Course Outcome
MECHANICAL ENGINEERING (B.E.) | |
COURSE / SUBJECT | COURSE OUTCOMES (CO’s) |
THIRD SEMESTER | At the end of course students will be able to – |
3ME01 Mathematics-III | · Demonstrate the knowledge to solve ordinary Linear Differential equations with constant coefficient and its reducible equation using particular integral and complementary function and apply method of variation of parameter to solve ordinary Linear differential equations · Define the Laplace transform and its inverse transform for the basic functions. Locate the Laplace transform of periodic function. Apply the Laplace transform to solve differential equation · Apply False Position, Newton Raphson method to solve nonlinear & polynomial equations Apply Gauss Elimination method, Gauss Seidal iterative method, Relaxation method to solve system of linear equations, Apply Eulers method, Runge-Kutta method, Picards method to solve differential equations · Define Gradient, divergent and curl of vector point functions. Finds the directional derivatives of scalar point functions. Discuss the Irrotational and solenoidal vector fields. Define line surface and volume integrals |
3ME02 Manufacturing Processes | · basic concept of foundry process and related activities · concept of complete sand casting process with advance casting methods · fundamentals of welding processes · various processes like electroplating, anodizing etc and their importance in industries |
3ME03 Mechanics of Materials | · Determine the stress & strain in the member subjected to axial, bending & torsional load · To observe different types of material behavior such as elastic, plastic, ductile and brittle · Apply SF and BM diagrams to analyse resistance offered by the beam and able to solve practical problems in real world · Apply deflection criteria to check the stability of beam |
3ME04 Engineering Thermodynamics | · Understand the basic concepts of thermodynamics, thermodynamic systems, work and heat · Apply first law of thermodynamics and application of first law to flow and non-flow processes · Apply second law of thermodynamics and understand concept of entropy · Understand the properties of steam, work done and heat transfer during various thermodynamics processes with steam as working fluid · Understand the concept of air standard cycles |
3ME05 Fluid Mechanics | · Identify importance of various fluid properties at rest and in motion · Derive and apply general governing equations for various fluid flows · Understand the concept of boundary layer theory and flow separation. · Calculate energy losses in pipe flow. · evaluate the performance characteristics of hydraulic jets |
FOURTH SEMESTER | At the end of course students will be able to – |
4ME01 Material Science | · Basic concepts of metallurgy and types of materials. · Iron-Carbon Equilibrium Diagram, critical temperatures, formation of microstructures and they will get the knowledge of alloys. · Uses and practical applications of ferrous &non ferrous materials · Various heat treatment processes, powder metallurgy and industrial applications |
4ME02 Energy Conversion – I | · Students will study the concept steam and steam power plant, mounting and accessories. · Students will demonstrate the calculation of various efficiency & related parameters. · Student will show the adequate knowledge of fuel & ash handling systems. · Students will demonstrate the knowledge of condenser & application. · Students will understand the concepts of steam nozzles & steam turbine. |
4ME03 Manufacturing Technology | · Apply the knowledge of theory of metal cutting, tool selection & calculate cutting forces · Demonstrate the knowledge of basics of turning operations · Understand the drilling and boring operations and working of drilling & boring machines · Understand the milling and gear cutting operations and working of respective machines · Understand the working of grinding, shaper, planer and slotter machines Understand the knowledge of unconventional machining processes |
4ME04 Basic Electrical Drives and Control | · Understand the working of electrical drives and their components · Understand the basics of DC motors and their characteristics · Understand the working of AC motors, induction motors and concept of braking · Understand the different speed control methods of A.C. and D.C. motors · Understand the design of transducers and their applications · Understand the industrial applications of different drives |
4ME05 Hydraulic and Pneumatic Systems | · Demonstrate basic concepts of prime movers and turbines · Utilize the knowledge of centrifugal and reciprocating pumps for applications · Reveal the importance of other water lifting devices · Solve the elementary treatment on compressible fluid flow · Understand the concept of hydrostatic and hydrokinetic systems · Use the knowledge of hydraulics & pneumatics in developing project work. |
FIFTH SEMESTER | At the end of course students will be able to – |
5ME01 HeatTransfer | · Solve steady state heat transfer problems of 2-D heat conduction with and without internal heat generation. · Design and to analyze the performance of extended surfaces. · Apply Lumped heat capacity method for analysis of unsteady state heat transfer. · Explain the laws of radiation and its applications. · Predict heat transfer coefficients for forced and free convection heat transfer applied to internal and external flow conditions. · Design and analyze the performance of heat exchangers using NTU and LMTD methods. |
5ME02 Metrology & Quality Control | · Create & apply the concept of inspection, quality control and its importance to industry. · Demonstrate the skills of controlling various out of control processes using statistical quality control tools. · Understand the importance of improving production and productivity using work study approach. · Apply the knowledge of various measurement standards and techniques in the industry to measure various parameters related to metrology. |
5ME03 Kinematicsof Machines | · Understand & apply the concept and its applications of link, mechanisms and machines. · Demonstrate the ability to analyze the mechanisms and machines on the basis of velocity and acceleration and they will show the ability to solve analytical methods. · Show the ability to use graphical and analytical methods for synthesis of mechanisms to develop mini projects in the course duration. · Understand the practical for study of brake, clutch, dynamometer, gear train etc. |
