SL NO   Course Name CO Statement Program Outcomes PSO’s
1 2 3 4 5 6 7 8 9 10 11 12 1 2 3
SEM 1 18BS101 Mathematics-I CO1 Evaluate partial derivatives for multiple integrals     2                        
CO2 Classifies the differential equations with respect to their order and linearity 3 3 2                        
CO3 Remembering the previous knowledge of matrices to find it’s rank by different methods 2 3 2                        
CO4 Apply Cayley-Hamilton theorem to find the inverse and  powers of a square matrix   3 2                        
CO5 Understand the concept of Laplace and inverse Laplace transforms 2 3 2                        
CO6 Apply differentiation and integration to find the Laplace transforms of a function 1 3 2                        
18BS103 Engineering Chemistry CO1 Apply the knowledge of working principle of batteries in engineering areas. 2 3 3         2         3    
CO2 Apply the corrosion technology methods in various industrial fields for protecting from corrosion process. 3 3 3         2         3    
CO3 Use various water purification methods in industries to utilize the water further for drinking purpose.   3 3         2         3    
CO4 Know the application and manufacture of new polymers for industrial demand. 2 3 3         2         3    
CO5 Understand the processing of cementing in construction engineering. 2 3 3         2         3    
CO6 Analyze various fuel its calorific value by using bomb calorimeter method   3 3         2         3    
18BS104 English CO1 Use English Language effectively that demonstrates an understanding of the basic components of grammar. 3 3                          
CO2 Comprehend and explain different phrases in prose and poetry and respond appropriately. 3 3 3                   3    
CO3 Learned the technique of presenting stories with perplexing twist endings 3 2                          
CO4  Acquire basic proficiency in English, writing official letters including Job Applications and Technical Reports. 3 3 3                   3    
CO5 Apply ethical principles and learn to commit to professional ethics. 3                       2    
18ME102 Engineering Graphics CO1 To know and understand the conventions and the method of engineering drawing. (Remember)   3 3                        
CO2 Interpret engineering drawings using fundamental technical mathematics. (Understand) 2 3 3 3                   3  
CO3 Construct basic and intermediate geometry. (Create)   3 2                        
CO4 To improve their visualization skills so that they can apply these skill in developing new products.(Evaluate) 3 3 3 3                   3  
CO5  To improve their technical communication skill in the form of communicative drawings.(Apply)  1 3                       2  
CO6 Comprehend the theory of projection.(Analyze)   2   2 1               3 2 1
18CS101 Programming for Problem Solving CO1 Demonstrate the basic knowledge of computer hardware and software. 3 3                          
CO2 To formulate simple algorithms for arithmetic and logical problems. 3 3 3 3                   3  
CO3 To translate the algorithms to programs (in C language). 3   2                        
CO4  To test and execute the programs and correct syntax and logical errors. 2 3   3                   3  
CO5  Ability to apply solving and logical skills to programming in C language and also in other languages. 2 3 3 1                      
18BS108 Chemistry Lab CO1 Find out the dissolved oxygen in the given water sample by using winkler’s method for water quality measurement. 2 3     3                    
CO2 Examine the hardness in the given various industrial water samples by EDTA method 3 3     3                    
CO3 Predict the strength of various acids by using conductometer.   3     3                    
CO4 Investigate the chloride ion in the given water sample by Mohr’s method.. 2 3     3                    
CO5 Synthesize the Bakelite material for industrial use..   3     3                    
CO6 Relate the various lubricant oils its viscosity by using red wood viscometer for industrial use. 3 3     3                    
18BS109 English Lab CO1 Gain better understanding of nuances of English language through audio-visual experience and group activities. 3 3 3                        
CO2 Developed ability on various language functions to fulfill the purpose of speaking and writing in academic and professional context. 2 3 3 3                   3  
CO3 Ability to communicate effectively in different formal and informal situations.   3 2                        
CO4 Understand and be able to describe the general principles of phonetics. 2 3 3 3                   3  
CO5 Gained the ability to effectively communicate with members of society in general and engineering community in particular. 3 3                       2  
CO6 Learn speaking skills with clarity and confidence which in turn enhances their employability skills.   2 2 1             3   2    
18CS102 Programming for Problem Solving Lab CO1 To write algorithms and to draw flowcharts for solving problems 3 3                     3    
CO2 To convert the algorithms/flowcharts to C programs 3 3 3 2 2               3    
CO3 To code and test a given logic in C programming language 3 2   2                      
CO4 To decompose a problem into functions and to develop modular reusable code 3 3 3                   3    
CO5 To use arrays, pointers, strings and structures to write C programs  3     2                 2    
SEM 2 18BS201 Mathematics-II CO1 Express any  periodic function as Fourier series  3 3 2 - - - - - - - - - - - -
CO2 Calculate  the Fourier Transforms of the elementary functions 2 3 2 - - - - - - - - - - - -
CO3 Apply the appropriate theorems to find the Z-transforms of the function   3 2 - - - - - - - - - - - -
CO4 Compute double and triple integrals in Cartesian and polar coordinates 2 3 2 - - - - - - - - - - - -
CO5 Apply the knowledge of multiple integrals to find areas and volumes    3 2 - - - - - - - - - - - -
CO6 Remembering the knowledge of vectors in vector differentiation and integration 3 3 2 - - - - - - - - - - - -
18BS103 Applied Chemistry CO1 Apply the knowledge of working principle of batteries in engineering areas.(Remember) 3 3                     3    
CO2 Apply the corrosion technology methods in various industrial fields for protecting from corrosion process.(Understand)  3 3     3               3    
CO3 Use various water purification methods in industries to utilize the water further for drinking purpose.(Apply) 3 3     3               3    
CO4 Know the application and manufacture of new polymers for industrial demand.(Analyze) 3 3     3               3 3  
CO5 Understand the processing of cementing in construction engineering.(Evaluate) 3 3     3               3 3  
CO6 Analyze various fuel its calorific value by using bomb calorimeter method.(Create) 3 2       2                  
18BS104 English CO1 Use English Language effectively that demonstrates an understanding of the basic components of grammar.(Remember) 3 3                          
CO2 Comprehend and explain different phrases in prose and poetry and respond appropriately.(Understand) 3 3 3                   3    
CO3 Learned the technique of presenting stories with perplexing twist endings.(Apply) 3 2                          
CO4  Acquire basic proficiency in English, writing official letters including Job Applications and Technical Reports.(Analyze) 3 3 3                   3    
