B.TECH I YEAR-I SEMESTER (R18)
MATHEMATICS I
CO1: Student will be able to understand, model and solve Differential Equations of first order and higher order using various methods.
CO2: Students will be able to identify properties of functions like Function Optimization, Functional Dependence.
CO3: Student will be able to implement knowledge of differential calculus topics like Radius of Curvature, Envelopes in their respective domains.
CO4: Apply techniques like Laplace Transforms in Circuit Analysis and Control Systems.
CO5: Student will acquire the knowledge of finding areas and volumes using Multiple Integrals.
CO6: Student will develop the skill required in solving problems related to vector fields.
ENGINEERING CHEMISTRY
CO1: Understands the electrochemical cells, batteries and corrosion.
CO2: Understands the water hardness, boiler troubles and softening methods of water.
CO3: Understands the types of fuels and their applications.
CO4: Understands the phase rule and surface chemistry.
CO5: Understands the different types of engineering materials.
PROBLEM SOLVING THROUGH ‘C’
CO1: Develop the skills of writing algorithm and flowchart and understand the pseudo code for a given problem and discriminate the significance of operator precedence and associative properties.
CO2: Explore the Selective and Iterative Constructs for Programming and choose appropriate control structure to represent the iterations based on initial conditions.
CO3: Incorporate the preprocessor directives, conditional compilation statements and define macros in the program and exercise user defined functions.
CO4: Develop the skills of representing a collection of homogeneous data items through arrays and realize the dynamic memory allocation using pointers which is essential in effective utilization of memory.
CO5: Illustrate and Appreciate the advantages of modular programming through functions and Possible recursions.
ENVIRONMENTAL STUDIES
CO1 : Define the concepts of Ecology and Ecosystem and emphasize the importance of biodiversity and its conservation.
CO2 : Gain knowledge on natural resources and advantages and disadvantages on renewable energy sources and technologies.
CO3 : Develop awareness on pollution control technologies and global atmospheric changes.
CO4 : Emphasize the importance of Environmental impact assessment and green technologies.
CO5 : Understand about Environmental legislation and the concept of Sustainable Development.
ENGINEERING GRAPHICS & AUTOCAD
CO1: Know the Standard conventions and Construction of various Engineering curves through Auto CAD.
CO2: Apply fundamentals of theory of projections and draw orthographic projections of points and lines in any position through Auto CAD.
CO3: Construct orthographic projections of simple planes and regular solids in any position through Auto CAD.
CO4: Draw sectional views and developments of various basic 3D objects through Auto CAD.
CO5: Construct isometric views and construct multi view drawings of simple and complex 3D objects through Auto CAD.
ENGLISH LANGUAGE AND COMMUNICATION SKILLS LAB I
CO1: Emerge as good speakers.
CO2: Evolve into accomplished and active readers.
CO3: Write effectively for a variety of professional social settings.
CO4: Develop critical and analytical thinking.
ENGINEERING CHEMISTRY LAB
CO1: Determine unknown solution concentration.
CO2: Estimate the amount of given unknown colored solution.
CO3: Determine the physical properties of liquids.
CO4: Analyze given sample and find its hardness and purity.
CO5: Study organic compounds.
COMPUTER PROGRAMMING LAB
CO1: Discern the internal data representation (byte ordering) followed in Intel processors and appreciate the type system implanted in the C programming language.
CO2: Develop the skills of taking appropriate control structure to represent the repetitive actions based on initial conditions.
CO3: Explore the skills to demonstrate the parameter passing aspects to user defined functions.
CO4: Explore the skills in using arrays for solving problems on matrices.
CO5: Explore the skills of using dynamic memory allocation functions in solving problems related to memory.
ENGINEERING WORKSHOP
CO1: Acquire skills of basic engineering trades like Black smithy, foundry etc.,
CO2: Apply the knowledge of the above trades in their day –to – day activities.
CO3: Select appropriate equipment and consumables for required application and also to apply knowledge of tools required for getting an object of required shape and size.
CO4: To identify the peripherals of PC, assemble and disassemble PC components.
