to address a range of audiences, purposes, and genres.
C101.4 Explain the relationships among language, knowledge, and power including social, cultural, historical, and economic issues related to information, writing, and technology.
C101.5 Demonstrate the role of a variety of technologies/media in accessing, retrieving, managing, and communicating information.
Course Name: C102 (MA6151/ Mathematics – I)
 

CO

 COURSE OUTCOMES
C102.1 Find the Eigen values and Eigen vectors to diagonalise and reduce a matrix to quadratic form
 

C102.2

  

Check the convergences, divergences of infinite series
C102.3 Obtain the evolutes and envelopes of a given curve by using radius of curvature and center of curvature
C102.4 Calculate the maxima and minima value for functions of two variables
C102.5 Find the area of plane curves and volume of solids using double and triple integrals
Course Name: C103 (PH6151/ ENGINEERING PHYSICS I)
 

CO

 COURSE OUTCOMES
C103.1 Classify the Bravais lattices and different types of crystal structures and growth techniques
 

C103.2

  

Demonstrate the properties of elasticity and heat transfer through objects
C103.3 Explain black body radiation, properties of matter waves and Schrodinger wave equations
C103.4 Illustrate the acoustic requirements, production and application of ultrasonic’s.
C103.5 Examine the characteristics of laser and optical fiber
Course Name: C104 (CY6151 / ENGINEERING CHEMISTRY I)
 

CO

 COURSE OUTCOMES
C104.1 Classify the polymers and their utility in the industries and describe the techniques of polymerization and properties of polymers
 

C104.2

 Relate various thermodynamic functions such as enthalpy, entropy, free energy and their important and equilibrium constant and its significance.
C104.3 Explain the photo physical processes such as fluorescence and phosphorescence and various components of UV and IR spectrophotometer
C104.4 Illustrate the phase transitions of one component and two component systems and the types of alloys and their application in industries
C104.5 Outline the synthesis, characteristics and the applications of nano materials
Course Name: C105 (GE6151/Computer Programming)
 

CO

 COURSE OUTCOMES
C105.1 Explain the components of computer and logical operations.
 

C105.2

 Convert the number system and their representation.
C105.3 Discuss hardware and software devices
C105.4 Summarize network fundamentals.
C105.5 Plan the logic using flowchart and develop algorithm to write a C Program.
Course Name: C106 (GE6152/Engineering Graphics)
 

CO

 COURSE OUTCOMES
C106.1 Sketch the conic sections, special curves, and draw orthographic views from pictorial views and models.
C106.2 Apply the principles of orthographic projections of points in all quadrants, lines and planes in first quadrant.
C106.3 Sketch the projections of simple solids like prisms, pyramids, cylinder and cone and obtain the traces of plane figures.
C106.4 Practice the sectional views of solids like cube, prisms, pyramids, cylinders & cones and extend its lateral surfaces.
C106.5 Sketch the    perspective projection of simple solids, truncated prisms, pyramids, cone and cylinders and sketch the isometric projection of simple machine parts.
Course Name: C107 (GE6161/Computer Practices Laboratory)
 

CO

 COURSE OUTCOMES
C107.1 Prepare data using MS-word & Excel to visualize graphs, charts in MS-Excel.
 

C107.2

 Outline the logic using flowchart for a given problem and to program using Switch case & Control structures
C107.3 Develop logic using decision making & looping statements
C107.4 Apply passing parameters using Arrays & Functions
C107.5 Construct structure and Union for a given database and to bring out the importance of Unions over structure
Course Name: C108 (GE6162/Engineering Practices Laboratory)
 

CO

 COURSE OUTCOMES
C108.1 Apply the knowledge of pipeline connections to household fittings and industrial buildings.
 

C108.2

  

Prepare the different joints in roofs, doors, windows and furniture.
C108.3  

Perform step turning operation in a lathe.
C108.4  

Perform the various welding processes and know about its applications.
C108.5 Produce a funnel using sheet metal.
Course Name: C109 (GE6163/Physics and Chemistry Laboratory – I)
CO COURSE OUTCOMES
C109.1 Evaluate the wavelength of spectral lines using spectrometer , the wavelength of laser, particle size, acceptance angle of an optical fiber using semiconductor diode laser.
 

C109.2

 Appraise the velocity of sound and compressibility of the liquid using ultrasonic interferometer and thermal conductivity for bad conductors using Lee’s disc apparatus.
C109.3 Determine the DO content in water sample by winkler’s method and molecular weight of polymer

by Ostwald viscometer.
C109.4  

Find the strength of an acid using pH meter and conductometer
C109.5 Estimate the amount of weak and strong acids in a mixture by conductometer
Course Name: C110 (HS6251/Technical English – II)
CO COURSE OUTCOMES
C110.1 speak clearly, confidently, comprehensibly, and communicate with one or many listeners using appropriate communicative strategies
 

C110.2

 Write cohesively and coherently and flawlessly avoiding grammatical errors, using a wide vocabulary range, organizing their ideas logically on a topic.
C110.3 Read different genres of texts adopting various reading strategies.
C110.4 listen/view and comprehend different spoken discourses/excerpts in different accents
C110.5 Recognize, understand, and analyze the context within which language, information, and knowledge are produced, managed, organized, and disseminated.
Course Name: C111 (MA6251/Mathematics – II)
CO COURSE OUTCOMES
C111.1 Find solenoidal, irrotational vectors and explain the concept of Green’s , Gauss divergence, Stoke’s theorem to evaluate , single double and triple integrals.
 