CO5 Apply ethical principles and learn to commit to professional ethics.(Evaluate) 3                       2    
18ME102 Engineering Graphics CO1 To know and understand the conventions and the method of engineering drawing.(Remember) 2 2 2 2                 3 2  
CO2 Interpret engineering drawings using fundamental technical mathematics.(Understand) 2 2 2 3 2 2             3 2 2
CO3 Construct basic and intermediate geometry. (Apply)  2 2 2                   3 1 3
CO4 To improve their visualization skills so that they can apply these skill in developing new products.(Analyze) 3 3 3 3 3 2 2           3 2 3
CO5 To improve their technical communication skill in the form of communicative drawings.(Evaluate) 2 2 1                       1
    CO 6 Comprehend the theory of projection. (Create) 2         2             1   1
18CS201 Fundamentals of Data
Structures
CO1 Understand the concept of Dynamic memory management, data types, algorithms, Big O notation. 3 2 2 1                 3 3  
CO2 Understand basic data structures such as arrays, linked lists, stacks and queues. 3 3 2 2 1               3 2  
CO3 Describe the hash function and concepts of collision and its resolution methods 3 3 2 2                 3 2  
CO4 Solve problem involving graphs, trees and heaps 3 3 3 2                 3 2  
CO5 Apply Algorithm for solving problems like sorting, searching, insertion and deletion of data 3 3 3 1                 3 3  
18BS108 Chemistry Lab CO1 Find out the dissolved oxygen in the given water sample by using winkler’s method for water quality measurement. 2 2 2                   3 3  
CO2 Examine the hardness in the given various industrial water samples by EDTA method 2 2 2 2 2               2 3  
CO3 Predict the strength of various acids by using conductometer. 2 2 2     3 2           2 3  
CO4 Investigate the chloride ion in the given water sample by Mohr’s method.. 2 2 2   2 3 2           1 3  
CO5 Synthesize the Bakelite material for industrial use.. 1   1   2                 1  
CO6 Relate the various lubricant oils its viscosity by using red wood viscometer for industrial use.   1                     2   1
18BS109 English Lab CO1 Gain better understanding of nuances of English language through audio-visual experience and group activities.                   3   2     3
CO2 Developed ability on various language functions to fulfill the purpose of speaking and writing in academic and professional context.                   3   2     3
CO3 Ability to communicate effectively in different formal and informal situations.                   3   2     3
CO4 Understand and be able to describe the general principles of phonetics.                   3   1     2
CO5 Gained the ability to effectively communicate with members of society in general and engineering community in particular.                 3 3 2 2     3
CO6 Learn speaking skills with clarity and confidence which in turn enhances their employability skills.                   3   2     3
18CS203 Fundamentals of Data
Structures Lab
CO1 Implement basic data structures such as arrays and linked list.   3       3             3 3  
CO2 Programs to demonstrate fundamental algorithmic problems including Tree Traversals, Graph raversals, and shortest paths.   3 2 2   3             3 3  
CO3 Implement various searching and sorting algorithms.   2 2 2                 3 3 3
CO4 Programs to demonstrate the implementation of various operations on stack and queue.   2                       3  
SEM 3 18BS302 Numerical Methods CO 1 Know the concept of finite differences and apply to various engineering problems 3                            
CO 2 Analyze problems using Trapezoidal and Simpson’s 1/3rules ; solve first order ODEs using Euler’s and R-K methods of 2nd and 4th order. 3 3 3                   3    
CO 3 Apply the numerical differentiation and integration in engineering problems.   2                          
CO 4 Gain the knowledge about solutions of partial differential equations. 3   3                   3    
18ME301 Mechanics of Solids CO 1 Utilize knowledge of computing the stresses and strains, provide information required for further design.(Remember) 3 3               2   3   3  
CO 2 Compute relevant stresses in pressure vessels and other structural components provide preliminary analysis needed for design.(Apply) 3         2 2         3   3  
CO 3 Perform stress analysis for selected components of industrial and domestic products.(Analyze) 3 3 2         3         3    
18ME302 Fluid Mechanics and
Hydraulic Machinery
CO 1 Employ the basic knowledge of hydraulics in finding fluid properties, performance parameters of hydraulic turbines and pumps.(Understand) 3 3                     3    
CO 2 To study 1-D viscous and non-viscous flow through pipes. Bernoulli’s equation, laminar and turbulent flow.(Understand) 3 3     3               3    
CO 3 Present feasible design solutions for the construction of efficient hydraulic turbines and pumps.(Apply) 3 3     3               3    
CO 4 Identify the manageable areas in hydraulic machinery to reduce the mechanical losses.(Analyze) 3 3     3               3 3  
18ME303 Engineering Thermo
Dynamics
CO 1 To understand the basic of thermodynamics.(Remember) 3                     3   3  
CO 2 The performance of engineering systems and processes based on laws of thermodynamics.(Understand) 3           3             3  
CO 3 Apply the concepts of entropy and energy in engineering analysis.(Analyze) 3               3     3   3  
CO 4 Comprehend a selection of thermodynamic concepts to apply for industry- related problems and analyze the problems related to the psychometric process.(Analyze) 3         3               3  
18ME304 Fundamentals of
Mechatronics
CO 1 Model, analyze and control engineering systems. 3       3             3 3    
CO 2 Identify sensors, transducers, and actuators to monitor and control the behavior of a process or product. 3 2 2   3             3 3    
CO 3 Develop PLC programs for a given task. 2 2 2                 3 3 3 2
CO 4 Evaluate the performance of Mechatronics systems. 2                       3    
18ME305 Industrial Engineering and
Management
CO 1 Design organization structure and implement management principles in real time business environment.(Remember) 2 2 2                   3 3  
CO 2 Design layouts for different types of industries, manufacturing, process and service sectors.(Understand) 2 2 2                   2 3  
CO 3 Elaborate productivity and profitability by implementing work-study and SQC.(Apply) 2 2 2     3 2           2 3  
CO 4 Select and maintain skilled and sufficient manpower for various business proposals.(Analyze) 2 2 2     3 2           1 3  
CO 5 Find sites for all kinds of industries.(Evaluate)                              
CO 6 Design a best method of making a product.(Create) 2 2 2                   1 3  
18ME307 Strength of Materials Lab CO 1  Analyze and design structural members subjected to tension, compression, torsion, bending and combined stresses using the fundamental concepts of stress, strain and elastic behavior of materials.(Analyze) 2 1 2 1                 3 3  
CO 2 Utilize appropriate materials in design considering engineering properties, sustainability, cost and weight.(Evaluate) 2 1 2 1                 3 3  
CO 3 Perform engineering work in accordance with ethical and economic constraints related to the design of structures and machine parts.(Create) 2 1 2 1                 3 1  
18ME308 Fluid Mechanics And
