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DEPARTMENT OF CIVIL
REGULATION 2017
II YEAR- 3 SEMESTER
MA 8353 - TRANSFORMS AND PARTIAL DIFFERENTIAL EQUATIONS
CE8301- STRENGTH OF MATERIALS - I
CE 8302 – FLUID MECHANICS
C201.1 Apply transform methods to solve engineering problems
C201.2 Perform the mathematical solutions in engineering problems.
C201.3 Formulate, analyze and solve a multi-level problem in mechanics.
C201.4 Apply the concepts of Z-Transform in Digital Systems.
C201.5 Demonstrate the basic concepts in Fourier series, properties, parseval’s identity.
C202.1
Understands the fundamental concepts of stress and strain and its types for bars of
different materials and beams and stresses developed in thin cylinders and spherical
shells
C202.2
Gets to know about types of beams, supports and loading conditions thereby learns to
draw shear force and bending moment diagrams and works on civil engineering
solutions.
C202.3 Gets the ability to find the deflection and slope in the beam by different methods and
learns the safety and integrity aspects.
C202.4
Attains sufficient knowledge in designing shafts to transmit required power and also
springs for its maximum energy storage capacities, which in turn can be applied in real
life applications, like turbines, generators and other multidisciplinary fields.
C202.5 Analyse a complex two dimensional state of stress and plane truss
C203.1 Describe the fundamental properties and fluid statics
C203.2 Get a basic knowledge of fluids kinematics and dynamics
C203.3 Identify and apply Bernoulli’s and momentum equations to solve pipe flow problems.
C203.4 Develop understanding of boundary layer on a flat plate and calculating lift and drag on
moving plates and use research knowledge in different applications.
CE8351 - SURVEYING
CE 8391 – CONSTRUCTION MATERIALS
CE8392: ENGINEERING GEOLOGY
C203.5 Use dimensional analysis and apply similitude principle in design and interpretation of
scale model experiments
C204.1 Knowledge on the principles, methods and equipments used for chain surveying to
solve the real world civil engineering problems.
C204.2 Adequate knowledge on the methods and applications of compass and plane table
surveying to generate surveying data and also to analyze and interpret the results.
C204.3
Understanding in levelling and perform various levelling operations to enable the works
to be designed and in setting out of engineering works for different types of civil
engineering structures.
C204.4 Apply the concepts of leveling in Contouring, area and volume calculations.
C204.5 Understanding the concepts and methods of Theodolite and its applications
C205.1 Understand the environmental systems, and the solutions to both man-made and natural
materials.
C205.2 Understand the interactions between physical, chemical properties, of building materials
C205.3 Analyze and assess environmental systems and problems and to propose sustainable solutions
to environmental problems
C205.4 Understand what constitutes the environment
C205.5 Know the precious resources in the environment
C206.1 Understand the importance of geological knowledge such as earth, earthquakes and the
action of various geological agencies.
C206.2 Gain the elementary knowledge on physical properties of minerals and their significance
C206.3 Acquire knowledge about geological formations, classification and morphology of rocks.
CE8361 – SURVEYING LABORATORY
CE6312- COMPUTER AIDED BUILDING DRAWING
SEMESTER-4
MA8491- NUMERICAL METHODS
C206.4 Gain the basic knowledge of structural geology and geophysical methods for civil Engg
investigations
C206.5 Know the importance of study of geology for civil engineers with regard to founding
structures like dams, bridges, buildings, etc using modern techniques
C207.1 Handle and calibrate survey instruments like chain, compass, plane table and dumpy
level and their accessories for measurements of high precision
C207.2 Understand leveling and perform various leveling operations to enable the works to be
designed and in setting out of engineering works.
C207.3 Carry out plane table survey and compass survey
C207.4 Develop contour map
C208.1 Use the basic drafting tools and create civil engineering drawings and Improve the
presentation of the drawing by using various drawing tools and commands.