CO5: To be able to install the System software MS Windows Linux and required device drivers.
CO6: students should be able to work with productivity tools like MS word, MS excel, MS power point, Latex.
B.TECH I YEAR -II SEMESTER (R18)
ENGLISH
CO1: Identify word meanings in given lessons.
CO2: Identify inferences in given tasks.
CO3: write grammatically complete sentences.
CO4: write Coherent sentences.
CO5: Understand explicit information.
CO6: Understand implicit information.
MATHEMATICS II
CO1: Apply the concept of rank of a matrix to analyze and solve linear systems; compute Eigen values and Eigen vectors of matrices which are required for many engineering applications
CO2: Understand interpolation and obtain approximate solutions for evenly and unevenly spaced data.
CO3: Fit a given data to a linear/non-linear curve and appreciate the concepts of numerical differentiation and integration.
CO4: Develop the skill of finding approximate solutions to problems arising in linear/non-linear initial value differential Equations.
CO5: Express a given function into a Fourier series/ Half-Range Fourier cosine and sine series.
CO6: Solve linear and non-linear P.D.E of first order and solve P.D.E by the method of separation of variables.
COMPUTATIONAL MATHEMATICS
CO1: Demonstrate the concepts of linearity and linear systems, which lie at the core level of many engineering concepts and to study eigen value problem.
CO2: Demonstrate the concept of diagonalisation and reduction of quadratic forms to canonical forms.
CO3: Introduce the concept of Laplace transform and to obtain the skill of solving initial value problems using Laplace transforms.
CO4: Demonstrate the skill of decomposing a periodic and non-periodic function into fundamental components using Fourier series.
CO5: Acquire the knowledge of the PDE and the skill of finding analytical solutions of such equations.
ENGINEERING PHYSICS
CO1: Study of basic physics involved in crystallography and identify crystal defects.
CO2: Study of basic physics involved in crystallography and identify crystal defects.
CO3: Explore the working of different types of diodes and study the behavior of dielectric materials.
CO4: Study the behavior of magnetic materials and acquire the principles of nanotechnology involving preparation of nanomaterials and the concepts involving the physics of lasers and optical fiber
ENGINEERING MECHANICS
CO1: Solve for the resultants of any force system and determine equivalent force system.
CO2: Determine displacement of completely constrained bodies by principles of virtual work and solve the mechanics problems associated with friction force.
CO3: Calculate the centroid, first moment and second moment of area.
CO4: Find the velocity and acceleration of rigid bodies in rectilinear and curvilinear motion.
CO5: Analyze the forces acting on rigid body during translation motion.
ENGLISH LANGUAGE AND COMMUNICATION SKILLS LAB II
CO1: Emerge as good speakers.
CO2: Evolve into accomplished and active readers.
CO3: Write effectively for a variety of professional social settings.
CO4: Develop critical and analytical thinking.
COMPUTATIONAL MATHEMATICS LAB
CO1: Demonstrate the concepts of linearity and linear systems, which lie at the core level of many engineering concepts and to study eigen value problem.
CO2: Demonstrate the concept of diagonalisation and reduction of quadratic forms to canonical forms.
CO3: Introduce the concept of Laplace transform and to obtain the skill of solving initial value problems using Laplace transforms.
CO4: Demonstrate the skill of decomposing a periodic and non-periodic function into fundamental components using Fourier series.
CO5: Acquire the knowledge of the PDE and the skill of finding analytical solutions of such equations.
ENGINEERING PHYSICS LAB
CO1: Recognize errors and their role in physical measurements.
CO2: Develop skills in handling different laboratory instruments.
CO3: Explore the physical concepts involved.
CO4: Investigate and present the observations.
CO5: Assess the magnitudes of the physical quantities involved.
INFORMATION TECHNOLOGY WORKSHOP
CO1: Identify the peripherals of PC, assemble and disassemble PC Components.
CO2: Install the System software MS Windows, Linux and required device drivers
CO3: Work with Word Processing tool (LibreOffice – Writer) for effectively documenting the reports
CO4: Work with Spread Sheet tool (LibreOffice – Calc) for analysis of data using basic Mathematical and statistical methods
CO5: Work with Presentation tool (Libre Office – Impress) for effectively presenting the reports using slideshows
CO6: Design basic Web Pages.