5ME04 Measurement Systems | · Analyze different measurement systems. · Calculate different types of errors in the measurement system. · Use strain gauges and pressure measurement devices for several applications. · Compare different methods of force, Power and flow measurement using different methods. · Select appropriate liquid level and temperature measurement devices for given applications. · Measure speed of motors and rotating shafts by using tachometers, stroboscope. |
5ME05 Open Elective-I (1) Production Management | · Apply the knowledge of operations management and its applications in industrial environment. · Demonstrate the knowledge of advanced manufacturing technologies and philosophies. · Students will demonstrate the importance of inventory control, JIT in manufacturing. · Apply the basic concept of quality management, TQM etc. |
5ME05 Open Elective-I ( 2) Manufacturing Techniques | · Apply the knowledge of various manufacturing techniques and its applications in engineering. · Understand the knowledge of machining operations, sheet metal working and processes. · Students will show the ability to apply various joining methods in practice. · Students will exhibit the knowledge of powder metallurgy. |
SIXTH SEMESTER | At the end of course students will be able to – |
6ME01 Design of Machine Elements | · Understand the concept of various stresses and apply the design procedure to riveted joints and welded joints. · Understand design procedure of knuckle joint, springs and power screw. · Analyze & select types of shafts, keys, couplings for various machines and industrial applications. · Analyze the various types of bearings and understand the design procedure of IC Engine parts. |
6ME02 Dynamicsof Machines | · Apply basic concept of static force analysis and lubrication mechanism. · Understand the knowledge of dynamic force analysis analytically and graphically. · Apply the knowledge of space mechanism and vehicle dynamics. · Understand concept of free vibration and force vibration, concept of Torsional vibration. · Analyze the concept of balancing of machinery |
6ME03 Control System Engineering | · Understand the basic system concept and study different types of systems. · Understand the concept Transient- Response analysis and will apply in numerical methods, the knowledge of basic control action and industrial controllers. · Understand the concept of Stability and exhibit the knowledge of root locus concept. · Understand the concept of Frequency Response method and use bode diagram in solving analytical problems. |
6ME04 Professional Elective-I (1) Tool Engineering | · Create the design of single and multi-point cutting tools. · Apply the knowledge related to machining in order to estimate tool life and selection of cutting fluids. · Create the design of multipoint tools like twist drills, reamers, broach and milling cutters & press working dies like punching, blanking and drawing. · Analyze the real time problems of work holding by designing jigs and fixtures. |
6ME04 Professional Elective –I (2) Non-Conventional Energy Sources | · Able to study the concept of renewable and non-renewable sources. · Apply the basic concept of solar energy utilization and storage. · Apply the concept of energy from ocean and wind. · Study the concept of bio-mass energy resources |
6ME04 Professional Elective-I (3) Computer Aided Design & Simulation-LAB | · Understand the concept of CAD/ CAM and CIM . · Apply knowledge using CAD modeling for component design · Apply the knowledge of geometric transformation. · Understand the Mechanical & Manufacturing simulation system |
6ME05 Open Elective-II (1) Non-ConventionalEnergySources | · Understand concept of renewable and non-renewable sources. · Understand the basic concept of radiation transmission through covers and solar energy collections, the basic concept of Solar energy utilization and storage. · Demonstrate, concept of energy from ocean and wind. · Understand the concept of bio-mass energy resources, concept of direct energy conversion and fuel cell. |
6ME05 Open Elective-II (2) Automobile Engineering | · Understand the basics of automobile engineering and its components. · Analyze &develop about the cooling system and its function. · Understand basic concept of transmission system and types of gears box, basic concept of electrical system and ignition system. · Apply the knowledge of suspension and lubrication |
SEVENTH SEMESTER | At the end of course students will be able to – |
7ME01 Mechatronics | · Understand the concept of computer process control. · Create the working models for various mechatronics system for industrial applications. · Create mini projects on material handling systems like pick and place type robot, machine loading system etc. · Create pneumatic and hydraulic circuits for various industrial applications. |
7ME02 Productivity Techniques | · Understand Productivity. · Differentiate Method Study & Work Measurement. · Apply Ergonomics Principles. · Analyze Wedge payment & Incentive Plans. · Implement reengineering. · Understand different Maintenance methods |
7ME03 Industrial Management & Costing | · Understand the working of business environment. · Understand the management thoughts, its evolution and functions. · Apply standard and scientific techniques in materials management. · Evaluate time, costs, cost sheet and depreciation of industry. |
7ME04 Energy Conversion– II | · Understand the working of different types of compressors. · Analyze, handle and resolve the problems related to working of air compressor. · Understand the principle of working of refrigeration systems, air conditioning and its applications. · Understand various nuclear reactions and issues related to working and maintenance of nuclear power generation |
