Course Outcome (ME)

Course Outcomes Syllabus: TE Sem-II 2019 Pattern On completion of the course, learner will be able to Subject Artificial Intelligence &Machine Learning Subject Code: 302049 CO 1 DEMONSTRATE fundamentals of artificial intelligence and machine learning CO 2 APPLY feature extraction and selection techniques. CO 3 APPLY machine learning algorithms for classification and regression problems CO 4 DEVISE AND DEVELOP a machine learning model using various steps. CO 5 EXPLAIN concepts of reinforced and deep learning. CO 6 SIMULATE machine learning model in mechanical engineering problems On completion of the course, learner will be able to Subject Computer Aided Engineering Subject Code: 302050 CO 1 DEFINE the use of CAE tools and DESCRIBE the significance of shape functions in finite element formulations. CO 2 APPLY the various meshing techniques for better evaluation of approximate results. CO 3 APPLY material properties and boundary condition to SOLVE 1-D and 2-D element stiffness matrices to obtain nodal or elemental solution. CO 4 ANALYZE and APPLY various numerical methods for different types of analysis. CO 5 EVALUATE and SOLVE non-linear and dynamic analysis problems by analyzing the results obtained from analytical and computational method. CO 6 GENERATE the results in the form of contour plot by the USE of CAE tools. On completion of the course, learner will be able to Subject Design of Transmission Systems Subject Code: 302051 CO 1 Students will be able to design spur and Helical gears based on bending and wear strength. CO 2 Students will be able to design Bevel and worm gears based on bending and wear strength CO 3 Students will be able to calculate the life of ball or roller bearing and select bearing from manufacturer’s catalogue CO 4 Students will be able to design friction clutches and brakes CO 5 Students will able to design multispeed Machine Tool Gear Box CO 6 Students will be able to evaluate battery power rating and energy capacity of battery. On completion of the course, learner will be able to Subject Composite Materials Subject Code: 302052-A CO 1 Compare Composite materials with traditional materials CO 2 Examine different parameters of the Polymer Matrix Composite CO 3 Categories Metal Matrix Process from possessions landscape. CO 4 Calculate volume/weight fraction and strength of Composites CO 5 Select appropriate testing and inspection method for composite materials CO 6 Select composites materials for various applications On completion of the course, learner will be able to Subject Surface Engineering Subject Code: 302052-B CO 1 DEFINE the basic’s principle & mechanism of surface degradation. CO 2 ANALYSE & SELECT correct corrosion prevention techniques for a different service condition. CO 3 DEMONSTRATE the role of surface engineering of materials to modify/improve the surface properties. CO 4 SELECT the suitable surface heat treatments to improve the surface properties. CO 5 APPLY the surface modification technique to modify surface properties. CO 6 ANALYSE & EVALUTE various surface coating defects using various testing/characterization method. On completion of the course, learner will be able to Subject Measurement Laboratory Subject Code: 302053 CO 1 EVALUATE causes of errors in Vernier calipers, micrometers by performing experiments in standard metrological conditions, noting deviations at actual and by plotting cause and effect diagram, to reduce uncertainty in measurement CO 2 ANALYZE strain measurement parameters by taking modulus of elasticity in consideration to acknowledge its usage in failure detection and force variations. CO 3 EXAMINE surface Textures, surface finish using equipment’s like Talysurf and analyze surface finish requirements of metrological equipment’s like gauges, jaws of vernier calipers, micrometers, magnifying glasses of height gauge and more, to optimize surface finish accuracy requirements and cost of measurement. CO 4 MEASURE the dimensional accuracy using Comparator and limit gauges and appraise their usage in actual measurement or comparison with standards set to reduce measurement lead time. CO 5 PERFORM Testing of Flow rate, speed and temperature measurements and their effect on performance in machines and mechanisms like hydraulic or pneumatic trainers, lathe machine etc. to increase repeatability and reproducibility CO 6 COMPILE the information of opportunities of entrepreneurships/business in various sectors of metrology like calibrations, testing, coordinate and laser metrology etc in an industry visit report. On completion of the course, learner will be able to Subject Fluid Power &Control Laboratory Subject Code: 302054 CO 1 DEFINE working principle of components used in hydraulic and pneumatic systems CO 2 IDENTIFY & EXPLAIN various applications of hydraulic and pneumatic systems CO 3 SELECT an appropriate component required for hydraulic and pneumatic systems using manufactures’ catalogues. CO 4 SIMULATE & ANALYSE various hydraulic and pneumatic systems for industrial/mobile applications CO 5 DESIGN a hydraulic and pneumatic system for the industrial applications. CO 6 DESIGN & DEMONESTRATE various IoT, PLC based controlling system using hydraulics and pneumatics. On completion of the course, learner will be able to Subject Internship/Mini project Subject Code: 302055 CO 1 DEMONSTRATE professional competence through industry internship CO 2 APPLY knowledge gained through internships to complete academic activities in a professional manner CO 3 CHOOSE appropriate technology and tools to solve given problem. CO 4 DEMONSTRATE abilities of a responsible professional and use ethical practices in day to day life. CO 5 DEVELOP network and social circle, and DEVELOPING relationships with industry people. CO 6 ANALYZE various career opportunities and DECIDE career goals