B.TECH II YEAR-I SEMESTER (R18)
STRENGTH OF MATERIALS
CO1 : Understand the concepts of stress at a point, strain at a point, and the stress-strain relationships for linear, elastic, homogeneous, isotropic materials
CO2: Draw Shear Force, Bending Moment diagrams and determine the slope & deflections produced in beams subjected to various types of loading.
CO3: Analyze and design the structural members subjected to bending, shearing and analyze the perfect frames.
CO4: Determine principal stresses and strains, maximum shearing stresses and strains, and the stresses acting on any arbitrary plane within a structural element.
CO5 : Design machine members subjected to torsion and analyze the thick & thin cylinders in order to meet desired conditions
THERMODYNAMICS
CO1: Explain the various thermodynamic terms & forms of energy, Concept of thermometry, analyze the work and heat interactions by using the first law of thermodynamics
CO2: Analyze second law of thermodynamics; evaluate entropy changes in a wide range of processes, Gibbs and Helmholtz functions, Maxwell relations.
CO3: Analyze the deviation of real gases from ideal gas behavior, compressibility chart, thermodynamic tables and Mollier diagram for pure substances.
CO4: Apply the concepts of Mixture of perfect gases, Use of psychometric chart properties in air-water vapour mixtures for analysis and design of air conditioning systems.
CO5: Evaluate the performance of gas and vapor power cycles, analyze the problems based on brayton and vapour compression cycles.
METALLURGY & MATERIAL SCIENCE
CO1: Describe the crystal structures of materials and correlate structure with properties
CO2: Attain the knowledge of phases in solid state, phase diagrams and production of metals
CO3: Express the importance of composition, properties and applications of ferrous and non-ferrous metals
CO4: Acquire the knowledge on various heat treatment processes
CO5: Attain the knowledge on ceramics, polymers and composites.
PROBABILITY AND STATISTICS
CO1: Compare the accuracy of several schemes in engineering problems
CO2: Illustrate the concepts of data interpretation in terms of variables associated with the outcomes of an experiment.
CO3: Predict the past and future course of action in any engineering problem he is faced with.
CO4: Reach a conclusion after using statistical techniques in solving his problems
CO5: Use to queuing theory to serve a customer without much delay, thus reducing time and congestion by using probability law.
BASIC ELECTRICAL AND ELECTRONICS ENGINEERING
CO1: To Understand the basics of electrical engineering like resistive, inductive, capacitive Networks
CO2: To get idea of practical applications like Motors and Generators
CO3: To understand the idea of transformers which are useful in industries
CO4: To get idea of AC Machines like induction Motors and Alternators
CO5: To understand the working of basic electrical measuring instruments
STRENGTH OF MATERIALS & MATERIAL SCIENCE AND METALLURGY LAB
CO1: Analyze the given problem.
CO2: Conduct investigation on the experimental setup.
CO3: Use modern tools for measurements/modeling and simulation/draw the graphs etc.
CO4: Understand the environmental impact of the investigation.
CO5: Work individually and in a team for conducting the experiments.
CO6: Effectively communicate and explain the experimental analysis.
MACHINE DRAWING AND AUTOCAD
CO1: Recognize the conventional representation of materials and various standard components.
CO2: Study different categories of drawings.
CO3: Draw various machine components in three orthogonal views.
CO4: Draw small assembly drawings with details.
CO5: Draw assembly drawings using the conventions.
ELECTRICAL AND ELECTRONICS ENGINEERING LAB
CO1: Analyze the given problem.
CO2: Conduct investigation on the experimental setup
CO3: Use modern tools for measurements/modeling and simulation/draw the graphs etc.
CO4: Understand the environmental impact of the investigation.
CO5: Work individually and in a team for conducting the experiments.
CO6: Effectively communicate and explain the experimental analysis.
REASONING AND DATA INTERPRETATION LAB
CO1: Analyze the given problem.