C111.2

 Obtain the P.I of Cauchy and Legendre Equation, explain the method of Variation of Parameters and solve simultaneous linear equations.
C111.3 Evaluate Laplace Transforms of periodic functions and solve ODE using Inverse Laplace Transform.
C111.4 Recall the properties of analytic functions for verifying C-R equations and determine Bilinear Transformation
C111.5 Expand functions of two variables as Taylor’s and Laurent’s series and evaluate Contour integrals using Cauchy’s formula
Course Name: C112 (PH6251/Engineering Physics – II)
CO COURSE OUTCOMES
C112.1 Illustrate Classical and Quantum free electron theory & calculate carrier concentration in metals.
 

C112.2

 Describe the carrier concentration in semiconductors and identify the P-type & N-type semiconductor using Hall effect
C112.3 Classify the different types of magnetic and superconducting materials
C112.4 Explain the dielectrics, types of polarization, losses and breakdowns
C112.5 Discuss the properties, preparation and applications of Metallic Alloys, SMA, Nano materials, NLO, Biomaterials
Course Name: C113 (CY6251/Engineering Chemistry – II)
CO COURSE OUTCOMES
C113.1 Explain the problems of using hard water in boilers and methods of treatment of water for boiler use.
 

C113.2

 Design the electro chemical cells and to identify the types of corrosion and the methods of preventing
C113.3  

Illustrate the methods of harnessing energy from non-conventional energy sources
C113.4 Classify various engineering materials and their important
C113.5 Relate the significance of solid, liquid and gaseous fuels and to calculate the calorific values of fuels and the requirement of air for combustion in furnaces.
Course Name: C114 (GE6252/Basic Electrical and Electronics Engineering)
CO COURSE OUTCOMES
C114.1 Explain the working of measuring instruments and solve the basic dc and ac circuits.
 

C114.2

 Describe the operation of dc generators, motors, single phase induction motors and transformers.
C114.3 Clarify the working of basic electronic devices such as diode, transistor and rectifier.
C114.4 Demonstrate operation of digital devices such as logic gates, counters, flip-flops analog to digital converts and digital to analog converters.
C114.5 Justify the knowledge on working of communication systems such as radio, radar, fax and television.
Course Name: C115 (GE6261/ Engineering Mechanics)
CO COURSE OUTCOMES
C115.1 Determine the equilibrium of a particle in space using principle of laws of mechanics.
C115.2 Compute the equilibrium of rigid bodies in two dimensions and in three dimensions.
C115.3 Calculate the principal moment of inertia of plane areas.
C115.4 Solve the problems using equation of motions and analyze impact of elastic bodies on collision.
C115.5 Solve the problems of simple system with sliding friction and calculate linear and angular acceleration of moving body in general plane motion.
Course Name: C116 (GE6261/Computer Aided Drafting and Modeling Laboratory)
CO COURSE OUTCOMES
C116.1 Sketch simple figures with title block using AutoCAD software commands.
C116.2 Sketch curves like parabola, spiral and involute of square & circle and draw the orthographic projection of simple solids.
C116.3 Prepare orthographic projection of simple machine parts and draw a plan of residential building.
C116.4 Sketch simple steel truss and sectional views of simple solids.
C116.5 Prepare 2D multi view drawing from 3D model.
Course Name: C117 (GE6262/Physics and Chemistry Laboratory – II)
 

CO

 COURSE OUTCOMES
C117.1 Appraise  the  Young’s  modulus  of  the  beam by uniform  and               non-uniform bending method, the moment inertia and rigidity modules for thin wire Torsion pendulum
C117.2 Use Poiseuille’s method for determining the coefficient of viscous city of the liquid
C117.3 Evaluate the refractive index of spectral lines for determining the dispersive power of a prism and the thickness of a thin wire through interference fringers using Air wedge apparatus.
C117.4 Determine the type, amount of alkalinity, hardness in given water sample and evaluate the amount of copper using EDTA method.
C117.5 Examine the potentiometeric redox titration and conductometric preciption titration.
Course Name: C201(MA6351 / Transforms and Partial Differential Equations)
CO COURSE OUTCOMES
C 201.1 Solve first, second order homogeneous and non-homogeneous partial differential equations
C 201.2 Find the Fourier series of a given function satisfying Dirchlet’s condition
C201.3 Apply Fourier series to solve one dimensional way, one and two dimensional heat equation
C201.4 Determine Fourier transform for a given function and use them to evaluate certain definite integrals
C201.5 Determine z transforms of standard functions and use them to solve difference equations.
Course Name: C202 (CE6306 / Strength of Materials)
CO COURSE OUTCOMES
C202.1 Apply the principles of solid mechanics, to determine the behavior of components for applied load.
C202.2 Compute the shear force and bending moment for different types of beams with various load condition and also sketch the SF and BM diagram.
C202.3 Calculate the strain energy, stress distribution & deformation in spring and shaft.
C202.4 Use the appropriate method to determine slope and beam deflection for different beam sections.
 