Hydraulic Machinery Lab
CO 1 Student will be able to utilize the knowledge in the design of water supply pipe networks and measure the rate of flow in pipes and channels. (Analyze) 2 2 2 2                 3 2  
CO 2 Students will have confidence in the hydraulic design of turbines and should be able to identify suitable pumps and turbines for different working conditions.(Create) 2 2 2 3 2 2             3 2 2
18EE308 Basic Electrical and
Electronics Lab
CO 1 Verify network theorems for different electrical circuits 3 3                          
CO 2 Test D.C Machines using different techniques 3 3 3                   3    
CO 3 To select suitable DC machine for domestic and industrial applications 3 2                          
CO 4 To demonstrate knowledge on construction and operation of various DC machines, starting and speed control of DC motors 2 1                          
CO 5 To analyse different types of electronic devices performance and their Characteristics  3 3 3                   3    
18AS301 Professional Society
Activities-I
CO 1  Discuss in groups about subject.(Remember) 2 2             2 2   1      
CO 2  Outline the knowledge gained.(Understand) 3 2     1       1            
CO 3  Illustrate technical skills.(Apply) 2 2             2 2   1      
CO 4  Use appropriately their professional knowledge.(Analyze) 1 1             2 2   1     2
CO 5  Compare & Contrast with the given topic.(Evaluate) 1 1             1           2
CO 6  Design models with technical knowledge.(Create) 2 3 2                       2
18AS302 Soft Skills Practice CO 1 Receive the support they need to resolve issues and make decisions 3 2 2 2 3                    
CO 2 Explore their personal resources and aptitudes 3 3 3 2 3               3    
CO 3 Understand new career prospects and strive for personal development 3 2 2 3 3                    
CO 4 Make a proper and informed decision for their career                              
CO 5 In an era of stiff competition success can only be received if one knows Team work as team work always pays rich dividends. 2 3 3                        
CO 6 Problem solving skills for personal and professional development. 3     2 1                    
18MD301 Environmental Sciences
(Mandatory Course)
CO 1 Apply their knowledge in biology, physics, chemistry, earth science and economics for better understanding of earth’s environment. 3                     3   3  
CO 2 Understanding the importance of natural resources. 3           3             3  
CO 3 Comprehend the environmental problems from multiple perspectives with emphasis on human modern life style and developmental activities. 3               3     3   3  
CO 4 Influence his society in proper utilization of goods & services. 3         3               3  
CO 5 Demonstrate knowledge relating to the biological systems involved in the major global  environmental problems of the 21st century 2 1                       2  
CO 6 Recognize the inter connectedness of human dependence on earth’s ecosystems- Understanding the value of bio diversity & the conservation of biodiversity.  2 1                       2 2
SEM 4 18BS401 Probability and Statistics CO 1 Gain the knowledge in the concepts of Discrete and continuous distributions 3 3                          
CO 2 Apply the knowledge of normal distribution to various practical situations using normal tables 3 3 3                   3    
CO 3 Test the hypothesis of various engineering problems 3 2                          
CO 4 Analyze and apply the technics of large and small sample tests in various engineering problems. 3 3 3                   3    
18ME401 Casting and Welding CO 1 Recommend appropriate part manufacturing processes when provided with a set of functional requirements and product development constraints.(Remember) 3 3               2   3   3  
CO 2 Recognize a manufacturing method suitable for a particular product.(Understand) 3         2 2         3   3  
CO 3 Analyze, evaluate and to understand the problems while practicing manufacturing techniques.(Apply) 3 3 2         3         3   1
CO 4 Understand applications of welding, casting in industries.(Analyze) 3 3 2                     2  
18ME402 Engineering Materials CO 1 Identify the properties of metals with respect to crystal structure and grain size.(Remember) 3 3                     3    
CO 2 Interpret the phase diagrams of materials.(Understand) 3 3     3               3   1
CO 3 Classify and Distinguish different types of cast irons, steels, and nonferrous alloys.(Apply) 3 3     3               3    
CO 4 Describe the concept of heat treatment of steels & strengthening mechanisms.(Apply) 3 3     3               3 3  
18ME403 Kinematics of Machinery CO 1 Familiarize the motion of mechanism- to define a mechanism and to do kinematic construction for a variety of mechanism used in the application.(Remember) 3                     3   3  
CO 2 Introduce basic mechanisms such as slider-crank linkages, a four-bar linkage, gear, and cam, perform the motion analysis using both graphical and analytical methods.(Understand) 3           3             3  
CO 3 Apply the knowledge gained in the earlier course engineering mechanics to a system of rigid bodies which are interconnected with constraints.(Apply) 3               3     3   3 2
CO 4 Trouble-shoot problems associated with simple machine components such as cams, gears, gear trains, belt and chain drives.(Analyze) 3         3               3  
18ME404 IC Engines and
Compressors
CO 1 Employ the basic knowledge of an engine and compressor in developing the analytical models.(Remember) 3       3       3 3   3 3    
CO 2 Analyse the parameters used to increase the performance and reducing the knock in spark ignition and compression ignition engines.(Analyze) 3 2 2   3       3 3   3 3    
CO 3 Design solutions for better carburetion, fuel injection, ignition and lubrication.(Evaluate) 2 2 2           3 3   3 3 3  
CO 4 List design considerations favorable for minimizing harmful emissions and maximizing the power output.(Create) 2                 2     3   3
18BS303 Managerial Economics and
Financial Analysis
CO 1 To introduce micro as well as macro, economic concepts that are useful in business decision making. 2 2 2                   3 3  
CO 2 To help students better recognize the application of modern principles and methods of microeconomics to real-world business problems in different contexts. 2 2 2                   2 3  
CO 3 To master the basic tools of microeconomics: supply and demand analysis; firms’ production and pricing decisions, market equilibrium and market structure analysis. 2 2 2     3 2           2 3  
CO 4 The objective of this course is to acquaint the students regarding various accounting concepts and its  application in managerial decision making. 2 2 2     3 2           1 3  
18ME405 Machine Drawing CO 1 Ability to understand the design a system, component or process to meet desired needs within, realistic constraints such as economic, environmental, safety & sustainability etc. 2 2 2                   3 3  
CO 2 An ability to use the techniques, skills and modern engineering tools necessary for engineering practice with the concept of virtual work. 2 2 2 2 2               2 3  
CO 3 Recognize to use modern engineering tools, software, and equipment to analyze different drawings for Design & manufacturing. 2 2 2     3 2           2 3  
18ME406 IC Engines and
Compressors Lab