C208.2 Draw the line plan, plan, elevation and sectional view of buildings and RCC framed
structures
C208.3 Draw detailed schemes and working drawings up to 2-D single storey buildings with
joinery details.
C208.4 Draw industrial buildings with sloped roof
C209.1 Aware of the use of numerical methods in modern scientific computing.
C209.2 Apply numerical methods to obtain approximate solutions to mathematical problems.
CE8401 - CONSTRUCTION TECHNIQUES AND PRACTICES
CE8402- STRENGTH OF MATERIALS - II
.
C209.3
Derive numerical methods for various mathematical operations and tasks, such as
interpolation, differentiation, integration, the solution of linear and nonlinear equations, and
the solution of differential equations
C209.4 Analyse and evaluate the accuracy of common numerical methods
C209.5 Calculate and interpret the errors in numerical methods.
C210.1 Gain knowledge on traditional and modern development in concrete technology
C210.2 Expose to modern construction practices and tools to solve the issues in the field of Civil
Engineering.
C210.3 Understand the various construction procedures for sub structure and its impact on the
environment and society.
C210.4
Design various supporting/shuttering/scaffolding systems for super structure works to meet
the specific needs with appropriate consideration for safety and environment.
C210.5
Gain knowledge of equipment needed for construction of various types of structures to
manage the projects in multidisciplinary environments.
C211.1 Able to apply and use energy methods to find force, stress and displacement in simple
structures for appropriate consideration in aspects of safety purpose
C211.2 Analyse indeterminate beams and find slope and deflection
C211.3 Estimate the load carrying capacity of columns and thick cylinders
C211.4 Understand the concept of theories of failure and principal stresses in 3D
C211.5 Analyse the forces in curved and unsymmetrical structures
CE 8403 - APPLIED HYDRAULIC ENGINEERING
CE8404 – CONCRETE TECHNOLOGY
CE8491- SOIL MECHANICS
C212.1 Apply basics fluid mechanics principle in the analysis of pipe flow and open channel
flow
C212.2 Solve problems in uniform, gradually varied flow in steady state condition
C212.3 Explain rapidly varied flows and Understand the profile determination by different
methods
C212.4 Classify different type of turbines and Make out the Performance of turbines
C212.5
Understand key issues and design principles involved in pumps
C213.1 Students will be able to understand the various requirements of cement, aggregates and
water for making concrete.
C213.2 Students will be able to understand the effects of admixtures on properties of concrete.
C213.3 Students will be able to understand the concept and procedure of mix design as per IS
method.
C213.4 Students will be able to understand the properties of concrete at fresh and hardened state.
C213.5 Students will be able to understand the importance and application of special concretes.
C214.1 Identify the different types of soil based on the knowledge of fundamental mathematical
science.
C214.2
Relate the significance of basic physical and mechanical properties of soil and also the
experimental methods to measure permeability and effective stress.
C214.3
Apply the principle of effective stress and then calculate the stresses that influence soil
behavior and Interpret both the applications and limits of engineering methods
commonly used to solve stress distribution and settlement problems in soil mechanics
CE8481- STRENGTH OF MATERIALS LABORATORY
CE8461- HYDRAULIC ENGINEERING LABORATORY
C214.4
Apply engineering science principles using shear strength and compressibility
parameters to analyse the response of soil under external loading.
C214.5
Recognize more advanced techniques that are available for unusual problems in
analyzing slopes.
C215.1
Acquire knowledge in the area of testing of materials like mild steel, aluminium, copper,
brass, wood and components of structural elements experimentally and Learn to operate
UTM (universal testing machine) which is used in testing the tensile, compressive, shear
strength, deflection and torsion of the material.
C215.2 Acquires knowledge in finding stiffness of helical and carriage springs and there by
learning its practical applications both in machineries and civil engineering structures.