C202.5

 Solve the problem in principal planes & stresses using analytical & graphical method and determine the different types of stresses involved in thick cylinders & thin cylinders.
Course Name: C203 (ME6301 / Engineering Thermodynamics)
CO COURSE OUTCOMES
C203.1 Apply first law of thermodynamics for closed systems and flow process.
C203.2 Calculate thermal efficiencies of heat engine.
C203.3 Calculate work done and heat transfer for flow and non-flow process.
C 203.4 Produce TDS relations from Maxwell’s relations.
C 203.5 Calculate properties of air vapor mixture using mathematical knowledge and psychometric chart.
Course Name: C204 (CE6451 / Fluid Mechanics and Machinery)
CO COURSE OUTCOMES
C204.1 Calculate fluid properties and characteristics of flow using mathematical knowledge.
C204.2 Compute loses in circular conduits using conservation laws.
C204.3 Perform dimensional analysis of a given set of variables using Buckingham’s π theorem and relate the model and prototype.
C204.4 Analyze the performance of pumps.
C204.5 Analyze the performance of hydraulic machines.
CourseName:C205(ME6302 / Manufacturing Technology – I)
CO COURSE OUTCOMES
C205.1 Explain the process of making patterns, preparation of sand mould, various special casting processes and casting defects.
C205.2 Describe various fusion, friction and special welding processes, soldering and brazing processes.
C205.3 Employ the appropriate metal forming techniques to produce components like hexagonal bolt, nut etc.,
C205.4 Illustrate the various sheet metal forming processes for a specific application.
C205.5 Describe the properties and bonding techniques of plastics and various plastic molding techniques.
Course Name: C206(EE6351 / Electrical Drives and Controls)
CO COURSE OUTCOMES
C206.1 Select the rating and classes of duty of machines for particular application electrical drive and draw the heating and cooling curves.
C206.2 Explain the mechanical and braking characteristics of dc and ac machines for particular application of electrical drive.
C206.3 Describe the starting methods of both dc and ac machines.
C206.4 Clarify conventional and solid state speed control of dc drives.
C206.5 Enlighten the speed control of dc and ac drive by conventional and solid state methods.
Course Name: C207(ME6311 / Manufacturing Technology Laboratory – I)
CO COURSE OUTCOMES
C207.1 Perform the taper turning operation for a given specification.
C207.2 Perform thread cutting operation as per the diagrams and compare with standard thread gauges.
C207.3 Calculate the eccentricity value for the required stroke length and practice eccentricity turning operation in a lathe.
C207.4 Produce square head using shaper machine as per given drawing and estimate the machining time.
C207.5 Calculate the material removal rate and perform Hexagonal head shaping on a given cylindrical work piece as per given drawing.
Course Name: C208(CE6461 / Fluid Mechanics and Machinery Laboratory)
CO COURSE OUTCOMES
C208.1 Calculate the coefficient of discharge for Orifice meter and Venturimeter.
C208.2 Calibrate the Rota meter and Estimate the friction factor for flow through pipes.
C208.3 Predict performance characteristics of centrifugal pump and submergible pump.
C208.4 Predict performance characteristics of reciprocating pump and gear pump.
C208.5 Predict performance characteristics of turbines.
Course Name: C209(EE6365 / Electrical Engineering Laboratory)
CO COURSE OUTCOMES
C209.1 Perform the load test, OCC, load characteristics and speed control of DC shunt and DC series motor
C209.2 Perform the load test, OC and SC test on a single phase transformer
C209.3 Examine the regulation of an alternator by EMF and MMF methods
C209.4 Conduct the load test, speed control on various phase of induction motor
C209.5 Explore the DC and AC starters
Course Name: C210 (MA6452 / Statistics and Numerical Methods)
CO COURSE OUTCOMES
C210.1 Identify small, large samples and apply testing of hypothesis.
C210.2 Apply ANOVA test to design of experiments.
C210.3 Determine the solution of algebraic and transcendal system of linear equations.
C210.4 To interpolate the values of unknown functions using Newton’s Formula
C210.5 Estimate the numerical values of the derivatives and integrals of unknown function difference equations
Course Name: C211(ME6401 / Kinematics of Machinery)
CO COURSE OUTCOMES
C211.1 Compute the forces and torques involved in friction drives like screw threads, clutches, belts, ropes and band and block brakes.
C211.2 Design a possible gear train and determine the speeds of simple, compound and epicyclic gear trains.
C211.3 Sketch slow speed and high speed cam profile for the required predefined motion of follower.
C211.4 Calculate kinematic properties of simple planar mechanisms using graphical approach, instantaneous center method and synthesis them at elementary level.
CO211.5 Model planar mechanisms which will have defined required motion.
Course Name: C212 (ME6402 / Manufacturing Technology– II)
CO COURSE OUTCOMES
C212.1 Explain the mechanics of metal cutting, cutting tool materials, tool wear and cutting fluids.
C212.2 Discuss about the constructional feature of different types of lathe and their operations.
C212.3 Describe the construction & working of shaping, milling &drilling machines and gear cutting & finishing process.
C212.4 Illustrate the various types of grinding machines and broaching machines.
C212.5 Explain the construction feature of different types of CNC machine and manual part programming for a given component.
Course Name: C213(ME6403 / Engineering Materials and Metallurgy)
CO COURSE OUTCOMES
C213.1 Illustrate phase diagram for multi component systems and explain the various microstructures of steel and cast iron.
C213.2 Describe various types of heat treatment process and sketch isothermal transformation.
C213.3 Compare the composition and properties of various ferrous and non-ferrous alloys.
C213.4 Discuss properties and applications of polymers and composite materials.
C213.5 Explain various mechanical testing methods of ferrous and non-ferrous materials.