CO2: Conduct investigation on the experimental setup.
CO3: Use modern tools for measurements/modeling and simulation/draw the graphs etc.
CO4: Understand the environmental impact of the investigation.
CO5: Work individually and in a team for conducting the experiments.
CO6: Effectively communicate and explain the experimental analysis.
B.TECH II YEAR II SEMESTER (R18)
APPLIED THERMODYNAMICS-I
CO1: Compare actual and air standard cycles and also understand the working of IC engines.
CO2: Acquire the knowledge of phenomenon of combustion in SI and CI engines and its effect on environment and the concepts of knocking and fuel rating.
CO3: Compute performance parameters, understand the working of reciprocating compressors and compute its efficiency.
CO4: Acquire the knowledge of working of various rotary/ centrifugal compressors
CO5: Explain the working of application of centrifugal, actual flow compressors and compute the efficiency
MECHANICS OF FLUIDS AND HYDRAULIC MACHINERY
CO1: Define the concepts of fluid statics and articulate the principles of flow measuring devices.
CO2: Analyze the fluid flow using the concepts of kinematics (Continuity eqn.) and dynamics (momentum eqn.) and measurement of flow using various flow meters.
CO3: compute losses in closed conduit flow and understand the concepts of boundary layer and the effect of drag and lift
CO4: calculate the magnitude and location of hydrostatic forces on flat plate and curved surface, and apply its concepts for hydraulic turbines and compute their performance.
CO5: Calculate required wattage and performance parameters of centrifugal pumps for different applications and working principle of reciprocating pumps.
KINEMATICS OF MACHINERY
CO1: Identify the inversions of fundamental mechanisms and write their applications.
CO2; Explain the application of Hooke’s joint and various transmitted methods such as belt, rope and chain drive and solve problems
CO3: Analyze velocity and acceleration of different links of a given mechanism.
CO4: Classify gears and gear trains and compute velocity ratio.
CO5: Analyze various types of cam and followers with different kinds of follower motion.
MANUFACTURING PROCESSES
CO1: Acquire, analyze and select suitable manufacturing process for a product.
CO2: Elaborate fundamental of shaping processes and various casting techniques.
CO3: Identify importance of permanent joining and principle behind different welding processes.
CO4: Justify the significance of bulk deformation processes in metal working.
CO5: Identify uniqueness of sheet forming and forging processes in metal working.
DATA STRUCTURES THROUGH ‘C’
CO1: Develop the skills of representing real world data objects through structures and unions and how to handle self referential structures.
CO2: Develop the skills of representing data in either record form or in a text form and handle mechanisms that are essential for understanding the concepts in database management systems.
CO3: Explore the skills in representing Abstract data types in array and linked list forms and implement stack data structure using the same.
CO4: Develop the skills of implementing queue data structure and appreciate the use of non linear data structure.
CO5: Develop the skill of finding time complexity and space complexity for different searching and sorting techniques.
THERMAL ENGINEERING LAB
CO1: Analyze the given problem.
CO2: Conduct investigation on the experimental setup.
CO3: Use modern tools for measurements/modeling and simulation/draw the graphs etc.
CO4: Understand the environmental impact of the investigation.
CO5: Work individually and in a team for conducting the experiments.
CO6: Effectively communicate and explain the experimental analysis.
MANUFACTURING PROCESSES LAB
CO1: Analyze the given problem.
CO2: Conduct investigation on the experimental setup.
CO3: Use modern tools for measurements/modeling and simulation/draw the graphs etc.
CO4: Understand the environmental impact of the investigation.
CO5: Work individually and in a team for conducting the experiments.
CO6: Effectively communicate and explain the experimental analysis.
DATA STRUCTURES THROUGH ‘C’ LAB
CO1: Develop the skills on using derived data types including structures and unions to represent real world data items.
CO2: Develop the skills of using file data structure and appropriate streams for solving problems using API
CO3: Explore the generic representation of data types using void pointer feature of C and developing ADT’s.
CO4: Explore the skills in representing Abstract data types in array and linked forms.
CO5: Develop the skills of implementing different sorting and searching techniques.