C215.3
Learns to conduct hardness of different metals by Rockwell and Brinell Hardness Tests
and there by learning the properties of materials and its behavior when it is loaded and
alsoLearns to conduct impact test on metal specimens and learning its real life
applications and to work on safety aspects.
C215.4 Attains knowledge in finding the properties of cement and there by learning its
application in global aspect.
C216.1 Gain knowledge in conducting experiments to determine discharge coefficients in tanks and
open channels
C216.2 Gain knowledge in conducting experiments to determine discharge coefficients in pipes
C216.3 Acquire knowledge to find the impact of jet on plates and major and minor losses in pipes
C216.4 Understand the functioning principle of turbines and pumps
DEPARTMENT OF COMPUTER SCIENCE AND ENGINEERING
REGULATION 2017 COURSE OUTCOMES
III SEM
SUBJCT CODE: MA8351 COURSE CODE:C201
SUBJECT NAME: Discrete Mathematics
C201.1 Acquire knowledge in testing the logic of a program
C201.2 Evaluate problems using the counting principles
C201.3 Understand the concepts of graphs, connected graphs, Euler and Hamilton graphs.
C201.4 Understand properties of algebraic structures such as groups, rings and fields.
C201.5
Analyze the class of functions which transform a finite set into another finite set
which relates to input and output functions in computer science.
SUBJCT CODE: CS8351 COURSE CODE:C202
SUBJECT NAME: Digital Principles & System Design
C202.1
Understand the different methods used for simplification of Boolean
C202.2 Design and implement system Combinational Circuits.
C202.3 Design and implement Synchronous Sequential Circuits.
C202.4 Design and implement Asynchronous Sequential Circuits.
C202.5 Design using PLD.
SUBJCT CODE: CS8391 COURSE CODE:C203
SUBJECT NAME: Data Structures
C203.1
Describe the usage of various implementation of list
C203.2
Make use of ADT’s like stacks and queues in different systems
C203.3
Illustrate the structure and operations on trees
C203.4 Apply appropriate graph algorithms for solving computing problems
C203.5
Summarize various sorting and searching techniques
SUBJCT CODE:CS8392 COURSE CODE:C204
SUBJECT NAME: Object Oriented Programming
C204.1
Develop java program using OOP principles
C204.2
.
Develop java programs with the concept of Inheritance & Interface
C204.3
Build java applications using Exception & I/O streams
C204.4
Develop java application with threads & generic classes
C204.5
Develop interactive java programs using swings.
SUBJCT CODE: EC8395 COURSE CODE:C205
SUBJECT NAME: Communication Engineering
C205.1 Analyze analog communication techniques.
C205.2 Analyze digital communication techniques
C205.3
Analyze data and pulse communication techniques.
C205.4 Examine Source and Error control coding techniques.
C205.6 Investigate multi-user radio communication
SUBJCT CODE: CS8381 COURSE CODE:C206
SUBJECT NAME: Data Structures Laboratory
C206.1
Write functions to implement linear and non-linear data structure operations
C206.2
Suggest appropriate linear / non-linear data structure operations for
solving a given problem
C206.3
Appropriately use the linear / non-linear data structure operations for a given problem
C206.4
Apply appropriate hash functions that result in a collision free scenario for data storage and retrieval
SUBJCT CODE: CS8383 COURSE CODE:C207
SUBJECT NAME: Object Oriented Programming Laboratory
C207.1
Develop and implement Java programs for simple applications that make use of classes, packages and interfaces
C207.2 Develop and implement Java programs with arraylist, exception handling and multithreading
C207.3
Design applications using file processing, generic programming and event handling.
SUBJCT CODE: CS8382 COURSE CODE:C208
SUBJECT NAME: Digital Systems Laboratory
C208.1
Implement simplified combinational circuits using basic logic gates
C208.2
Implement combinational circuits using MSI devices
C208.3
Implement sequential circuits like registers and counters
C208.4 Simulate combinational and sequential circuits using HDL
Department of Computer Science- IV SEM
SUBJCT CODE: MA8402 COURSE CODE:C209
SUBJECT NAME: Probability and Queueing Theory
C209.1 Understand the concepts of discrete and continuous random variables and apply Engineering problems.
