PEO,PO,PSO & CO

CO2

Identify and describe the components of system of forces acting on the rigid body

CO3

Apply the conditions of equilibrium to various practical problems involving different force system.

CO4

Choose appropriate theorems, principles or formulae to solve problems of mechanics.

CO5

Solve problems involving rigid bodies, applying the properties of distributed areas and masses

CO2

Identify the tools used for electrical wiring, electrical accessories, wires, cables, batteries and standard symbols

CO3

Develop the connection diagram, identify the suitable accessories and materials necessary for wiring simple lighting circuits for domestic buildings

CO4

Identify and test various electronic components

CO5

Draw circuit schematics with EDA tools

CO7

Work in a team with good interpersonal skills

CO2

Develop and solve models of magnetic circuits

CO3

Apply the fundamental laws of electrical engineering to solve simple ac circuits in steady state

CO4

Describe working of a voltage amplifier

CO5

Outline the principle of an electronic instrumentation system

CO6

Explain the principle of radio and cellular communication

CO2

Develop an awareness of the self and apply well-defined techniques to cope with emotions and stress

CO3

Explain the basic mechanics of effective communication and demonstrate these through presentations

CO4

Take part in group discussions

CO5

Use appropriate thinking and problem-solving techniques to solve new problems

CO6

Understand the basics of teamwork and leadership

CO2

Identify the tools used for electrical wiring, electrical accessories, wires, cables, batteries and standard symbols

CO3

Develop the connection diagram, identify the suitable accessories and materials necessary for wiring simple lighting circuits for domestic buildings

CO4

Identify and test various electronic components

CO5

Draw circuit schematics with EDA tools

CO6

Assemble and test electronic circuits on boards

CO7

Work in a team with good interpersonal skills

CO2

Understand the need for precise measurement practices for data recording

CO3

Understand the principle, concept, working and applications of relevant technologies and comparison of results with theoretical calculations

CO4

Analyze the techniques and skills associated with modern scientific tools such as lasers and fibre optics

CO5

Develop basic communication skills through working in groups in performing laboratory experiments and by interpreting the results

CO6

Assemble and test electronic circuits on boards

CO2

Evaluate surface and volume integrals and learn their inter-relations and applications

CO3

Solve homogeneous and non-homogeneous linear differential equations with constant coefficients

CO4

Compute Laplace transform and apply them to solve ODEs arising in engineering

CO5

Determine the Fourier transforms of functions and apply them to solve problems arising in engineering.

CO2

Understand various spectroscopic techniques like UV-Visible, IR, NMR and its applications

CO3

Apply the knowledge of the analytical method for characterizing a chemical mixture or a compound. Understand the basic concept of SEM for surface characterisation of nanomaterials.

CO4

Learn about the basics of stereochemistry and its application. Apply the knowledge of conducting polymers and advanced polymers in engineering

CO5

Study various types of water treatment methods to develop skills for treating wastewater.

CO2

Prepare multiview orthographic projections of objects by visualizing them in different positions

CO3

Draw sectional views and develop surfaces of a given object.

CO4

Prepare pictorial drawings using the principles of isometric and perspective projections to visualize objects in three dimensions.

CO5

Convert 3D views to orthographic views

CO6

Obtain multiview projections and solid models of objects using CAD tools

CO2

Develop readable C programs with branching and looping statements, which use Arithmetic, Logical, Relational or Bitwise operators

CO3

Write readable C programs with arrays, structures or union for storing the data to be processed

CO4

Divide a given computational problem into a number of modules and develop a readable multi-function C program by using recursion if required, to find the solution to the computational problem

CO5

Write readable C programs which use pointers for array processing and parameter passing

CO6

Develop readable C programs with files for reading input and storing output

CO7

Work in a team with good interpersonal skills

CO2

Analyze, interpret and effectively summarize a variety of textual content

CO3

Create effective technical presentations

CO4

Discuss a given technical/non-technical topic in a group setting and arrive at generalizations/consensus

CO5

Identify drawbacks in listening patterns and apply listening techniques for specific needs

CO6

Create professional and technical documents that are clear and adhering to all the necessary conventions

CO2

Explain different types of buildings, building components, building materials and building construction

CO3

Describe the importance, objectives and principles of surveying

CO4

Summarize the basic infrastructure services MEP, HVAC, elevators, escalators and ramps

CO5

Discuss the Materials, energy systems, water management and environment for green buildings