CO6: Explore the skills in realizing static linking aspects and develop static libraries using GNU based tools.
MECHANICS OF FLUIDS AND HYDRAULIC MACHINERY LAB
CO1: Analyze the given problem.
CO2: Conduct investigation on the experimental setup.
CO3: Use modern tools for measurements/modeling and simulation/draw the graphs etc.
CO4: Understand the environmental impact of the investigation.
CO5: Work individually and in a team for conducting the experiments.
CO6: Effectively communicate and explain the experimental analysis.
GENDER SENSITIZATION
CO1: Students will have developed a better understanding of important issues related to gender in contemporary India.
CO2: Students will be sensitized to basic dimensions of the biological, sociological, psychological and legal aspects of gender. This will be achieved through discussion of materials derived from research, facts, everyday life, literature and film.
CO3: Students will attain a finer grasp of how gender discrimination works in our society and how to counter it.
CO4: Students will acquire insight into the gendered division of labour and its relation to politics and economics.
CO5: Men and women students and professionals will be better equipped to work and live together as equals.
B.TECH III YEAR I SEMESTER (R18)
MACHINE TOOLS & METROLOGY
CO1:Explain metal cutting principles and various materials used for metal
cutting and types of lathes and operations.
CO2: Understand working of drilling, shaper, slotting, planer and estimate
machining time.
CO3: Describe the Principles of working & operations performed on milling and grinding operations.
CO4: Explain the uses of measuring instruments, gauges and system of
measurement.
CO:5 Describe the measurement of surface texture, elements of screw thread & coordinate measuring machines.
THERMAL ENGINEERING
CO1: Interpret the working cycle of steam power plant and working of different boilers with its applications and also combustion of fuels.
CO2: Analyze problems on steam power plant cycle, boiler draught, chimney height and can also on stem nozzles along with it application in steam power plant.
CO3: Explain the working of various steam turbines and analyze the impulse and reaction turbines with their velocity diagrams.
CO4: Explain the concepts of steam condensers and condensing plant working principle of gas turbine Plant.
CO5: Classify the jet propulsive engines and working principle of turbojets and rockets with its nozzle and analysis.
DYNAMICS OF MACHINERY
CO1: Assess the effect of Gyroscopic couple in a dynamic body such as aero plane, 4-wheeler etc. And calculate coefficient of fluctuation of speed and energy of a flywheel.
CO2: Perform static and dynamic analysis to attain equilibrium in mechanisms and synthesize mechanisms for motion, path and function generation.
CO3: Analyze friction clutches, brakes dynamometer and Governors.
CO4: Determine balancing mass for rotating and reciprocating mass systems.
CO5: Perform analysis of the response of one degree freedom system with free and forced vibrations and evaluate the critical speed of shaft and solve torsional vibration problems.
DESIGN OF MACHINE MEMBERS I
CO 1 Apply fundamental design practices with regard to material
selection, material properties, manufacturing considerations,
and standards and codes.
CO 2 Apply stress analysis theory, fatigue theory and appropriate criteria
of failure to the design of machine elements.
CO 3 Design and analyze the temporary joints (bolted joints) and permanent joints (riveted and welded joints) under various load conditions.
CO 4 Analyze and design solid and hollow shafts under various load conditions.
CO 5 Design and Analyze compression, tension and torsion springs under various load conditions.
MANAGERIAL ECONOMICS & FINANCIAL ANALYSIS
CO 1: Familiarize with the fundamentals of Economics such as Demand function, Law of demand, Elasticity of demand and Demand Forecasting methods etc.
CO 2: Evaluate Economies of Scale and the Break-Even Point of the business activity.
CO 3: Understand the different Market Structures and Macro Economic
concepts.
CO 4: Able to understand the accounting system and preparation of Final Accounts.
CO 5: Analyze Accounting Statements like Income Statement and Balance Sheet to understand financial performance of the business.
MACHINE TOOLS AND METROLGY LAB
CO 1: Analyze the given problem and conduct investigation on the experimental setup.
CO 2: Use modern tools for measurements/modeling and simulation/draw the graphs etc.