C209.2 Use 2-dimensional random vectors to model experiments with two simultaneous outcomes and compute correlation and regression lines.
C209.3
Analyze the type of the random process and apply relevant probability laws in the applications.
C209.4
Learn fundamental concepts of queueing theory and apply them to study various queuing models.
C209.5
Analyze some queueing models and apply in problems
SUBJCT CODE: CS8491 COURSE CODE:C210
SUBJECT NAME: Computer Architecture
C210.1 Evaluate performance of the Computer System and decode machine language
C210.2 Design arithmetic and logic unit
C210.3
Design and analyze pipelined control units
C210.4
Understand parallel processing architectures.
C210.5
Evaluate the performance of memory and IO systems.
SUBJCT CODE: CS8492 COURSE CODE:C211
SUBJECT NAME: Database Management Systems
C211.1 Classify the modern and futuristic db applications based on size and complexity
C211.2 Map ER model to Relational model to perform database design effectively
C211.3
Write queries using normalization criteria and optimize queries
C211.4 Compare and contrast various indexing strategies in different db systems
C211.5 Appraise how advanced databases differ from traditional databases.
SUBJCT CODE: CS8451 COURSE CODE:C212
SUBJECT NAME: Design and Analysis of Algorithms
C212.1
Design algorithms for various computing problems
C212.2
Analyze the time and space complexity of algorithms.
C212.3
Critically analyze the different algorithm design techniques for a given problem.
C212.4
Modify existing algorithms to improve efficiency.
SUBJCT CODE: CS8493 COURSE CODE:C213
SUBJECT NAME: Operating Systems
C213.1 Analyze various scheduling algorithms.
C213.2 Understand deadlock, prevention and avoidance algorithms
C213.3
Compare and contrast various memory management schemes.
C213.4
Understand the functionality of file systems.
C213.5
Perform administrative tasks on Linux Servers.
C213.6
Compare iOS and Android Operating Systems.
SUBJCT CODE: CS8494 COURSE CODE:C214
SUBJECT NAME: Software Engineering
C214.1 Identify the key activities in managing a software project.
C214.2 Compare different process models
C214.3
Concepts of requirements engineering and Analysis Modeling.
C214.4 Apply systematic procedure for software design and deployment
C214.5
Compare and contrast the various testing and maintenance.
C214.6 Manage project schedule, estimate project cost and effort required.
SUBJCT CODE: CS8481 COURSE CODE:C215
SUBJECT NAME: Database Management Systems laboratory
C215.1 Use typical data definitions and manipulation commands
C215.2 Design applications to test Nested and Join Queries
C215.3
Implement simple applications that use Views
C215.4
Implement applications that require a Front-end Tool
C215.5
Critically analyze the use of Tables, Views, Functions and Procedures
SUBJCT CODE: CS8461 COURSE CODE:C216
SUBJECT NAME: Operating Systems Laboratory
C214.1
Compare the performance of various CPU Scheduling Algorithms
C214.2 Implement Deadlock avoidance and Detection Algorithms
C214.3
Implement Semaphores
C214.4
Create processes and implement IPC
C214.5
Analyze the performance of the various Page Replacement Algorithms
C214.6
Implement File Organization and File Allocation Strategies
Department of Electronics and Communication
Engineering
Semester : 03 Course code : C201 MA8352 - LINEAR ALGEBRA AND
PARTIAL DIFFERENTIAL EQUATIONS
COURSE OUTCOMES (CO)
Upon completion of the course, the students will be able to
C201.1
Explain the fundamental concepts of advanced algebra and their role in modern
mathematics and applied contexts.