CO6

Analyze thermodynamic cycles and calculate its efficiency

CO7

Illustrate the working and features of IC Engines

CO8

Explain the basic principles of Refrigeration and Air Conditioning

CO9

Describe the working of hydraulic machinesExplain the working of power transmission elements

CO10

Explain the working of power transmission elements

CO11

Describe the basic manufacturing, metal joining and machining processes

CO2

Develop skills relevant to synthesize organic polymers and acquire the practical skill to use TLC for the identification of drugs

CO3

Develop the ability to understand and explain the use of modern spectroscopic techniques for analysing and interpreting the IR spectra and NMR spectra of some organic compounds

CO4

Acquire the ability to understand, explain and use instrumental techniques for chemical analysis

CO5

Learn to design and carry out scientific experiments as well as accurately record and analyze the results of such experiments

CO6

Function as a member of a team, communicate effectively and engage in further learning. Also understand how chemistry addresses social, economical and environmental problems and why it is an integral part of curriculum

CO2

Explain the use of various tools and devices for various field measurements

CO3

Demonstrate the steps involved in basic civil engineering activities like plot measurement, setting out operation, evaluating the natural profile of land, plumbing and undertaking simple construction work

CO4

Choose materials and methods required for basic civil engineering activities like field measurements, masonry work and plumbing

CO5

Compare different techniques and devices used in civil engineering measurements

CO6

Identify Basic Mechanical workshop operations in accordance with the material and objects

CO7

Apply appropriate Tools and Instruments with respect to the mechanical workshop trades

CO8

Apply appropriate safety measures with respect to the mechanical workshop trades

CO2

Analyse and solve one dimensional wave equation and heat equation.

CO3

Understand complex functions, its continuity differentiability with the use of Cauchy-Riemann equations.

CO4

Evaluate complex integrals using Cauchy’s integral theorem and Cauchy’s integral formula, understand the series expansion of analytic function

CO5

Understand the series expansion of complex function about a singularity and Apply residue theorem to compute several kinds of real integrals.

CO2

Analyse the strength of materials using stress-strain relationships for structural and thermal loading

CO3

Perform basic design of shafts subjected to torsional loading and analyse beams subjected to bending moments

CO4

Determine the deformation of structures subjected to various loading conditions using strain energy methods

CO5

Analyse column buckling and appreciate the theories of failures and its relevance in engineering design

CO2

Explain fluid kinematics and Classify fluid flows

CO3

Interpret Euler and Navier-Stokes equations and Solve problems using Bernoulli’s equation

CO4

Evaluate energy loses in pipes and sketch energy gradient lines

CO5

Explain the concept of boundary layer and its applications

CO6

Use dimensional Analysis for model studies

CO2

Analyze the microstructure of metallic materials using phase diagrams and modify the microstructure and properties using different heat treatments.

CO3

How to quantify mechanical integrity and failure in materials

CO4

Apply the basic principles of ferrous and non-ferrous metallurgy for selecting materials for specific applications.

CO5

Define and differentiate engineering materials on the basis of structure and properties for engineering applications.

CO2

Apply design thinking while learning and practicing engineering.

CO3

Develop innovative, reliable, sustainable and economically viable designs incorporating knowledge in engineering.

CO2

Prepare standard assembly drawings of machine components and valves using part drawings and bill of materials.

CO3

Apply limits and tolerances to components and choose appropriate fits for given assemblies

CO4

Interpret the symbols of welded, machining and surface roughness on the component drawings.

CO5

Prepare part and assembly drawings and Bill of Materials of machine components and valves using CAD software.

CO2

To understand the behaviour of engineering component subjected to cyclic loading and failure concepts

CO3

Evaluate the strength of ductile and brittle materials subjected to compressive, Tensile shear and bending forces

CO4

Evaluate the microstructural morphology of ductile or brittle materials and its fracture modes (ductile /brittle fracture) during tension test

CO5

To specify suitable material for applications in the field of design and manufacturing. Calculate the hardness and toughness of a given specimen

CO2

Choose the appropriate sensors and actuators for robots

CO3

Choose appropriate Robotic configuration and gripper for a particular application

CO4

Obtain kinematic model of robotic manipulators

CO5

Plan trajectories in joint space and Cartesian space

CO6

Develop dynamic model and design the controller for robotic manipulators

CO2

Classify the types of combustion and its products

CO3

Demonstrate the operation of fire service equipment’s and practical firefighting.