CO 1 Evaluate the performance of IC engines.(Remember) 2 2 2                   3 2  
CO 2 Perform heat balance analysis of IC engines.(Understand) 2 2 2                   3 2  
CO 3 Evaluate the performance of a reciprocating air compressor.(Apply) 2 2 2                   3 1  
CO 4 Evaluate the performance of refrigeration and air conditioning systems.(Analyze) 2 2 2                   3 2 2
CO 5 Plot Valve and Port timing diagrams of 4-stroke and 2-stroke engines.(Evaluate)   3 1 2                      
CO 6 Compile and present specifications of two and four wheelers.(Analyze) 2 2 2                   3    
18ME407 Manufacturing and
Metallurgy Technology
Lab
CO 1 Able to make wooden pattern for casting mould.(Understand) 3 3                          
CO 2 Practically understand the Properties of Sand by Testing.(Analyze) 3 3 3                   3    
CO 3 Hands on experience on various gas welding processes.(Create) 3 2                         2
CO 4 Can perform various plastic moulding process.(Evaluate)                              
CO 5 Using hydraulic press forging techniques applied on sheet metal.(Apply) 3 3 3                   3    
18ME408 Technical Seminar CO 1 Students will demonstrate competency in communication skills related to production and presentation of messages in multiple formats.(Remember) 3 3                          
CO 2 Students will demonstrate competency in critical thinking skills related to the analysis, interpretation, and criticism of messages.(Understand) 3 3 3                   3    
CO 3 Students will demonstrate competency in skills related to the construction and analysis of argumentation and persuasive discourse.(Apply) 2 2 1                     3 3
CO 4 Students will demonstrate an understanding of multiple theoretical perspectives and diverse intellectual traditions in Communication.(Analyze) 2 2 2                        
CO 5 Students will demonstrate competency in human relational interaction. (Evaluate) 2 2 1                       2
CO 6 Students will demonstrate competency in the analysis and practice of ethical communication.(Create) 3 2                          
CO 7 Students will demonstrate an understanding of the importance of free expression and the responsibilities it entails.(Understand) 3 3 3                   3    
CO 8 Students will demonstrate competency in effective communication with diverse others and an understanding of the impact of culture on communication.(Apply) 3                       2    
18AS401 Professional Society
Activities-II
CO 1  Discuss in groups about subject.(Understand) 2 2             2 2   1      
CO 2  Outline the knowledge gained.(Apply) 3 2     1       1            
CO 3  Illustrate technical skills.(Evaluate) 2 2             2 2   1      
CO 4  Use appropriately their professional knowledge.(Analyze) 1 1             2 2   1     2
CO 5  Compare & Contrast with the given topic.(Evaluate) 1 1             1           2
18AS402 Communication Skills
Practice
CO 1 Students will demonstrate competency in communication skills related to production and presentation of messages in multiple formats. 3 2 2 2 3                    
CO 2 Students will demonstrate competency in critical thinking skills related to the analysis, interpretation, and criticism of messages. 3 3 3 2 3               3    
CO 3 3 2 2 3 3                    
CO 4 Students will demonstrate competency in skills related to the construction and analysis of argumentation and persuasive discourse.                              
CO 5 Students will demonstrate an understanding of multiple theoretical perspectives and diverse intellectual traditions in Communication 2 3 3                        
CO 6 Students will demonstrate competency in human relational interaction. 3     2 1                    
SEM 5 18ME501 Design of Machine Elements CO 1 Describe the Design Procedure and evaluate the size of simple mechanical components subjected to static loads considering theories of failure 3 3                          
CO 2 Apply knowledge in designing mechanical components subjected to stress concentration and Fatigue Loads 3 3 3                   3    
CO 3 Design and analyze permanent joints such as riveted and welded joints under loading conditions 3 2                          
CO 4 Design and analyze temporary joints such as bolted and cotter joints under loading conditions 3 3 3                   3    
18ME502 Dynamics of Machinery CO 1 Familiarize the motion of mechanism- to define a mechanism and to do kinematics.(Remember) 3 3               2   3   3  
CO 2 construction for a variety of mechanism used in the application.(Understand) 3         2 2         3   3  
CO 3 Introduce basic mechanisms such as slider-crank linkages, a four-bar linkage, gear, and cam, perform the motion analysis using both graphical and analytical methods.(Apply) 3 3 2         3         3    
CO 4 Apply the knowledge gained in the earlier course engineering mechanics to a system of dynamics.(Analyze) 3 3 2                     2  
CO 5 Apply the safety principles in the design of steering, brakes, suspension system and also outline the latest technologies as air bag, ABS and Traction control.(Evaluate)  3 3 2     2 3         3 3 3  
18ME503 Therm-Turbo Machinery CO 1 Recognize typical designs of turbomachines and differentiate from positive displacement machines.(Remember) 3 3                     3    
CO 2 Explain the working principles of turbomachines and apply it to various types of machines.(Understand) 3 3     3               3    
CO 3 Perform the preliminary design of turbomachines (pumps, compressors, turbines) on a 1-D basis.(Apply) 3 3     3               3    
CO 4 Determine the off-design behavior of turbines and compressors and relate it to changes in the velocity triangles.(Analyze) 3 3     3               3 3  
CO 5 Recognize relations between choices made early in the turbomachinery design process and the final components and operability.(Analyze) 2   1 1                      
CO 6 Recognize and discuss today’s and tomorrow’s use of turbomachines for enabling a sustainable society.(Create) 3 3     3               3 3  
18ME504 Metal Cutting and Machine
Tools
CO 1 Apply cutting mechanics to metal machining based on cutting force and power consumption.(Remember) 3                     3   3  
CO 2 Operate lathe, milling machines, drill press, grinding machines, etc.(Understand) 3           3             3  
CO 3  Select cutting tool materials and tool geometries for different metals. (Apply) 3               3     3   3  
CO 4 Select appropriate machining processes and conditions for different metals. (Analyze) 3         3               3  
CO 5 Learn machine tool structures and machining economics.(Evaluate) 2 2                          
CO 6  Write simple CNC programs and conduct CNC machining.(Create) 3         2 3 3           3  
18ME505 Measurements and Metrology CO 1 Explain the basics of standards of measurement, limits, fits & tolerances industrial applications.(Remember) 3       3       3 3   3 3    
CO 2 Identify the uses of gauges and comparators.(Understand) 3 2 2   3       3 3   3 3   2
CO 3 Understand the significance of measurement system, errors, transducers, intermediate modifying and terminating devices.(Apply) 2 2 2           3 3   3 3 3  
CO 4 Interpret measurement of field variables like force, torque and pressure.(Analyze) 1                           2
CO 5 Comprehend the fundamentals of thermocouple and strain measurement.(Evaluate) 2                       3    