C201.2 Demonstrate accurate and efficient use of advanced algebraic techniques.
C201.3 Demonstrate their mastery by solving non - trivial problems related to the concepts
and by proving simple theorems about the statements proven by the text.
C201.4 Able to solve various types of partial differential equations.
C201.5 Able to solve engineering problems using Fourier series.
Semester : 03 Course code : C202 EC8393- FUNDAMENTALS OF DATA
STRUCTURES IN C
COURSE OUTCOMES (CO)
Upon completion of the course, the students will be able to
C202.1 Implement linear and non-linear data structure operations using C
C202.2 Suggest appropriate linear / non-linear data structure for any given data set.
C202.3 Apply hashing concepts for a given problem
C202.4 Modify or suggest new data structure for an application
C202.5 Appropriately choose the sorting algorithm for an application
Semester : 03 Course code : C203 EC 8351 - ELECTRONIC CIRCUITS I
COURSE OUTCOMES (CO)
Upon completion of the course, the students will be able to
C203.1 Analyze, Design and Explain the methods of biasing transistors.
C203.2 Design and analyze single stage and multistage amplifier circuits.
C203.3 Analyze and synthesize the frequency response of small signal amplifiers.
C203.4 Design and synthesize the high frequency response of amplifiers.
C203.5 Design, Troubleshoot and fault analysis of power supplies.
Semester : 03 Course code : C204 EC8352 – Signals and Systems
COURSE OUTCOMES (CO)
Upon completion of the course, the students will be able to
C204.1 Determine if a given system is linear/causal/stable.
C204.2 Determine the frequency components present in a deterministic signal.
C204.3 Characterize LTI systems in the time domain and frequency domain .
C204.4 Compute the output of LTI system in the time domain .
C204.5 Compute the output of an LTI system in the frequency domain .
Semester : 03 Course code : C205 EC8392 - DIGITAL ELECTRONICS
COURSE OUTCOMES (CO)
Upon completion of the course, the students will be able to
C205.1 Implement digital electronics in the present contemporary world.
C205.2 Design various combinational digital circuits using logic gates.
C205.3 Analyze the procedures for synchronous and asynchronous sequential circuits.
C205.4 Examine the semiconductor memories and related technology.
C205.5 Investigate electronic circuits involved in the design of logic gates.
Semester : 03 Course code : C206 EC8391 - CONTROL SYSTEMS
ENGINEERING
COURSE OUTCOMES (CO)
Upon completion of the course, the students will be able to
C206.1 Describe the Modeling of Electrical & Mechanical systems & representation of
systems.
C206.2 Test the time domain analysis of control systems required for stability analysis.
C206.3 Test the frequency domain analysis & to design the compensation technique that
can be used to stabilize control systems.
C206.4 Examine the stability analysis of control systems.
C206.5 Inspect and explore the CT & DT systems in state variable analysis and digital
control systems
Semester : 03 Course code : C207 EC8381- FUNDAMENTALS OF DATA
STRUCTURES
IN C LABORATORY
COURSE OUTCOMES (CO)
Upon completion of the course, the students will be able to
C207.1 Write basic and advanced programs in C.
C207.2 Implement functions and recursive functions in C.
C207.3 Implement data structures using C.
C207.4 Choose appropriate sorting algorithm for an application and implement it in a modularized way .
C207.5 Implementation of algorithm in a modularized way.
Semester : 03 Course code : C208 EC8361 - Analog And Digital Circuits Lab
COURSE OUTCOMES (CO)
Upon completion of the course, the students will be able to
C208.1 Discriminate and judge the characteristics of Cascade and Cascode Amplifier.
C208.2 Appraise the limitation in bandwidth of single Stage Transistor and FET
Amplifiers.
C208.3 Examine and interpret Amplifiers characteristics using Spice.
C208.4 Incorporate and demonstrate the characteristics of Combinational Circuits.
C208.5 Incorporate and demonstrate the characteristics of Sequential circuits.