CO4

Categorize the buildings and design the evacuation methods

CO5

Apply acquired knowledge on real life problems

CO2

Understand the concept, properties and important models of continuous random variables and, using them, analyse suitable random phenomena.

CO3

Perform statistical inferences concerning characteristics of a population based on attributes of samples drawn from the population

CO4

Compute roots of equations, evaluate definite integrals and perform interpolation on given numerical data using standard numerical techniques

CO5

Apply standard numerical techniques for solving systems of equations, fitting curves on given numerical data and solving ordinary differential equations.

CO2

Categorize welding processes according to welding principle and material.

CO3

Understand requirements to achieve sound welded joint while welding different similar and dissimilar engineering materials.

CO4

Estimate the working loads for pressing, forging, wire drawing etc.

CO5

Recommend appropriate part manufacturing processes when provided a set of functional requirements and product development constraints.

CO2

Calculate forces and work done by a jet on fixed or moving plate and curved plates

CO3

Explain the working of turbines and Select a turbine for specific application.

CO4

Analyse the working of air compressors and Select the suitable one based on application.

CO5

Analyse gas turbines and Identify the improvements in basic gas turbine cycles.

CO2

Adopt a good character and follow an ethical life.

CO3

Explain the role and responsibility in technological development by keeping personal ethics and legal ethics.

CO4

Solve moral and ethical problems through exploration and assessment by established experiments.

CO5

Apply the knowledge of human values and social values to contemporary ethical values and global issues.

CO2

Utilize the fundamental rights and duties.

CO3

Understand the working of the union executive, parliament and judiciary.

CO4

Understand the working of the state executive, legislature and judiciary.

CO5

Utilize the special provisions and statutory institutions.

CO6

Show national and patriotic spirit as responsible citizens of the country

CO2

Calibrate flow measuring devices (notches, orifice meter and Venturi meter)

CO3

Evaluate the losses in pipes

CO4

Determine the metacentric height and stability of floating bodies

CO5

Determine the efficiency and plot the characteristic curves of different types of pumps and turbines

CO 2

Apply cutting mechanics to metal machining based on cutting force and power consumption.

CO 3

Select appropriate machining processes and process parameters for different metals.

CO 4

Fabricate and assemble various metal components by welding and students will be able to visually examine their work and that of others for discontinuities and defects.

CO 5

Infer the changes in properties of steel on annealing, normalizing, hardening and tempering.

CO2

Understand the working principle and applications of different types of sensors.

CO3

Study the design aspects of modern CNC machines.

CO4

Study the basic principles and operation of different types of material handling devices.

CO5

Develop different pneumatic circuits based on their applications.

CO6

Familiarize the basic concepts of PLC programming.

CO7

Understand different automated inspection methods.

CO2

Classify the tools and equipments used in various manufacturing processes.

CO3

Describe the safe operating procedure to be followed in manufacturing processes.

CO4

Identify the hazards in work places.

CO5

Choose the material handling technique to be followed depending on various work related factors.

CO2

Perform analysis and synthesis of mechanisms

CO3

Solve the problem on cams and gear drives, including selection depending on requirement.

CO4

Calculate the gyroscopic effect in various situations

CO5

Analyse rotating and reciprocating masses for its unbalance

CO2

Discuss the working of steam turbines and methods for evaluating the performance

CO3

Illustrate the performance testing and evaluation of IC engines

CO4

Explain the combustion phenomenon and pollution in IC engines

CO5

Discuss the principles of refrigeration and air-conditioning and basic design considerations

CO2

Calculate the inventory system for a given requirement

CO3

Explain the importance of industrial relations

CO4

Select the lean manufacturing tools to find and eliminate wastes

CO5

Identify the framework of agile manufacturing

CO6

Identify core and extended modules of enterprise resource planning

CO2

Analyze of the tool nomenclature with surface roughness obtainable in each machining processes.

CO3

Understand the limitations of various machining process with regard to shape formation and surface texture.

CO4

Demonstrate knowledge of the underlying principles of measurement, as they relate to mechanical measurement, electronic instrumentation, and thermal effects.

CO5

Get an exposure to advanced measuring devices and machine tool metrology.