Course Outcomes Syllabus: BE Sem-II 2019 Pattern On completion of the course, learner will be able to Subject Computer Integrated Manufacturing Subject Code: 402048 CO 1 EXPLAIN CIM and factory automation. CO 2 UNDERSTAND the integration of hardware and software elements for CIM CO 3 APPLY CNC program for appropriate manufacturing techniques. CO 4 ANALYZE processes planning, quality and MRP integrated with computers. CO 5 INTERPRET flexible, cellular manufacturing and group technology. CO 6 ANALYZE the effect of IOT, Industry-4.0 and cloud base manufacturing. On completion of the course, learner will be able to Subject Energy Engineering Subject Code: 402049 CO 1 EXPLAIN the power generation scenario, the layout components of thermal power plant and ANALYZE the improved Rankine cycle. CO 2 ANALYZE the performance of steam condensers, cooling tower system; RECOGNIZE an environmental impact of energy systems and methods to control the same. CO 3 EXPLAIN the layout, component details of diesel engine plant, hydel and nuclear energy systems. CO 4 ANALYZE gas and improved power cycles CO 5 EXPLAIN the fundamentals of renewable energy systems. CO 6 EXPLAIN basic principles of energy management, storage and economics of power generation. On completion of the course, learner will be able to Subject Quality and Reliability Engineering Subject Code: 402050-A CO 1 UNDERSTAND basic concepts of quality and RELATE various quality tools CO 2 DEVELOP analytical competencies to SOLVE problems on control charts and processcapability. CO 3 UNDERSTAND fundamental concepts of reliability CO 4 EVALUATE system reliability CO 5 IDENTIFY various failure modes and CREATE fault tree diagram. CO 6 UNDERSTAND the concept of reliability centered maintenance and APPLY reliability testsmethods. On completion of the course, learner will be able to Subject Energy Audit and Management Subject Code: 402050-B CO 1 EXPLAIN the energy need and role of energy management CO 2 CARRY OUT an energy audit of the Institute/Industry/Organization CO 3 ASSESS the ENCON opportunities using energy economics CO 4 ANALYSE the energy conservation performance of Thermal Utilities CO 5 ANALYSE the energy conservation performance of Electrical Utilities CO 6 EXPLAIN the energy performance improvement by Cogeneration and WHR method On completion of the course, learner will be able to Subject Process Equipment Design Subject Code: 402051-A CO 1 INTERPRET the different parameters involved in design of process Equipments. CO 2 ANALYZE thin and thick walled cylinder CO 3 DESIGN cylindrical vessel, spherical vessel, tall vessels and thick walled high pressure vessels CO 4 DESIGN different process Equipments and select pump, compressor etc. and auxiliary services CO 5 EVALUATE Process parameters and their correlation CO 6 APPLY the concepts of process equipment design for specific applications On completion of the course, learner will be able to Subject Automation and Robotics Subject Code: 402051-C CO 1 UNDERSTAND the basic concepts of Automation CO 2 UNDERSTAND the basic concepts of Robotics CO 3 IDENTIFY and EVALUATE appropriate Drive for Robotic Applications CO 4 COMPARE and SELECT End-effectors and Sensors as per Application CO 5 DEVELOPE the Mathematical Modeling Approaches of Robot CO 6 EVALUATE the fundamentals of robot programming and CLASSIFY the Applications On completion of the course, learner will be able to Subject Industrial Psychology and Organizational Behavio Subject Code: 402051-D CO 1 DEMONSTRATE fundamental knowledge about need and scope of industrial - organizational psychology and behavior. CO 2 ANALYZE the job requirement, have understanding of fatigue, boredom and improve the job satisfaction. CO 3 UNDERSTAND the approaches to enhance the performance. CO 4 KNOWLEDGE of theories of organizational behavior, learning and social-system CO 5 UNDERSTAND the mechanism of group behavior, various aspects of team, leadership and conflict management CO 6 EVALUATE the organizational culture, manage the change and understands organizational development approaches. On completion of the course, learner will be able to Subject Mechanical Systems Analysis Laboratory Subject Code: 502052 CO 1 DEVELOP an understanding of the Systems Engineering Process and the range of factors that influence the product need, problem-specific information collection, ProblemDefinition, Task Specification, Solution Concept inception,Concept Development,System’s Mathematical Modelling, Synthesis, Analysis, final solution Selection,Simulation, Detailed Design, Construction, Prototyping, Testing, fault-finding, Diagnosis,Performance Analysis, and Evaluation, Maintenance, Modification, Validation, Planning,Production, Evaluation and use of a system using manual calculation, computational tools to automate product development process, redesign from customer feedback and control of technological systems. CO 2 ILLUSTRATE the concepts and USE the developed skill-set of use of computationaltools (FEA, CFD, MBD, FSI, CAE) to automate the complete product developmentprocess. CO 3 EVALUATE the knowledge of new developments and innovations in technological systems to carry forward to next stage of employment after passing your Undergraduate Degree Examination CO 4 APPRAISE how technologies have transformed people’s lives and can be used to SOLVE challenges associated with climate change, efficient energy use, security, health,education and transport, which will be coming your ways in the coming future CO 5 PRIORITIZE the concept of quality and standards, including systems reliability, safety and fitness for the intended purpose. CO 6 INVENT yourself to face the challenges of future technologies and their associated Problems. On completion of the course, learner will be able to Subject Project (Stage - II) Subject Code: 402053 CO 1 Implement systems approach. CO 2 To conceptualize a novel idea / technique into a product. CO 3 To think in terms of a multi-disciplinary environment. CO 4 To take on the challenges of teamwork, and document all aspects of design work. CO 5 To understand the management techniques of implementing a project.