Course Name: C214(GE6351 / Environmental Science and Engineering)
CO COURSE OUTCOMES
C214.1 Describe the structure and functions of different eco system.
C214.2 Identify the various causes, effects and control measures of different types of pollution.
C214.3 Summarize the over exploitation and their effects of natural resources.
C214.4 Appraise the environmental issues and possible solution.
C214.5 Explain the causes of population growth and explosion.
Course Name: C215(ME6404 / Thermal Engineering)
CO COURSE OUTCOMES
C215.1 Calculate the mean effective pressure and air standard efficiency of different gas power cycles.
C215.2 Calculate the performance test on IC engines.
C215.3 Sketch the velocity diagrams of single and multi-stage turbines.
C215.4 Explain the classification and working principle of various types of air compressors.
C215.5 Calculate properties of moist air and COP of vapor refrigeration systems by using refrigeration table and chart.
Course Name: C216(ME6411 / Manufacturing Technology Laboratory–II)
CO COURSE OUTCOMES
C216.1 Demonstrate contour milling and generate a spur gear from a cylindrical work piece.
C216.2 Perform helical gear cutting operation and generate gear using hobbing machine.
C216.3 Generate gear using gear shaping machine and demonstrate plain surface grinding operation.
C216.4 Perform cylindrical grinding operation and practice Tool angle grinding with tool and Cutter Grinder.
C216.5 Measure cutting forces in Milling / Turning Process and develop CNC part programming.
Course Name: C217 (ME6412 / Thermal Engineering Laboratory – I)
CO COURSE OUTCOMES
C217.1 Sketch the valve timing diagram and port timing diagram for single cylinder four stroke diesel engine and two stroke petrol engine.
C217.2 Calculate the mechanical efficiency of four stroke SI engine by Morse test.
C217.3 Evaluate the performance of four stroke single cylinder CI engine & Predict actual diagram.
C217.4 Evaluate the performance of steam generator and steam turbines.
C217.5 Measure the flash and fire point of various fuel/lubricants.
Course Name: C218(CE6315 / Strength of Materials Laboratory)
CO COURSE OUTCOMES
C218.1 Evaluate the values of yield stress, breaking stress and ultimate stress of the given specimen under tension test.
C218.2 Conduct the torsion test to determine the modulus of rigidity of given specimen.
C218.3 Justify the Rockwell hardness test over with Brinell hardness and measure the hardness of the given specimen.
C218.4 Examine the stiffness of the open coil and closed coil spring and grade them.
C218.5 Analyze the microstructure and characteristics of specimen.
Course Name: C301 (ME6501 / Computer Aided Design)
CO COURSE OUTCOMES
C301.1 Describe   the    product   cycle    design   process,   sequential  and    concurrent Engineering.
C 301.2 Explain the various types of curves, patches and surfaces and               the constructive solid geometry with Boundary representation techniques.
C 301.3 Apply the principle of visual realism for line, surface and solid removal algorithms and Explore the techniques involved in shading and coloring.
C 301.4 Assemble the machine parts in different interfacing of positions and orientation and Calculate the mass property in the assembly modeling.
C 301.5 Appraise the uses of standard for GKS and open GL library.
Course Name: C302 ( ME6502 / Heat and Mass Transfer)
CO COURSE OUTCOMES
C302.1 Analyze steady & unsteady heat transfer in composite systems with & without heat generation and extended surfaces.
C302.2 Calculate free and force convection heat transfer in external and internal flows.
C302.3 Describe film wise & drop wise condensation, pool & flow boiling and analyze heat exchanger using LMTD and NTU approaches.
C302.4 Analyze radiation heat transfer between surfaces using shape factor algebra.
C302.5 Analyze    diffusion   and    convective   mass   transfer  occurring   in   different applications.
Course Name: C303 (ME6503 / Design of Machine Elements)
CO COURSE OUTCOMES
C303.1 Apply the principle of solid mechanics to design machine member under variable loading.
C303.2 Calculate the diameter of shafts based on strength, rigidity and design various types of coupling based on application.
C303.3 Calculate design parameters of permanent and temporary joint on various loading application.
C303.4 Calculate the design parameter for energy storage element and engine components.
C303.5 Calculate the design parameters of various types of bearings.
Course Name: C304 ( ME6504 / Metrology and Measurements)
CO COURSE OUTCOMES
C304.1 Discuss the measurement systems, units and dimensions, calibration and correction.
C304.2 Explain the various linear and angular measurement systems and understand the concept of interchangeability
C304.3 Describe the working principle of auto collimator, CMM and list the applications of them.
C304.4 Explain the various form measurements like thread, gear, straightness, flatness, roundness and surface finish.
C304.5 Discuss the working of miscellaneous measuring equipment for measuring temperature, velocity, pressure.
CourseName:C305 (ME6505 / Dynamics of Machines)
CO COURSE OUTCOMES
C305.1 Explain the force-motion relationship in components subjected to external forces and analysis of standard mechanisms.
C305.2 Explain the undesirable effects of unbalances resulting from prescribed motions in mechanism.
C305.3 Calculate the natural frequencies for undamped and damped vibrating systems.
C305.4 Solve problem on effect of Dynamics of undesirable vibrations.
C305.5 Explain the principles in mechanisms used for speed control and stability control.
Course Name: C306(GE6075 / Professional Ethics in Engineering)
CO COURSE OUTCOMES
C306.1 Distinguish between Moral and Ethics.
C306.2 Summarize the moral theories and ethical inquiries.
C306.3 Evaluate the result of the engineering projects by applying ethical theories.
C306.4 Discuss about professional rights, employ rights and intellectual property rights, safety and risk involved in engineering projects.
 