Semester : 03 Course code : C209 HS8381- INTERPERSONAL SKILLS/ LISTENING
& SPEAKING
COURSE OUTCOMES (CO)
Upon completion of the course, the students will be able to
C209.1 Comprehend information by listening actively and to give appropriate response
C209.2 Articulate ideas and converse in formal and informal contexts with accuracy and clarity.
C209.3 Initaite conversations, compare and contrast information fluently, using lexical chunks
C209.4 Participate effectively in group discussions and conversations by employing appropriate
verbal and non-verbal feedback.
C209.5 Speak clearly and fluently with correct pronunciation, stress and intonation.
Semester : 04 Course code : C210 MA 8451 - PROBABILITY AND RANDOM
PROCESSES
COURSE OUTCOMES (CO)
Upon completion of the course, the students will be able to
C210.1
Understand the concepts of probability, discrete and continuous random variables as
well as certain special discrete and continuous distributions.
C210.2 Extend the concepts to two-dimensional random variables and to compute various
important statistical quantities associated with them.
C210.3 Understand random process and recognize the various types while dealing with signals
and communication systems.
C210.4 Appreciate the role of autocorrelation, cross correlation, power spectral density and its
importance in communication Engineering.
C210.5 Apply concepts in linear systems and their important variants in practical applications.
Semester : 04 Course code : C211 EC8452- ELECTRONIC CIRCUITS II
COURSE OUTCOMES (CO)
Upon completion of the course, the students will be able to
C211.1 Analyze different types of amplifier, oscillator and multivibrator circuits
C211.2 Design BJT amplifier and oscillator circuits
C211.3 Analyze transistorized amplifier and oscillator circuits
C211.4 Design and analyze feedback amplifiers
C211.5 Design LC and RC oscillators, tuned amplifiers, wave shaping circuits,
multivibrators, power amplifier and DC convertors.
COURSE OUTCOMES (CO)
Upon completion of the course, the students will be able to
C212.1 Design AM communication systems.
C212.2 Design Angle modulated communication systems.
C212.3 Apply the concepts of Random Process to the design of Communication systems.
C212.4 Analyze the noise performance of AM and FM systems.
C212.5 Interpret the concept of sampling and quantization.
Semester : 04 Course code : C213 EC8451–Electromagnetic Fields
COURSE OUTCOMES (CO)
Upon completion of the course, the students will be able to
C213.1 Employ the fundamental electromagnetic laws and concepts.
C213.2 Examine how materials affect electric and magnetic fields.
C213.3 Cast Maxwell's equations in integral, differential and phasor forms and interpret their
physical meaning.
C213.4 Enunciate electromagnetic wave propagation in lossy and in lossless media
C213.5 Solve simple problems requiring estimation of electric and magnetic field quantities
based on these concepts and laws.
Semester : 04 Course code : C214 EC8354– LINEAR INTEGRATED
CRICUITS
Semester : 04 Course code : C212 EC8491- COMMUNICATION THEORY
COURSE OUTCOMES (CO)
Upon completion of the course, the students will be able to
C214.1 To introduce the basic building blocks of linear integrated circuits.
C214.2 To teach the linear and non-linear applications of operational amplifiers.
C214.3 To introduce the theory and applications of analog multipliers and PLL.
C214.4 To teach the theory of ADC and DAC.
C214.5 To introduce the concepts of waveform generation and introduce some special
function ICs.
Semester : 04 Course code : C215 GE8291 - ENVIRONMENTAL SCIENCE AND
ENGINEERING
COURSE OUTCOMES (CO)
Upon completion of the course, the students will be able to
C215.1 Obtain knowledge about environment, ecosystems and biodiversity.
C215.2 Take control measures of environmental pollution.
C215.3 Gain knowledge about natural resources and energy sources.
C215.4 Find and implement scientific, technological, economic and political solutions to
environmental problems.