CO2

Describe the functions of management

CO3

Demonstrate ability in decision making process and productivity analysis

CO4

Illustrate project management technique and develop a project schedule

CO5

Summarize the functional areas of management

CO6

Comprehend the concept of entrepreneurship and create business plans

CO2

Describe hazard mapping, its objectives and applications of hazard maps, vulnerabilities and the approaches to assess them

CO3

Explain the concept of disaster risk and disaster preparedness

CO4

Explain disaster prevention ,disaster communication and capacity building in the context of disaster management

CO5

 Explain the levels of stakeholder participation in the context of disaster risk reduction

CO6

Explain the salient features of the National Policy on Disaster Management in India

CO2

Determine limits and fits and allocate tolerances for machine components

CO3

CNC programming and to use coordinate measuring machine to record measurements of complex profiles with high sensitivity.

CO4

Use effective methods of measuring straightness, Squareness, flatness, roundness, profile, screw threads and gear teeth.

CO5

Securing knowledge of manufacturing components within the tolerance limit and surface roughness according to given drawings using various machine tools.

CO2

Identify various systems and subsystems of Diesel and petrol engines

CO3

Analyse the performance characteristics of internal combustion engines

CO4

Investigate the emission characteristics of exhaust gases from IC Engines

CO5

Interpret the performance characteristics of air compressors / blowers

CO2

Explain the different learning techniques used in Machine learning

CO3

Recognize the need for multilayer neural network for solving complex tasks

CO4

Understand the fundamental concepts of Image processing and its application in computer vision

CO5

Explain the different ways of perception of the environment by a robot and its use in path planning

CO2

Explain the different types of occupational diseases and its prevention

CO3

Describe the functions of OH service

CO4

Explain the importance of community health and preventive medication

CO5

Describe the maintenance of industrial hygiene and safety

CO2

Analyse and obtain solutions to problems involving various modes of heat transfer

CO3

Design heat transfer systems such as heat exchangers, fins, radiation shields etc.

CO4

Define laminar and turbulent boundary layers and ability to formulate energy equation in flow systems.

CO2

Analyse free and forced vibrations of single degree of freedom systems

CO3

Determine the natural frequencies of a two degree of freedom vibrating system and to calculate the stresses in a structural member due to combined loading

CO4

Design machine elements subjected to fatigue loading and riveted joints

CO5

Design welded joint and close coiled helical compression spring

CO2

CNC programming, select appropriate tooling and fixtures.

CO3

To categorize the various nontraditional material removal process based on energy sources and mechanism employed.

CO4

Analyze the processes and evaluate the role of each process parameter during micro machining of various advanced material removal processes.

CO5

Explain the processes used in additive manufacturing for a range of materials and applications.

CO2

Differentiate various defect types and select the appropriate NDT methods for the specimen.

CO3

Calibrate the instrument and evaluate the component for imperfections.

CO4

Have a basic knowledge of ultrasonic testing which enables them to perform inspection of samples.

CO5

Have a complete theoretical and practical understanding of the radiographic testing, interpretation and evaluation.

CO2

Take appropriate decisions regarding volume of output and to evaluate the social cost of production.

CO3

Determine the functional requirement of a firm under various competitive conditions.

CO4

Examine the overall performance of the economy, and the regulation of economic fluctuations and its impact on various sections in the society

CO5

Determine the impact of changes in global economic policies on the business opportunities of a firm

CO2

Comprehend the questions in Mechanical Engineering field and answer them with confidence

CO3

Communicate effectively with faculty in scholarly environments

CO4

Analyze the comprehensive knowledge gained in basic courses in the field of Mechanical Engineering

CO2

Gain knowledge in creating solid machinery parts.

CO3

Gain knowledge in assembling machine elements.

CO4

Gain working knowledge in Finite Element Analysis.

CO5

Solve simple structural, heat and fluid flow problems using standard software

CO2

Analyse the performance of heat exchangers

CO3

Illustrate the operational performances of refrigeration and air conditioning systems

CO4

Perform calibration of thermocouples and pressure gauges

CO2

Derive the kinematic and dynamic model of a mobile robot

CO3

Choose appropriate Sensors for mobile robots

CO4

Perform path planning for mobile robot

CO5

Control the mobile robots to follow different paths

CO6

Understand the various practical applications of mobile robot

CO2

Explain water and wastewater characterisation and treatment processes.

CO3

Discuss the importance of solid waste and hazardous waste management in environmental engineering.

CO4

Outline the causes, effects and management of radioactive pollution and noise pollution in industries.

CO5

Describe the basics of an Environmental Management System (EMS) applicable to an industry

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