18ME509 Machine Tools and Metrology
Lab
CO 1 Measure the bores by internal micrometers and dial bore indicators.(Understand) 2 2 2                   3 3  
CO 2 Measure the angle and taper using Bevel protractor and Sine bar.(Understand) 2 2 2                   2 3  
CO 3 Measure screw thread parameters.(Understand) 2 2 2     3 2           2 3  
CO 4 Perform step turning, taper turning, thread cutting, drilling and tapping operations on lathe.(Create) 2 2 2     3 2           1 3  
CO 5 Perform operations on shaper, planer and milling machines.(Create) 2 2 2                   1 3  
18ME510 Instrumentation and Dynamics
Lab
CO 1 Review the various types of gears, gear trains, kinematic mechanisms, and
universal joints.(Understand)
2 1 2 1                 3 3  
CO 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 .(Apply)
2 1 2 1                 3 3  
CO 3 Inspect the critical speed of shaft under the given load conditions and the
gyroscopic effect and couple on motorized gyroscope.(Analyze)
2 1 2 1                 3 1  
CO 4 Sketch the characteristic curves of Watt, Porter, Proell and Hartnell governors
and motion curves for the given cam follower setup.(Evaluate)
2 2 3 3 1                 3 2
CO 5 Examine the balancing of rotating masses in dynamic balancing machine.(Analyze) 2 1 2 1                 3 3 1
18ME511 Fuels and Lubrication Lab CO 1 Compare the flash, fire points and carbon residue of different fuels.(Understand) 2 2 2                   3 2  
CO 2 Find the absolute and kinematic viscosity of different fuels.(Apply) 2 2 2                   3 2  
CO 3 Conduct constant and variable speed tests on IC engines and predict their performance.(Analyze) 2 2 2                   3 1  
CO 4 Compare the performance parameters of conventional and computer aided CI engines.(Evaluate) 2 2 2                   3 2  
18AS501 Professional Society
Activities-III
CO 1  Discuss in groups about subject. 2 2             2 2   1      
CO 2  Outline the knowledge gained. 3 2     1       1            
CO 3  Illustrate technical skills. 2 2             2 2   1      
CO 4  Use appropriately their professional knowledge. 1 1             2 2   1     2
CO 5  Compare & Contrast with the given topic. 1 1             1           2
SEM 6 18ME601 Heat and Mass Transfer CO 1 Understand basic modes of heat transfer and compute temperature distribution in steady state and unsteady state heat conduction.(Understand) 3 3               2   3   3  
CO 2 Understand and Analyze the heat transfer through extended surfaces 3         2 2         3   3  
CO 3  Interpret and analyze the free & forced convection heat transfer problems.(Apply) 3 3 2         3         3    
CO 4 Understand the phenomena of flow regimes of boiling and condensation.(Analyze) 3 3 2                     2  
CO 5 Understand the principles of radiation heat transfer.(Evaluate)                             2
CO 6 Understand the concept of LMTD and NTU methods for design of heat exchangers.(Evaluate) 3 3 2     2 3         3 3 3 2
18ME602 CAD/ CAM CO 1  Explain the influence of CAD/CAM on product cycle.(Understand) 3 3               2   3   3  
CO 2 Compare basic 2D and 3D geometric Transformations.(Understand) 3         2 2         3   3  
CO 3  Interpret the curves, surfaces and solids representation methods.(Understand) 3 3 2         3         3   3
CO 4 Explain NC, DNC, CNC, GT, CAPP and FMS.(Analyze) 2 2 2                       2
CO5 Develop simple CNC part programs for Milling and Turning operations.(Evaluate) 3 3 2                     2 2
CO6 Explain the importance of CAD/CAM in various real day to day applications.(Apply) 3         3               3  
18ME603 Finite Element Methods CO 1 Students will be able to understand the basic concepts of FEM and its importance in engineering field.(Understand) 2 1 2 1                 3 3  
CO 2 Students will be able to solve 1-D problems such as rod element, truss element and beam element.(Analyze) 2 1 2 1                 3 3  
CO 3 Students will be able to understand the concepts of CST, sub & super parametric elements and  apply the same for solving plain stress & plain strain condition.(Evaluate) 2 1 2 1                 3 1  
18ME604 Design of Transmission
Elements
CO 1 Determine the key design parameter for geared transmission systems like spur, helical,bevel and worm gears.(Remember) 3                     3   3  
CO 2 Identify the principal failure mechanisms affecting bearing systems, materials and lubricants capable of resisting them.(Analyze) 3           3             3  
CO 3 Specify the principal requirements of drive systems for given applications.(Evaluate) 3               3     3   3  
CO 4 Design of transmission system with required parameters.(Create) 3         3               3 2
18ME605 Industrial Robotics CO 1 Understand basic parts and configurations of robotic systems.(Understand) 3       3       3 3   3 3    
CO 2 Analyze robotic systems using forward and inverse kinematics.(Analyze) 3 2 2   3       3 3   3 3    
CO 3 Analyze robotic systems for dynamic performance using Lagrange – Euler and Newton-Euler formulations.(Analyze) 2 2 2           3 3   3 3 3  
CO 4 Develop a trajectory plan for a given application.(Evaluate) 2 1                         2
CO 5 Understand actuators and feedback devices used in robotic systems.(Analyze) 2                       3    
18ME606 Advanced Machining
Process
CO 1 Explaining the details of types of advanced manufacturing and machining processes, their evolution and need.(Understand) 2 2 2                   3 3  
CO 2 Identifying the correct advanced manufacturing processes by formulating and determining the correct AMPs for development of various complex shaped geometries.(Apply) 2 2 2                   2 3  
CO 3 Hands on experiments on the Advanced Machines such as EDM, WEDM etc.(Apply) 2 2 2     3 2           2 3  
CO 4 Design and development of experimental apparatus of any one advanced or derived and hybrid manufacturing process (Team Project). Perform good workplace ethics in completing assigned projects as directed.(Analyze) 2 2 2     3 2           1 3 3
18ME607 Composite Materials CO 1 Some understanding of types, manufacturing processes, and applications of composite materials.(Remember) 2 1 2 1                 3 3 2
CO 2 Ability to analyze problems on macromechanical behavior of lamina.(Analyze) 2 1 2 1                 3 3  
CO 3 Ability to analyze problems on micromechanical behavior of lamina.(Analyze) 2 1 2 1                 3 1  
CO 4 Ability to analyze problems on macromechanical behavior of laminate.(Analyze) 2 2 3 3 1                 3  
18ME612 Heat Transfer Lab CO 1 Apply the knowledge of heat transfer perform experiments related conduction heat transfer.(Remember) 2 1 2 1                 3 3  
CO 2 Evaluate heat transfer coefficient in free and forced convection heat transfer situation.(Understand) 2 1 2 1                 3 3 2
CO 3 Determine fin efficiency and emissivity in respective experiments.(Apply) 2 1 2 1                 3 1  
CO 4 Observe the phenomena of drop and film wise condensation.(Analyze) 2 2 3 3 1                 3  
CO 5 Evaluate the performance of heat exchangers in parallel & counter flow types.(Evaluate) 2 1 2 1                 3 3  
18ME613 CAE Lab CO 1 With laboratory classes, it helps the students to get familiarized with the computer applications in design and preparing drawings for various mechanical components.(Understand) 3 3                          