C215.5 Understand the impact of environment on human population.
Semester : 04 Course code : C216 EC8461 - CIRCUITS DESIGN AND
SIMULATION LABORATORY
COURSE OUTCOMES (CO)
Upon completion of the course, the students will be able to
C216.1 Classify various types of feedback amplifiers.
C216.2 Explain oscillators, tuned amplifiers.
C216.3 Construct wave-shaping circuits and multivibrators.
C216.4 Implement and simulate feedback amplifiers, oscillators using SPICE Tool.
C216.5
Construct tuned amplifiers, wave-shaping circuits and multivibrators using SPICE
Tool.
Semester : 04 Course code : C217 EC8462 - Linear Integrated Circuits Lab
COURSE OUTCOMES (CO)
Upon completion of the course, the students will be able to
C217.1 Design amplifiers, oscillators, D-A converters using operational amplifiers.
C217.2 Design filters using op-amp and performs an experiment on frequency response.
C217.3 Analyze the working of PLL and describe its application as a frequency multiplier.
C217.4 Design DC power supply using ICs.
C217.5 Analyze the performance of filters, multivibrators, A/D converter and analog
multiplier using SPICE.
Department of Electrical and Electronics Engineering
III semester
MA8353 TRANSFORMS AND PARTIAL DIFFERENTIAL EQUATIONS
CO1 Understand how to solve the given standard partial differential equations
CO2 Solve differential equations using Fourier series analysis which plays a vital role in engineering applications
CO3 Appreciate the physical significance of Fourier series techniques in solving one and two dimensional heat flow problems and one dimensional wave equations
CO4 Understand the mathematical principles on transforms and partial differential
equations would provide them the ability to formulate and solve some of the physical problems of engineering.
CO5 Use the effective mathematical tools for the solutions of partial differential equations by using Z transform techniques for discrete time systems.
EE8351 DIGITAL LOGIC CIRCUITS
CO1 Ability to design combinational and sequential Circuits.
CO2 Ability to simulate using software package
CO3 Ability to study various number systems and simplify the logical expressions using Boolean functions
CO4 Ability to design various synchronous and asynchronous circuits
CO5 Ability to introduce asynchronous sequential circuits and PLDs
CO6 Ability to introduce digital simulation for development of application oriented logic circuits
EE8391 ELECTROMAGNETIC THEORY
CO1 Ability to understand the basic mathematical concepts related to electromagnetic vector fields
CO2 Ability to understand the basic concepts about electrostatic fields, electrical potential, energy density and their applications
CO3 Ability to acquire the knowledge in magneto static fields, magnetic flux density,
vector potential and its applications
CO4 Ability to understand the different methods of emf generation and Maxwell’s equations
CO5 Ability to understand the basic concepts electromagnetic waves and characterizing parameters
CO6 Ability to understand and compute Electromagnetic fields and apply them for design and analysis of electrical equipment and systems
EE8301 ELECTRICAL MACHINES – I
CO1 Ability to analyze the magnetic-circuits
CO2 Ability to acquire the knowledge in constructional details of transformers
CO3 Ability to understand the concepts of electromechanical energy conversion
CO4 Ability to acquire the knowledge in working principles of DC Generator
CO5 Ability to acquire the knowledge in working principles of DC Motor
CO6 Ability to acquire the knowledge in various losses taking place in D.C. Machines
EC8353 ELECTRON DEVICES AND CIRCUITS
CO1 Explain the structure and working operation of basic electronic devices.
CO2 Able to identify and differentiate both active and passive elements
CO3 Analyze the characteristics of different electronic devices such as diodes and transistors
CO4 Choose and adapt the required components to construct an amplifier circuit
CO5 Employ the acquired knowledge in design and analysis of oscillators
ME8792 POWER PLANT ENGINEERING
CO1 Explain the layout, construction and working of the components inside a thermal power plant
CO2 Explain the layout, construction and working of the components inside a Diesel, Gas and Combined cycle power plants.