C306.5

 Judge the role of engineer in environmental issues, computer applications, weapons development, multinational corporations and Corporate Social Responsibility.
Course Name: C307 (ME6511 / Dynamics Laboratory)
CO COURSE OUTCOMES
C307.1 Review the various types of gears, gear trains, kinematic mechanisms, and universal joints.
 

C307.2

 Estimate the mass moment of inertia of axisymmetric objects using Turn table apparatus, bi-filar suspension, compound pendulum and natural frequency for single and double rotor systems, equivalent spring mass system and transverse
C307.3 Inspect the critical speed of shaft under the given load conditions and the gyroscopic effect and couple on motorized gyroscope.
C307.4 Sketch the characteristic curves of Watt, Porter, Proell and Hartnell governors and motion curves for the given cam follower setup.
C307.5 Examine the balancing of rotating masses in dynamic balancing machine.
Course Name: C308(ME6512 / Thermal Engineering Laboratory-II)
CO COURSE OUTCOMES
C308.1 Conduct a test to find thermal conductivity of various engineering materials.
C308.2 Measure heat transfer rate in free and forced convection environment.
C308.3 Measure emissivity of grey surface.
C308.4 Measure the effectiveness of parallel and counter flow heat exchanger.
C308.5 Measure COP of refrigeration and air conditioning system and performance of air compressor and fluidized bed cooling tower.
CourseName:C309(ME6513 / Metrology and Measurements Laboratory)
CO COURSE OUTCOMES
C309.1 Check the dimensions and the dimensional deviations of given parts.
C309.2 Inspect the dimensions, angularity and parallelism of a given component.
C309.3 Construct the torque characteristic curves to various loads at various distances.
C309.4 Evaluate the straightness of surfaces and determine size of irregularities on a machined surface.
C309.5 Measure the vertical distances or height of objects, taper angle of slope for a given component, various parameters of threads and gear wheel.
CourseName:C310 (ME6601 / Design of Transmission Systems)
CO COURSE OUTCOMES
C310.1 Design belt drives (flat belt, V-belt), chain drives, rope drives, belt drive pulleys & chain sprockets.
C310.2 Design spurs and straight helical gears based on strength and wear consideration.
C310.3 Design straight bevel gear, worm gear pair and cross helical gear.
C310.4 Design various gear boxes (sliding mesh, constant mesh, multispeed) through geometric progression, standard step ratio, ray diagram, kinematics layout.
C310.5 Design various cams, clutches, internal and external shoe brakes using basic knowledge acquired from earlier studies.
Course Name: C311 (MG6851 / Principles of Management)
CO COURSE OUTCOMES
C311.1 Explain the purpose of management & managerial roles in local and global organization.
C311.2 Prescribe the decision making model under different conditions.
C311.3 Explain the process of staff selection and career development.
C311.4 Demonstrate creativity and innovation, and explain the motivational theories.
C311.5 Explain the process of different types of control, and planning operations in management.
Course Name: C312 (ME6602 / Automobile Engineering)
CO COURSE OUTCOMES
C312.1 Explain the various types of chassis, frame and functions of IC engine parts.
C312.2 Describe the engine auxiliary system used in SI and CI engine.
C312.3 Distinguish between the manual transmissions systems with automatic transmission systems.
C312.4 Demonstrate how the steering, brakes and the suspension system operate.
C312.5 Justify the importance of alternative fuels.
Course Name: C313 (ME6603 / Finite Element Analysis)
CO COURSE OUTCOMES
C313.1 Explain the steps involved in FEA and also the types of weight residual methods.
C313.2 Formulate FE equation for structural, heat transfer and vibration problems.
C313.3 Predict finite element equations for two dimensional thermal and torsion problems.
C313.4 Predict finite element equations for axi symmetric bodies, plate and shell.
C313.5 Apply matrix solution techniques to dynamic problems.
Course Name: C314 (ME6604 / Gas Dynamics Jet and Propulsion)
CO COURSE OUTCOMES
C314.1 Discuss the basic difference between incompressible flow and compressible flow and the effect of Mach number on compressible flow.
C314.2 Compare Fanno flow and Rayleigh flow and calculate the flow properties in Fanno flow and Rayleigh flow.
C314.3 Compute the Prandtl Meyer equation for shock waves.
C314.4 Compare the working of various jet engines and calculate thrust & efficiency in jet propulsion using gas dynamics principles.
C314.5 Classify rocket engines and calculate efficiency in rocket propulsion.
Course Name: C315 E1 (MG 6072 / Marketing Management) (Elective I)
CO COURSE OUTCOMES