CO 2 Analyze and Manufacture in a standardized manner suitable for industrial scenarios.(Analyze) 3 3 3                 2      
CO 3  Design Components and Develop part programs for mechanical components involving simple features.(Create) 3 2                     3   2
CO 4 Implement appropriate hardware and software for CAD thereby enhancing productivity in design.(Apply) 3 3 3                 2   2  
18ME614 Production and Operation
Management Lab
CO 1 Identify and develop operational research models from the verbal description of the real system.(Remember) 3 3               2   3   3  
CO 2 Understand the mathematical tools that are needed to solve optimisation problems.(Understand) 3         2 2         3   3  
CO 3 Use mathematical software to solve the proposed models.(Apply) 3 3 2         3         3    
CO 4 Develop a report that describes the model and the solving technique, analyse the results and propose recommendations in language understandable to the decision-making processes in Management Engineering.(Evaluate) 3 3 2                     2  
18ME615 Term Paper CO 1  Prepare comprehensive report based on literature survey related to considered area.(Understand) 3 3         3                
CO 2 Select the paper to be solved and analyze the extension possibilities.(Apply) 3 3 3             2     3    
CO 3  Identify the applicability of modern software tools and technology.(Analyze) 3 2             3           3
CO 4 Correct himself to improve write-up skills.(Evaluate) 3 3 3             3     3   2
CO 5 Exhibit the professional behavior.(Create) 3                       2    
18AS601 Professional Society
Activities-IV
CO 1  Discuss in groups about subject.(Understand) 1 1   1   2 1 1 2 3 1     2 1
CO 2  Outline the knowledge gained.(Apply) 1 1 1       1   1         2 1
CO 3  Illustrate technical skills.(Analyze) 1 2 2 2       1 1 3       2 1
CO 4  Use appropriately their professional knowledge.(Evaluate) 2 2 2 1 1         1       2 1
CO 5  Compare & Contrast with the given topic.(Analyze) 1 1               2         1
CO 6  Design models with technical knowledge.(Create) 1 1 3 1 1               1 1 1
18AS602 Technical Aptitude CO 1 On successful completion of the course the students will be able to: 2                         3  
CO 2 Understand the basic concepts of QUANTITATIVE ABILITY 3 2 3     2 2       3     3  
CO 3 Understand the basic concepts of LOGICAL REASONING Skills 3 3 2         3     3   3    
CO 4 Acquire satisfactory competency in use of VERBAL REASONING 3 3 2 2                   2  
CO 5 Solve campus placements aptitude papers covering Quantitative Ability, Logical Reasoning and Verbal Ability         3           3 2     3
CO 6 Compete in various competitive exams like CAT, CMAT, GATE, GRE, GATE, UPSC, GPSC etc. 3 3 2     2 3         3 3 3  
SEM 7 18ME701 Metal Forming Process CO 1 Determine major process/processes of manufacturing used for given application.(Remember) 3 3                        
CO 2 Explain when and why metal forming is chosen compared to other compatible methods.(Understand) 3 3 3                   3  
CO 3 Analyze effect of parameters influencing metal forming and compare hot working and cold working with applications.(Analyze) 3 2                        
CO 4 Explain capabilities and applications of bulk metal forming processes and sheet metal work.(Evaluate) 3 3 3                   3  
CO 5 Outline tooling and equipments required for important metal forming processes.(Analyze) 2 2                        
18ME702 Operations Research CO 1 Identify and develop operational research models from the verbal description of the real system.(Remember) 3 3               2   3   3
CO 2 Understand the mathematical tools that are needed to solve optimisation problems.(Understand) 3         2 2         3   3
CO 3 Use mathematical software to solve the proposed models.(Apply) 3 3 2         3         3  
CO 4 Develop a report that describes the model and the solving technique, analyse the results and propose recommendations in language understandable to the decision-making processes in Management Engineering.(Analyze) 3 3 2                     2
18ME706 Auto Mobile Engineering CO 1 Identify the different parts of the automobile.(Remember) 3 3                     3  
CO 2 Explain the working of various parts like engine, transmission, clutch, brakes.(Apply) 3 3     3               3  
CO 3 Describe how the steering and the suspension systems operate.(Evaluate) 3 3     3               3  
CO 4 Understand the environmental implications of automobile emissions.(Analyze) 3 3     3               3 3
CO 5 Develop a strong base for understanding future developments in the automobile industry.(Evaluate) 3 3     3               3 3
18ME707 Tool Design CO 1 Demonstrate various press working operations for mass production of sheet metal parts.(Remember) 3                     3   3
CO 2 Identify press tool requirements to build concepts pertaining to design of press tools.(Understand) 3           3             3
CO 3 Prepare working drawings and setup for economic production of sheet metal components.(Apply) 3               3     3   3
CO 4 Select suitable materials for different elements of press tools.(Analyze) 2 2                        
CO 5 Illustrate the principles and blank development in bent & drawn components.(Evaluate) 3         3               3
CO 6 Elaborate failure mechanisms of pressed components, safety aspects and automation in press working.(Create) 3         2 3 3           3
18ME708 Total Quality Management CO 1 Evaluate the principles of quality management and to explain how these principles can be applied within quality management systems.(Understand) 3       3       3 3   3 3  
CO 2 Identify the key aspects of the quality improvement cycle and to select and use appropriate tools and techniques for controlling, improving and measuring quality.(Analyze) 3 2 2   3       3 3   3 3  
CO 3 Critically appraise the organisational, communication and teamwork requirements for effective quality management.(Evaluate) 2 2 2           3 3   3 3 3
CO 4 Critically analyse the strategic issues in quality management, including current issues and developments, and to devise and evaluate quality implementation plans.(Analyze) 2                       3  
18ME710 Refrigeration and Air
Conditioning
CO 1 To provide a fundamentals of refrigeration and air conditioning, Psychrometry.(Remember) 2 1 2 1                 3 3
CO 2 To accustom with various methods of production of cold.(Understand) 3 2                        
CO 3 To impart knowledge about applications of refrigeration and air conditioning.(Apply) 3 3 3                   3  
CO 4 To familiarize with industrial protocols, regulations in the field.(Analyze) 2 2                        
18ME711 Tribology CO 1 Have a knowledge of surface topography and know how to model a rough engineering surface.(Remember) 2 2 2                   3 2
CO 2 Have a clear overall picture about the basics of tribology and related sciences, theoretical background about processes in tribological system, mechanisms and forms of interaction of friction surfaces.(Understand) 2 2 2                   3 2
CO 3 Understand Hertz contact and rough surface contact.(Apply) 2 2 2                   3 1
CO 4 Be familiar with adhesion theories and the effect of adhesion on friction and wear.(Analyze) 2 2 2                   3 2
CO 5 Have a mastery of the friction/lubrication mechanisms and know how to apply them to the practical engineering problem.(Evaluate) 2                          