CO 3: Understand the environmental impact of the investigation.
CO 4: Work individually and in a team for conducting the experiments.
CO 5: Effectively communicate and explain the experimental analysis.
MECHANICS OF FLUIDS AND HYDRAULIC MACHINES
CO1: Analyze the given problem and Conduct investigation on the
experimental setup
CO2: Use modern tools for measurements/modeling and simulation/draw
the graphs etc.
CO3: Understand the environmental impact of the investigation.
CO4: Work individually and in a team for conducting the experiments.
CO5: Effectively communicate and explain the experimental analysis
ADVANCED ENGLISH COMMUNICATION &SOFT SKILLS LAB
CO1: Evolve as effective communicators.
CO2: Emerge as decision makers, time managers and good negotiators.
CO3: Develop holistic soft skills.
CO4: Develop critical and analytical skills. Present their skills confidently in the job market.
CO5: Gather ideas and information, and organize them relevantly and coherently.
CO6: Develop leadership and team building skills.
EFFECTIVE TECHNICAL COMMUNICATION LAB
CO1: Attain proficiency in Technical Writing.
CO2: Use English language appropriately to write effective reports, notes and summaries.
CO3: Write Emails suitable for Professional Communication.
CO4: Develop Analytical and Critical Thinking Skills.
UNIVERSAL HUMAN VALUES
CO1 : Understand the significance of values, distinguish between values and skills.
CO2 : Apply the concept of happiness and prosperity to set the goals in life.
CO3 : Evaluate the current scenario in the society, in a right manner.
CO4 : Distinguish between the needs of the self and body through principles of co-existence.
CO5 : Understand the value of harmonious relationship based on trust, respect and other naturally acceptable feelings in human-human relationships.
CO6 : Understand the harmony in nature and existence, and work out the mutually fulfilling participation in the nature.
B.TECH III YEAR II SEMESTER (R18)
HEAT TRANSFER
CO 1: Identify the mode of heat transfer and formulate the equation to calculate temperature distribution during conduction heat transfer.
CO 2: Compute the amount of heat dissipation by using extended surfaces and during transient heat conduction.
CO 3: Calculate the rate of heat transfer by convection in the boundary/ potential flow regions
CO 4: Identify the heat exchanger required to transfer sensible/ latent heat between two fluids
CO 5: Interpret the concepts of radiation heat transfer between two bodies.
DESIGN OF MACHINE MEMBERS-II
CO 1: Determine the basic lubrication mode in bearings, load in ball and roller bearings and its selection procedure based on manufacturer‟s catalogue data.
CO 2: Demonstrate the ability to apply the fundamentals of force and stress analysis in the design of various components to successfully satisfy the function of IC engine
CO 3: Design a power transmission system through belt, rope and chain drive to meet desired needs in engineering applications.
CO 4: Analyze and evaluate the forces and stresses in various gear systems.
CO 5: Design the power screw for transmission applications.
INSTRUMENT & CONTROL SYSTEMS
CO1 : Know the basic knowledge of the functional blocks of measurement systems.
CO2 : Understand the working of various physical variable Temperature and pressure measuring instruments.
CO3 : Understand the working of various physical variable Level, Flow, Speed and Acceleration measuring instruments.
CO4 : Understand the working of various physical and Electrical variables Stress, Humidity, Force, Torque and Power measuring instruments.
CO5 : Understand the concept of control system and calculate transfer functions of mechanical and translational systems with different techniques
COMPUTER AIDED DESIGN & MANUFACTURING
CO 1: Explain structure and units of a digital computer and its related hardware
CO 2: Describe the role of computer graphics especially geometric transformations for CAD/CAM application.
CO 3: Describe the basic NC system and write part programming in CNC system.
CO 4: To apply group technology for computer integrated manufacturing.
CO 5: Identify different quality control methods and CIM systems and apply inspection methods used in various manufacturing systems.
UNCONVENTIONAL MACHINING PROCESSES(Professional Elective)
CO1 : Study the need for unconventional machining processes and explain ultrasonic machining process.