C315.1 Define the marketing process, market dynamics, demands, and environment.
C315.2 Differentiate demographic, Psychographic and geographic segmentation.
C315.3 Understand the pricing methods and pricing management.
C315.4 Formulate marketing strategy and marketing process.
C315.5 Discuss the modern trends in retailing, sales promotions, e-marketing.
Course Name: C315 E2 (ME 6001/Quality Control and Reliability Engineering) (Elective – I)
CO COURSE OUTCOMES
C315.1 Apply the concept of SQC in process control.
C 315.2 Categorize the process in control or out of control using various types of charts (p, np, C, U charts).
C 315.3 Identify the sampling plan suitable for the process.
C 315.4 Discuss the various parameters of life testing of components such as MTTF,MTBF.
C 315.5 Use optimization concepts in design of reliability.
Course Name: C315 E3 (ME 6002 / Refrigeration and Air Conditioning) (Elective – I)
CO COURSE OUTCOMES
C315.1 Explain the principle of refrigeration, cycles, properties and its environment effects.
C 315.2 Explain vapor compression systems and different processes, equipment.
C 315.3 Describe the working principle of various types of refrigeration systems.
C 315.4 Discuss psychrometric properties and processes, and air conditioning process.
C 315.5 Estimate cooling load factor, winter and summer air conditioning load and human comfort condition.
Course Name: C315 E4 (ME 6003 / Renewable Sources of Energy) (Elective – I)
CO COURSE OUTCOMES
C315.1 State the economics of renewable energy systems.
C 315.2 Explain the functions of Solar Cells.
C 315.3 Discuss the details of Wind Turbine Generator.
C 315.4 List out the bio – energy applications.
C 315.5 Analyze Hybrid Systems of renewable energy.
Course Name: C315 E5 (ME6004 / Unconventional Machining Processes) (Elective – I)
CO COURSE OUTCOMES
C315.1 Justify the needs of unconventional machining processes.
C315.2 Explain the working principles of Mechanical Energy Based Processes and various process parameters influence on their performance.
C315.3 Differentiate between Electric discharge machining and Wire cut Electric discharge machining.
C315.4 Compare the chemical machining process with electro-chemical machining process.
C315.5 Explain the working principles of thermal energy based processes.
Course Name: C316 (ME6611 CAD/CAM Laboratory)
CO COURSE OUTCOMES
C316.1 Create 2D and 3D models using modeling software.
C316.2 Understand the CNC control in modern manufacturing system.
C316.3 Prepare CNC part programming and perform manufacturing.
C316.4 Create the CL Data and Post process generation using CAM packages.
C316.5 Apply CAPP in Machining and Turning Centre.
Course Name: C317 (ME6612 / Design and Fabrication Project)
CO COURSE OUTCOMES
C317.1 Develop conceptual and engineering design of any mechanical components and also to fabricate them using different manufacturing tools.
Course Name: C318 (GE6563 / Communication Skills – Laboratory)
CO COURSE OUTCOMES
C318.1 Apply appropriate communication skills across settings, purposes, and audiences.
C318.2 Demonstrate knowledge of communication theory and application.
C318.3 Practice critical thinking to develop innovative and well-founded perspectives related to the students’ emphases.
C318.4 Build and maintain healthy and effective relationships. Use technology to communicate effectively in various settings and contexts.
C318.5 Demonstrate appropriate and professional ethical behavior.
Course Name: C401 ( ME6701 / Power Plant Engineering)
CO COURSE OUTCOMES
C401.1 Explain the various subsystems of coal power plant and calculate the efficiency of Rankine cycle.
C401.2 Discuss the merits & demerits of combined power plants and calculate the efficiency of gas power cycles.
C401.3 Differentiate pressurized water reactor & boiling water reactor and explain the various waste disposal system in nuclear power plant.
C401.4 Explain the working principle of various renewable energy power plants.
C401.5 Explain the different tariff procedures for energy consumption and differentiate fixed and operating costs involved in power production.
Course Name: C402 ( ME6702 / Mechatronics)
CO COURSE OUTCOMES
C402.1 State the specifications of sensors and choose the suitable sensors for real time applications.
C402.2 Combine the real time control systems with peripheral devices through programmable interface techniques.
C402.3 Test the input output terminals of PLC based control system by interfacing technique.
C402.4 Construct the ladder logic circuits for simple automation system.
C402.5 Design Mechatronics system with the help of microprocessor, PLC and other electrical and electronic Circuits.
Course Name: C403 (ME6703 / Computer Integrated Manufacturing Systems)
CO COURSE OUTCOMES
 