CO 6 Know the methods to reduce the friction for engineering surface.(Analyze) 2 2 2                   3  
18ME712 Non-Conventional Energy
Sources
CO 1 Identify energy demand and relate with available energy resources.(Remember) 3 3                   2    
CO 2 Analyze harnessing of solar energy.(Understand) 3 3 3                   3  
CO 3 Analyze harnessing of wind energy.(Analyze) 3 2                   2   2
CO 4 Analyze harnessing of Biomass energy.(Analyze) 2 1                        
CO 5 Analyze harnessing of Geothermal and Ocean energies.(Analyze) 2   2                      
CO 6 Analyze Magneto hydrodynamics and Fuel cell technology.(Analyze) 3 3 3                   3  
18ME714 CAM Lab CO 1 Execute steps required for modeling 3D objects by using protrusion, cut, sweep, extrude commands.(Remember) 3 2     3               3 2
CO 2 Convert 3D solid models into 2D drawing-different views, sections.(Understand) 3 2 3   3               3 2
CO 3 Use isometric views and dimensioning of part models.(Apply) 3 2     3               3 2
CO 4 Machine simple components on CNC machines.(Analyze) 3 2     3               3 2
CO 5 Use CAM software to generate NC code.(Evaluate) 3 2     3               3 2
18ME715 Thermal Engineering Lab CO 1 Identify the various fuel characterizations through experimental testing.(Remember) 3 2     3                 2
CO 2 Analyze the performance characteristics of an internal combustion engines.(Understand) 2                       3  
CO 3 Evaluate the performance parameters of refrigeration systems.(Apply) 2 2     3                 2
CO 4 Analyze the air compressor characteristics.(Analyze) 3 2                     3 2
18ME716 Project Work Phase-I CO 1 Acquire the ability to make links across different areas of knowledge and to generate, develop and evaluate ideas and information so as to apply these skills to the project task.(Understand) 3 2             2 2   1    
CO 2 Acquire the skills to communicate effectively and to present ideas clearly and coherently to specific audience in both the written and oral forms.(Apply) 3 2     1       1       3  
CO 3 Acquire collaborative skills through working in a team to achieve common goals.(Analyze) 2 2             2 2   1    
CO 4 Learn on their own, reflect on their learning and take appropriate actions to improve it.(Evaluate) 1 1             2 2   1 3  
CO 5 Expertize in utilizing the modern tools to address various real time problems.(Analyze) 1 1             1       2  
CO 6 Work as an individual as well as a team member there by maintaining professionalism .(Understand) 2             2       2   2
SEM 8 18ME801 Power Plant Engineering CO 1 Describe and analyze different types of sources and mathematical expressions related to thermodynamics and various terms and factors involved with power plant operation.(Remember) 3   2 2                 2 2 2
CO 2 Analyze the working and layout of steam power plants and the different systems comprising the plant and discuss about its economic and safety impacts.(Understand) 3 2 2 2                 3 2  
CO 3 Combine concepts of previously learnt courses to define the working principle of diesel power plant, its layout, safety principles and compare it with plants of other types. (Apply) 3 1 2 2                 2 2  
CO 4 Describe the working principle and basic components of the nuclear power plant  and the economic and safety principles involved with it.(Analyze) 3 2 2 2                 2 3  
CO 5 Discuss the working principle and basic components of the  hydro electric plants and the economic principles and safety precautions involved with it.(Evaluate) 3 1 2 1                 1 3 2
CO 6 Discuss and analyze the mathematical and working principles of different electrical equipments involved in the generation of power.(Create) 3 3 1 2                 3 2 3
18ME802 Nano Materials Processing
and Properties 
CO 1 Learn basic material science with special, emphasize on nanomaterials.(Remember) 3       3             3 3    
CO 2 Know about processes in handling polymers and nanostructured materials.(Understand) 3 2 2   3             3 3    
CO 3 Understand various forms of nanomaterials and polymers for special applications.(Apply) 2 2 2                 3 3 3 2
CO 4 Understand Metal/Ceramic Powder synthesis methods for composite.(Understand) 2                       3    
CO5 Understand the environmental impact of nanostructured materials.(Understand) 3 2 2   3             3 3    
18ME803 Design and Analysis of
Experiments
CO 1 Critically review basic concepts and models of experimental design.(Remember) 2 2 2                 3 3 3 2
CO 2 Analyse the results of a designed experiment in order to conduct the appropriate statistical analysis of the data.(Understand) 2                       3    
CO 3 Interpret statistical results from an experiment and report them in non-technical language.(Apply) 3 2 2   3             3 3    
18ME804 Non Destructive Testing CO 1 Ability to apply scientific and technical knowledge to the field of non-destructive testing.(Apply) 3 2 2   3             3 3    
CO 2 Ability to use the relevant non-destructive testing methods for various engineering practice.(Analyze) 2 2 2                 3 3 3 2
CO 3 Ability to recognize and achieve high levels of professionalism in their work.(Understand) 2                       3    
CO 4 Recognition of the need and ability to engage in lifelong learning, thought process and development.(Create) 3 2 2   3             3 3    
18ME805 Rapid Prototyping CO 1 Describe product development, conceptual design and classify rapid prototyping systems; explain stereo lithography process and applications.(Understand) 3 3 2 2                 3 2  
CO 2 Explain direct metal laser sintering, LOM and fusion deposition modeling processes.(Apply) 3 3 2 1                 3    
CO 3 Demonstrate solid ground curing principle and process.(Analyze) 3 3 2 2                 3 2  
CO 4 Discuss LENS, BPM processes; point out the application of RP system in medical field define virtual prototyping and identify simulation components.(Evaluate) 3 3 2 1                 3   2
18ME806 Computational Fluid
Dynamics
CO 1 Familiar with the differential equations for flow phenomena and numerical methods for their solution.(Remember) 3 2 1                   3 1  
CO 2 Able to use and develop flow simulation software for the most important classes of flows in engineering and science.(Understand) 3 2 2 1                 3 1  
CO 3 Able to critically analyze different mathematical models and computational methods for flow simulations.(Analyze) 3 3 2 1                 3 1  
CO 4 Able to undertake flow computations using current best practice for model and method selection, and assessment of the quality of results obtained.(Evaluate) 3 3 3 1                 3 1  
18ME807 Design for Manufacturing CO 1 Students should be able to mathematically model a product and carry out constraint.(Understand) 3 2 3   3               3 2 1
CO 2 analysis and assembly sequence analysis.(Analyze) 3 2     3               3 2 1
CO 3 Students should be able to carry out tolerance analysis and synthesis.(Evaluate) 3 2     3               3 2 1
CO 4 Students should be able to apply principles of DFM to consumer products.(Create)                              
18ME809 Production Planning and
Control
CO 1 Understand the strategic implications of the Production Planning and Control (PPC).(Remember) 3 2     3               3 2 1