CO2 : Describe Abrasive jet, Water jet, Abrasive water jet machining, Chemical Machining and Electrochemical machining process.
CO 3 : Describe working principle and process variables of EDM process.
CO 4 : Explain the process capabilities and process parameters of Electron Beam machining and Laser Beam machining.
CO 5 : Describe the working of Plasma Arc machining and Abrasive Finishing process.
NON-CONVENTIONAL SOURCES OF ENERGY (Professional Elective)
CO 1: Describe the basic /technical concepts of the solar radiation.
CO 2: Describe the use of solar energy collectors and identify the appropriate methods of energy storage and perform thermal analysis.
CO 3: Explain the fundamentals of biomass, biogas and geothermal energy.
CO 4: Describe the energy conversion from wind energy and ocean energy to thermal energy.
CO 5: Differentiate types of direct energy conversion methods.
FINITE ELEMENT METHODS (Professional Elective)
CO 1: Apply the concepts of FEM on 1D problems applied to different types of bars by formulating different mathematical methods.
CO 2: Investigate the trusses in 2D and 3D and perform analysis by forming
stiffness equations.
CO 3: Analyze different types of beams in 2D and problem representation,
solving using stiffness matrix and formation of shape functions for an element.
CO 4: Analyze axis Symmetric solids subjected to loads and steady state heat
transfer analysis problems using FEM.
CO 5: Solve problems of different engineering components subjected to dynamic conditions.
OPERATIONS RESEARCH (Professional Elective)
CO 1 : Explain the importance and value of Operations Research and mathematical modeling in solving practical problems in industry;
CO 2 : Formulate a managerial decision problem into a mathematical model.
CO 3 : Apply Operation research models to real-life problems.
CO 4 : Use computer tools to solve a mathematical model for a practical problem.
CO 5 : Explain various Inventory models.
TEAM PROJECTS LAB
CO1: Be acquainted with appropriate utility
CO2: Apply fundamental principles of science and engineering to design and fabricate models for diversified applications
CO3:To enhance team spirit and improve the ability of students to work together for solution of common engineering problem
CO4: To improve ability of students for the selection of material and manufacturing process and approach for solving an engineering problem with minimum cost.
CO5: To inculcate the habit of observing social problems and searching for a possible sustainable eco friendly solution
HEAT TRANSFER LAB
CO 1: Analyzes the given problem and conducts investigation on the experimental setup.
CO 2: Uses modern tools for measurements/modeling and simulation/draw the graphs etc.
CO 3: Understands the environmental impact of the investigation.
CO 4: Works individually and in a team for conducting the experiments.
CO 5: Effectively communicates and explains the experimental analysis.
MODELING, ANALYSIS AND MANUFACTURING LAB
CO 1: Analyzes the given problem and conducts investigation on the experimental setup.
CO 2: Uses modern tools for measurements/modeling and simulation/draw the graphs etc.
CO 3: Understands the environmental impact of the investigation.
CO 4: Works individually and in a team for conducting the experiments.
CO 5: Effectively communicates and explains the experimental analysis.
QUANTITATIVE ABILITY LAB
CO 1: Solve the problems using Number Systems, Percentages and Profit & Loss
CO 2: Solve the problems using Interest, Speed Time and Distance
CO 3: Solve the problems using Ratio and Proportion, Progressions and Inequality
CO 4: Solve the problems using Menstruation, Geometric, Clocks & Calendars questions
CO 5: Practice general problems in Placement, CAT and GRE etc. tests
ESSENCE OF INDIAN KNOWLEDGE TRADITION -1
CO 1 : To gain a general idea of the vast Vedic literature and their content and to grasp the relevant concepts of the Vedas and appreciate its relevance in the modern world.
CO 2 : Understand, connect up and explain basics of Indian Traditional Knowledge in Modern Scientific Perspective.
CO 3 : Understand Yoga psychology as both a positive and a normative science and its contribution for a holistic health.
CO 4 : Understand the views of our great philosophers to correlate their efforts to achieve unity in diversity.