7ME05 Professional Elective–II (i) Computer Integrated Manufacturing | · Able to Specify a quality control method for analyzing a finished product. · To develop a strategy for implementing computer integrated manufacturing. · To synthesize and apply the concepts learnt · Describe various operation in numerical control system and part programming · Describe CNC machining and interfaces of CAM and CNC · Undertake, under supervision, laboratory experiments to design in CAD and to program in CAM for machining |
7ME05 Professional Elective–II (ii) Automobile Engineering | · Able to Specify a quality control method for analyzing a finished product. · To develop a strategy for implementing computer integrated manufacturing. · To synthesize and apply the concepts learnt · Describe various operation in numerical control system and part programming · Describe CNC machining and interfaces of CAM and CNC · Undertake, under supervision, laboratory experiments to design in CAD and to program in CAM for machining. |
7ME05 Professional Elective–II (ii) Automobile Engineering | · Understand the basics of automobile engineering and its components. · Idea creation of cooling system, electrical system and ignition system. · Analysis of transmission system and types of gears box. · Design and development of suspension and lubrication. |
7ME05 Professional Elective – II (iii) Design of Transmission System | · Upon the completion of this course the students will be able to design of transmission systems for engines and machines elements includes – · Selection of belts, chains and rope drives · Failure theories Gears & design of spur gear · Interpret the concepts of design of fluid couplings and torque converters · Design of gear boxes · Design of design of cams, brakes and clutches |
7ME05 Professional Elective-II (iv) Computational Fluid Dynamics | · Numerically solve the governing partial differential equations of fluid flow and heat transfer problems. · Construct and solve the different mathematical models and computational methods for fluid flows. · Apply the discretization methods to solve fluid flow and heat transfer problems. · Choose and justify the CFD schemes for the respective fluid flow/transport phenomena problem. · Perform verification and validation of numerical model. · Demonstrate the ability to use modern CFD software tools. |
EIGHTH SEMESTER | At the end of course students will be able to – |
8ME01 Operation Research Techniques | · Understand the knowledge of OR and OR models. · Analyze the transportation problems and related issues. · Understand the concept network models, CPM and PERT analysis. · Understand the concept replacement models and solve the problem on simulation techniques. |
8ME02 I.C. Engines | · Remember fundamentals of I.C. engines, their types and cycle analysis. · Remember the knowledge of fuels and alternative fuels, study of fuel injection pump. · Remember the concept of combustion of CI engine. · Understand the concept of supercharging its objectives, advantages and limitations. |
8ME03 Professional Elective– III (i) Energy Conservation & Management | · To understand the basic knowledge of different terms & principles of energy conservation, audit and management. · To Evaluate the energy saving & conservation in different mechanical utilities · To understand efficient heat & electricity utilization, saving and recovery in different thermal and electrical system. · To prepare energy audit report for different energy conservation instances. |
8ME03 Professional Elective–III (ii) Production Planning and Control | · Understand the importance of production planning and control, its functions, advantages. · Apply the skills of calculating for sales forecasts using various forecasting methods. · Remember concept of machine capacity, loading of machines and man machine activity charts. · Understand concept of inventory control & various cases of inventory system and modern techniques/philosophies of management like CIM, JIT, MRP-I and MRP-II. |
8ME03 Professional Elective–III (iii) Product Design & Development | · Manage the development of an idea from concept through to production. · Employ research and analysis methodologies as it pertains to the product design process, meaning, and user experience. · Apply creative process techniques in synthesizing information, problem-solving and critical thinking. · Demonstrate, apply, explain, and recognize basic engineering, mechanical, and technical principles for decision making · Use sustainable materials and manufacturing processes & Carry out cost and benefit analysis through various cost models |
8ME03 Professional Elective–III (iv) Artificial Intelligence | · Understand the concept of knowledge and knowledge base. · Apply the skills of development of expert system for industrial problems. · Remember the design pre-requisites and design procedure of expert system. · Understand the concept of fuzzy logic and will try to implement in project work |
8ME04 Professional Elective – IV (i) Refrigeration & Air Conditioning | · Understand the fundamental basics of simple vapour compression system, types of refrigerant used in refrigeration system. · Understand the multistage pressure system, its types and elementary treatment of refrigeration system. · Apply the knowledge of refrigeration system and its controls, defrosting. · Apply the concept air conditioning system as winter, summer air conditioning system applications and its related issues. |
8ME04Professional Elective – IV (ii) Finite Element Analysis | · Apply the knowledge of principal of FEA, its types, governing equation, fundamental concept of solid mechanics. Remember the mathematical understanding required for FEA and finite difference techniques. · Understand the knowledge of application of FEA such as related to stress on beams, three dimensional frames, heat transfer. · Apply the knowledge of FEA in project work. |
8ME04 Professional Elective – IV (iii) Robotics & Industrial Applications | · Understand the concept of robotics, its history. · Remember robot anatomy and various configurations for different industrial applications · Remember the concept robot programming, its methods and programming languages. |
8ME04 Professional Elective – IV (iv) Rapid Prototyping | · Create and develop overall awareness for design of Rapid prototype. · Apply fundamentals of RP techniques. · Design and develop the RP Toolings for using suitable rapid prototyping technique. |