CO 2 Appreciate the concept demand management and forecasting.(Understand) 3 2 3   3               3 2 1
CO 3 Appreciate the link between demand management and Master Production Schedule.(Apply) 3 2     3               3 2 1
CO 4 Understand the main PPC systems.(Understand) 3 2     3               3 2 1
CO 5 Appreciate the importance of capacity planning.(Analyze) 3 2                     3    
CO 6 Understand the importance of controlling production activities.(Evaluate) 3 2                     3    
18ME810 Concepts of Engineering
Design
CO 1 Understand the broad scope of design engineering.(Remember) 3       3             3 3    
CO 2 Recognise the main drivers for design engineering.(Understand) 3 2 2   3             3 3    
CO 3 Describe how human variation impacts on design engineering.(Apply) 2 2 2                 3 3 3 2
CO 4 Apply some basic concepts and methods from design engineering to explore creative solutions to clearly defined real world problems.(Apply) 2                       3    
CO 5 Demonstrate skills in communication, presentation, information handling and numeracy through the completion of activities.(Create) 3 2 2 1                 2 2 3
18ME811 Mechanical Vibrations CO 1 Formulate mathematical models of problems in vibrations using Newton's second law or energy principles.(Understand) 3                     3   3  
CO 2 Determine a complete solution to the modeled mechanical vibration problems.(Apply) 3           3             3  
CO 3 Correlate results from the mathematical model to physical characteristics of the actual system.(Analyze) 3               3     3   3  
CO 4 Design of a mechanical system using fundamental principles developed in the class.(Evaluate) 3         3               3 2
18ME813  Project Work Phase-II/
Internship
CO 1 Demonstrate a sound technical knowledge of their selected project topic.(Remember) 3 2             2 2   1      
CO 2 Undertake problem identification, formulation and solution.(Understand) 3 2     1       1            
CO 3 Design engineering solutions to complex problems utilising a systems approach.(Apply) 2 2             2 2   1      
CO 4 Conduct an engineering project.(Analyze) 1 1             2 2   1      
CO 5 Communicate with engineers and the community at large in written an oral forms.(Evaluate) 1 1             1            
CO 6 Demonstrate the knowledge, skills and attitudes of a professional engineer.(Create)               2       2      
18ME506 Electric Cars CO 1 Explain the basics of electric and electric vehicles, their architecture, technologies and fundamentals.(Remember) 3 3                     3    
CO 2 Explain plug in electric vehicle architecture, design and component sizing and the power electronics devices used in hybrid electric vehicles.(Understand) 3 3     3               3   1
CO 3 Analyze various electric drives suitable for electric vehicles.(Apply) 3 3     3               3    
CO 4 Discuss different energy storage technologies used for electric vehicles and their control.(Analyze) 3 3     3               3 3  
CO 5 Demonstrate different configurations of electric vehicles and its components, hybrid vehicle.(Create) 2 2 2                 3 3 3 2
18ME507 Mechatronics CO 1 Develop a simulation model for simple physical systems and explain mechatronics design process.(Remember) 3 3               2   3   3  
CO 2 Outline appropriate sensors and actuators for an engineering application.(Understand) 3         2 2         3   3  
CO 3 Write simple microcontroller programs.(Apply) 3 3 2         3         3    
CO 4 Explain linearization of nonlinear systems and elements of data acquisition.(Analyze) 3 3 2                     2 2
CO 5 Explain various applications of design of mechatronic systems.(Evaluate) 2 2 2                 3 3 3 2
18ME508 Robotics for Future Industrial Applications CO 1 Understand basic parts and configurations of robotic systems.(Remember) 2 1 2 1                 3 3  
CO 2 Analyze robotic systems using forward and inverse kinematics.(Analyze) 2 1 2 1                 3 3 2
CO 3 Analyze robotic systems for dynamic performance using Lagrange –Euler and Newton-Euler formulations.(Evaluate) 2 1 2 1                 3 1  
CO 4 Develop a trajectory plan for a given application.(Apply) 2 2 3 3 1                 3 2
CO 5 Understand actuators and feedback devices used in robotic systems.(Understand) 2 1 2 1                 3 3 2
18ME609 Energy Systems CO 1 Apply physical principles of solar insolation to develop solar thermal systems .(Remember) 3 2 3   3               3 2  
CO 2 Estimate the wind potential and perform forecast analysis.(Analyze) 3 2     3               3 2 1
CO 3 Apply design concepts to develop wind energy systems with a minimal impact on environment.(Apply) 3 2 2   3             3 3    
CO 4 Demonstrate an understanding of producing useful energy from bio-mass .(Create) 3 1 2 1                 1 3 2
18ME610 Six Sigma CO 1 Develop conceptual and practical understanding of what six sigma is, benefits/ requirements and tools used.(Remember) 3                     3   3  
CO 2 Apply method into real world to deliver result; learn a systematic 1, 2, 3 method for achieving world-class quality in product development and manufacturing.(Understand) 3           3             3  
CO 3 Develop understanding of how statistical/graphical data analysis enables data driven decision making.(Apply) 3               3     3   3  
CO 4 Changes the way we think and approach problem solving.(Analyze) 3         3               3  
CO 5 Appreciate availability and use data analysis software.(Evaluate) 3         2 3 3           3  
CO 6 Changes the way we examine and look at data.(Create) 2 1 2 1                 3 3 2
18ME611 Total Quality Management CO 1 Evaluate the principles of quality management and to explain how these principles can be applied within quality management systems. 1 1   1   2 1 1 2 3 1     2  
CO 2 Identify the key aspects of the quality improvement cycle and to select and use appropriate tools and techniques for controlling, improving and measuring quality. 1 1 1       1   1            
CO 3 Critically appraise the organisational, communication and teamwork requirements for effective quality management 1 2 2 2       1 1 3       2  
CO 4 Critically analyse the strategic issues in quality management, including current issues and developments, and to devise and evaluate quality implementation plans 2 2 2 1 1         1          
18ME703 Smart Materials CO 1 Understand the concept of smart materials and smart structures.(Remember) 3 3 3                   3   2
CO 2 Develop familiarity with piezoelectric materials and their use as sensors and actuators in various configurations.(Understand) 3 2                   2   2  
CO 3 Develop familiarity with shape-memory alloys.(Apply) 2 1                          
CO 4 Knowledge of various other smart materials/structures with application examples.(Analyze) 2   2                        
18ME704 Micro- Electromechanical Systems [MEMS] CO 1 Students will explain MEMS Technology, Present, Future and Challenges.(Remember) 3 2 1                   3 1  
CO 2 Students will be able to explain micro sensors, micro-actuators, their types and applications.(Understand) 3 2 2 1                 3 1  
CO 3 Students will be able to explain about fabrication processes for producing micro-sensors and actuators. (Analyze) 3 3 2 1                 3 1  
CO 4 They will also be able to apply Reliability, and Failure Analysis Testing.(Create) 3 3 3 1                 3 1