B.TECH IV YEAR I SEMESTER (R18)
REFRIGERATION AND AIR CONDITIONING
CO1: Study the concepts and methods of refrigeration systems, and evaluate the performance of air refrigeration cycles for aircraft applications.
CO2: Evaluate the performance of vapour compression refrigeration systems.
CO3: Explain the working of various vapour absorption, non-conventional refrigeration systems and summarize the effects of refrigerants on Global Warming and ozone depletion.
CO4: Describe Psychrometric properties and heat loads for Room Air conditioning
CO5: Evaluate load calculations for industrial air conditioning.
AUTOMOBILE ENGINEERING
CO1: Explain the transmission drive types, servicing of engine and fuel supply system of S.I and C.I engine.
CO2: Understand the working of Ignition system, cooling and Electrical system of an automobile system.
CO3: Explain the working of the different transmission and suspension systems of automobile
CO4: Explain the working of steering and braking systems.
CO5: Understand the concept of Hybrid Electric Vehicles.
AUTOMATION IN MANUFACTURING
CO1: Describe the importance of Automation implementation in Manufacturing.
CO2: Analyze the various Automated flow lines.
CO3: Perform Line balancing of assembly system
CO4: Describe automated Material Handling and automated storage
CO5: Explain Industrial Process controls and automatic inspection.
POWER PLANT ENGINEERING
CO1: Explain the working of steam power plant and its components.
CO2: Describe the working of diesel power plants and their components, gas turbine plants and their components.
CO3: Explain the working of hydroelectric power plant and elaborate typical layouts of hydro projects and plants.
CO4: Interpret different types of reactors used in nuclear power plants.
CO5: Define load factor, demand factor and methods of pollution control and plant selection, make a load duration curve.
DESIGN FOR MANUFACTURING
CO1: Explain the general rules for designing of a component for economical production.
CO2: Describe the design considerations and applying them for improving ease of casting and metal joining.
CO3: Analyze the design modifications for improving ease of forging and machining.
CO4: Describe the design guide lines for press working, extrusion & plastics molding.
CO5: Analyze the general design guidelines for improving ease of assembly.
JET PROPULSION AND ROCKET ENGINEERING(Professional Elective – IV)
CO1: Interpret the concepts of gas turbine theory and efficiency calculation for jet propulsion in rocket engines.
CO2: Differentiate between Turbojet and Turboprop engines for performance evaluation.
CO3: Analyze the working of Ram jet engines and compute their performance.
CO4: Explain the difference between liquid and solid propellant rocket engines.
CO5: Analyze and apply the thrust augmentation methods to rockets and understand the testing procedure for rocket engines.
PRODUCTION DRAWING PRACTICE THROUGH AUTO CAD
CO1: Draw and identify the conventions used in production drawing.
CO2: Calculate limits and tolerances and identify type of fit between the
mating parts of an assembly.
CO3: Calculate and specify geometrical form and positional tolerance
CO4: Draw production drawings of the component and process sheets
from the given assembly drawing
CO5: Model the components and assembly drawings using AUTO-CAD
software by specifying geometrical dimensions and tolerance
B.TECH IV YEAR II SEMESTER (R18)
INDUSTRIAL MANAGEMENT
CO1: Make managerial decisions for effective business administration
CO2: Identify management strategies for effective and efficient utilization of resources.
CO3: Explore the effective project completion technique in the dynamic industrial environment.
CO4: Perform SWOT analysis of the internal and external environment.
CO5: Implement contemporary best practices in industrial organization.
CNC TECHNOLOGY
CO1: Explain the need of CNC machines and its application in the field of manufacturing.
CO2: Describe the features of system devices used in CNC machines.
CO3: Describe the tooling system for CNC machines.
CO4: Develop manual and APT programming for various complex geometries using CAD/CAM software.
CO5: Describe and use DNC system and adaptive control in the field of advanced manufacturing.
PROCESS PLANNING AND COST ESTIMATION (Professional Elective-V)
CO1: Describe the importance of process planning.
CO2: Select the suitable process planning method for a product.
CO3: Perform cost estimation for a product.
CO4: Estimate machining time for a machining operation.
CO5: Evaluate overall cost of production for a product.