C403.1

 Describe the elements of CIM system & an automated system, Production

system and mathematical models of production performance & manufacturing control.
C403.2 Discuss the use of computers in process planning, different aspects of planning system and control systems.
C403.3 Solve the simple problems in part coding system in Group Technology and quantitative analysis in cellular manufacturing.
C403.4 Discuss the flexible manufacturing system components, planning & control and Automated Guided Vehicle System.
C403.5 Discuss the Robot anatomy, related attributes, and classification of robots, robot control systems and robot part programming.
Course Name: C404 ( GE6757 / Total Quality Management)
CO COURSE OUTCOMES
C404.1 Explain the importance of quality and deming philosophy of quality.
C404.2 Describe the method of continuous process improvement.
C404.3 Apply traditional & modern quality management tools and techniques to manufacturing and service processes.
C404.4 Apply statistical tools & techniques to different processes.
C404.5 Assess the implementation of ISO 9000/9001-2008/14000 for given manufacturing, service sector.
CourseName:C405E1(ME6005Process Planning and Cost Estimation) (Elective – II)
CO COURSE OUTCOMES
C405.1 Explain the methods of process planning and the various steps involved in process selection.
C405.2 Examine the various steps involved in process planning activities.
C405.3 Explain the procedure of cost estimation.
C405.4 Estimate the production cost of a given component produced in foundry shop, forging shop & welding shop.
C405.5 Calculate the machining time for different operations performed in lathe, milling, shaping, planning, drilling, boring & grinding.
CourseName:C406E1 (ME6010 / Robotics) (Elective – III)
CO COURSE OUTCOMES
C406.1 Summarize the basic concepts of industrial robotics and key components of robotics technologies.
C406.2 Summarize the robot drive systems, grippersand various end effectors.
C406.3 Describe the various sensors and image processing & data reduction method for the control of robots.
C406.4 Analyze the various kinematics of robots and prepare the robot program.
C406.5 Explain the implementations of robots in industries and analyzing robot economics.
Course Name: C406 E2 (GE 6081 / Fundamental of Nano Science) (Elective – III)
CO COURSE OUTCOMES
C406.1 Discuss the basics of Nano scale Science &Technology and implication in various departments.
C406.2 Explain the various methods of preparing nano-particles.
C406.3 Discuss the various methods of nano-materials preparation and discuss the properties related to applications.
C406.4 Explain the various Characterization techniques for nano materials.
C406.5 Discuss the various applications of nano-materials in engineering application.
Course Name: C406 E3 (ME 6011 / Thermal Turbo Machines) (Elective – III)
CO COURSE OUTCOMES
C406.1 Classify turbo machines and discuss the importance of dimensionless numbers in turbo machines.
C406.2 Discuss various losses and calculate the stage & design parameters in centrifugal fans and blowers.
C406.3 Calculate air angle, pressure ratio and power required in centrifugal compressor.
C406.4 Calculate stage losses, stage efficiency and pressure ratio in axial flow compressor.
C406.5 Calculate the flow coefficient, loading coefficient and stage parameters in axial & radial flow turbines.
Course Name: C406 E4(ME 6012 / Maintenance Engineering) (Elective – III)
CO COURSE OUTCOMES
C406.1 Understand the principles and objectives of Maintenance Engineering.
C406.2 Describe the various categories of maintenance.
C406.3 Discuss various condition monitoring techniques.
C406.4 Explain the repair methods of beds and slide ways.
C406.5 Explain the repair methods of material handling equipments.
Course Name:C406 E5 (EE 6007 / Micro Electro Mechanical Systems)

(Elective – III)
CO COURSE OUTCOMES
C406.1 Understand and apply basic science, circuit theory, and Electro-magnetic field theory control theory to electrical engineering problems.
C406.2 Explain the functions of sensors.
C406.3 Discuss the functions of actuators.
C406.4 Discuss the micro machining processes.
C406.5  Analyze linear and digital electronic circuits.
Course Name:C407 (ME6711 / Simulation and Analysis Laboratory )
CO COURSE OUTCOMES
C407.1 Simulate simple problems in vibrations and simple mechanisms using simulation software.
C407.2 Perform analysis of stress, truss/beam and dynamic analysis of mechanical members.
C407.3 Perform two dimensional stress analysis in plate and asymmetric shells.
C407.4 Analyze the temperature distribution in one dimensional heat transfer problems (walls and fins).
C407.5 Analyze the temperature distribution in two dimensional heat transfer problems (plates and shell).
Course Name: C408 ( ME6712 / Mechatronics Laboratory)
CO COURSE OUTCOMES
C408.1 Create the program for arithmetic functions and the program for sorting, code conversion functions.
C408.2 Formulate the program codes to interface with traffic light controller and stepper motor.
C408.3 Compare the set speed with actual speed of DC motor by interfacing suitable speed sensors.
C408.4 Integrate all the hydraulic, pneumatic and electro pneumatic circuits by using simulation software.
C408.5 Analyze the real images and template images based on image processing techniques.
Course Name: C409 (ME6713 / Comprehension)
CO COURSE OUTCOMES
C409 Understand and comprehend any given problem related to mechanical engineering field.
Course Name: C410 ( MG6863 / Engineering Economics)
CO COURSE OUTCOMES
C410.1 Learn basics of Engineering Economics and optimum costing.
C410.2 Understand Value Engineering and Time Value of Money.
C410.3 Differentiate Cash Dominated and Revenue Dominated Cash flow.
C410.4 Apply suitable cash flow methods for different Situations.
C410.5 Apply Depreciation methods for Individual/Industrial/Public Alternatives.
Course Name: C411 E1( IE6605 / Production Planning and Control) (Elective – IV)
CO COURSE OUTCOMES
C411.1 Describe the functions of production control, various production system, different aspects of product development and break even analysis.
C411.2 Describe the concept of Method study, Motion study and work measurement techniques.
 

C411.3

 Perform the analysis of problems in lack of product planning, quantity determination in batch production and analysis of process capabilities in a multi product system.
 

C411.4

 Discuss about production scheduling, production control systems, progress

reporting & expediting and techniques for aligning completion times & due dates.
C411.5 Calculate the economic order quantity & economic lot size in inventory control.
Course Name: C411 E2 (MG 6071Entrepreneurship Development) (Elective – IV)
CO COURSE OUTCOMES
C411.1 Differentiate between Entrepreneur and Intrapreneur and appraise the importance of entrepreneurship in economic growth.
C411.2 Justify the need, objectives of Entrepreneurship Development Programs.
C411.3 Appraise the steps involved in setting up a business and business project reports.
C411.4 Justify the need of financing and accounting.
C411.5 Examine the government policy and assistance for the entrepreneur.
Course Name: C411 E3 ( ME 6013 / Design of Pressure Vessels and piping) (Elective –IV)
CO COURSE OUTCOMES
C411.1 List out the various stresses induced in pressure vessels.
C411.2 Analyze various stresses induced in pressure vessels.
C411.3 Design a pressure vessel for the given conditions.
C411.4 Predict buckling and fracture of pressure vessels.
C411.5 Sketch the piping layout.
Course Name: C411 E4 (ME 6014 / Computational Fluid Dynamics) (Elective – IV)
CO COURSE OUTCOMES
C411.1 Model laminar and turbulent flow using conservation laws.
C411.2 Perform discretization of diffusion problems using finite difference and finite volume methods.
C411.3 Model one dimensional convection– diffusion problems.
C411.4 Solve fluid flow and heat transfer problems using SIMPLE and PISO algorithms.
C411.5 Apply different turbulence models to flow and heat transfer problems.
Course Name: C411 E5(ME 6015 / Operations Research )  (Elective – IV)
CO COURSE OUTCOMES
C411.1 Identify and formulate LP problems using various methods for maximization and minimization problems.
C411.2 Apply mathematical techniques in different application areas of operations research like transportation and network models.
C411.3 Formulate mathematical models for quantitative analysis of Inventory control practice in industry.
C411.4 Calculate the queue length and waiting time for queuing models to make business decisions in operational research.
C411.5 Apply mathematical techniques to solve decision models using search technique and dynamic programming method.
Course Name: C412 E1 (ME6016 / Advanced I.C. Engines) (Elective – V)
CO COURSE OUTCOMES
C412.1 Explain fuel injection systems in SI engine, types of combustion chamber and combustion process.
C412.2 Explain different types of fuel injection system and combustion chambers of CI engine.
C412.3 Explain the mechanism of pollution formation and the evolution of emission norms.
C412.4 Describe the properties of various alternative fuels, engine modification required and emission characteristic of alternative fuels.
C412.5 Discuss various ignition methods used in I.C engine and electronic engine management system.
Course Name: C412 E2 (ME 6017 / Design of Heat Exchangers) (Elective –V)
CO COURSE OUTCOMES
C412.1 Discuss various types of heat exchangers and their applications.
C412.2 Analyze sizing and rating of tubular and shell & tube heat exchangers.
C412.3 Perform stress analysis of various parts of heat exchangers.
C412.4 Analyze sizing and rating of compact and plate heat exchanger.
C412.5 Apply mathematical knowledge to design condensers and cooling towers.
Course Name: C412 E3 (ME 6018 / Additive Manufacturing) (Elective – V)
CO COURSE OUTCOMES
C412.1 Justify the needs of additive manufacturing technology.
C412.2 Explain the concept of data processing for additive manufacturing technology.
C412.3 Differentiate between liquid based and solid based additive manufacturing systems.
C412.4 Illustrate the process of three dimensional printing.
C412.5 Discuss bio-additive manufacturing, computer aided tissue engineering (CATE).
Course Name: C412 E4(ME 6019 / Non Destructive and Testing Materials)

(Elective – V)
CO COURSE OUTCOMES
C412.1 Discuss the overview of Non Destructive Testing Methods for the detection of manufacturing defects as well as material characterization and its application.
C412.2 Explain the methods and procedure of Liquid Penetrate Testing and Magnetic Particle Testing.
C412.3 Explain principle and methods of Ultrasonic Testing and Acoustic Emission.
C412.4 Illustrate the basic principle and procedure of thermography and eddy current testing.
C412.5 Explain the principle and methods of radiographic testing.
Course Name: C412 E5(ME 6020 / Vibration and Noise Control) (Elective – V)
CO COURSE OUTCOMES
C412.1 Describe the fundamental concepts of engineering noise and vibration, measurement techniques to find natural frequency.
C412.2 Discuss the various terminology involved in production of noise, measurement and analysis of noise.
C412.3 Understand the knowledge in sources and measurement standard of noise
C412.4 Explain the fundamental mechanisms of vibration isolation, apply different solutions and calculate design parameters.
C412.5 Discuss about the sources of vibration and control methods.
Course Name: C413 (ME6811 / Project Work)
CO COURSE OUTCOMES
C413 Develop the ability to solve a specific problem right from its identification and

literature review till the successful solution of the same