CO3 Explain the layout, construction and working of the components inside nuclear
power plants.
CO4 Explain the layout, construction and working of the components inside Renewable energy power plants
CO5 Explain the applications of power plants while extend their knowledge to power
plant economics and environmental hazards and estimate the costs of electrical energy production.
EC8311 -ELECTRONICS LABORATORY
CO 1 Understand and analyse the basic electronic circuit components
CO 2 Study the characteristics of diodes, transistors , JFET etc.
CO 3 Understand the function of a cathode ray oscilloscope and observe the waveforms
CO 4 Understand the behaviour of various multivibrators and amplifiers
CO 5 Understand the concepts of filters and its applications
EE 8311-ELECTRICAL MACHINES LAB-I
CO1 Identify the constructional parts of DC machines and Transformers
CO2
Select a suitable measuring instruments for measuring electrical parameters.
CO3
conduct testing and experimental procedures on different types of rotating and static machines.
CO4
discriminate the operation of electrical machines under different loading conditions.
CO5 Able to develop mini projects for common application.
IV Semester –II YEAR
MA8491 NUMERICAL METHODS
CO1 Understand the basic concepts and techniques of solving algebraic and transcendental equations
CO2 Appreciate the numerical techniques of interpolation and error approximations in
various intervals in real life situations.
CO3 Apply the numerical techniques of differentiation and integration for engineering problems
CO4 Understand the knowledge of various techniques and methods for solving first and second order ordinary differential equations
CO5 Solve the partial and ordinary differential equations with initial and boundary conditions by using certain techniques with engineering applications
EE8401 ELECTRICAL MACHINES – II
CO1 Ability to understand the construction and working principle of Synchronous Generator
CO2 Ability to understand MMF curves and armature windings
CO3 Ability to acquire knowledge on Synchronous motor
CO4 Ability to understand the construction and working principle of Three phase Induction Motor
CO5 Ability to understand the construction and working principle of Special Machines
CO6 Ability to predetermine the performance characteristics of Synchronous Machines
EE8402 TRANSMISSION AND DISTRIBUTION
CO1 To understand the importance and the functioning of transmission line parameters
CO2 To understand the concepts of Lines and Insulators.
CO3 To acquire knowledge on the performance of Transmission lines
CO4 To understand the importance of distribution of the electric power in power system
CO5 To acquire knowledge on Underground Cabilitys
CO6 To become familiar with the function of different components used in
Transmission and Distribution levels of power system and modelling of these components
EE8403 MEASUREMENTS AND INSTRUMENTATION
CO1 To acquire knowledge on Basic functional elements of instrumentation
CO2 To understand the concepts of Fundamentals of electrical and electronic
instruments
CO3 Ability to compare between various measurement techniques
CO4 To acquire knowledge on Various storage and display devices
CO5 To understand the concepts Various transducers and the data acquisition systems
CO6 Ability to model and analyze electrical and electronic Instruments and understand the operational features of display Devices and Data Acquisition System
EE8451 LINEAR INTEGRATED CIRCUITS AND APPLICATIONS
CO1 Ability to acquire knowledge in IC fabrication procedure
CO2 Ability to analyze the characteristics of Op-Amp
CO3 To understand the importance of Signal analysis using Op-amp based circuits
CO4 Functional blocks and the applications of special ICs like Timers, PLL circuits, regulator Circuits
CO5 To understand and acquire knowledge on the Applications of Op-amp
CO6 Ability to understand and analyse, linear integrated circuits their Fabrication and Application.
IC8451 CONTROL SYSTEMS
CO1 Ability to develop various representations of system based on the knowledge of Mathematics, Science and Engineering fundamentals
CO2 Ability to do time domain and frequency domain analysis of various models of linear system.
CO3 Ability to interpret characteristics of the system to develop mathematical model
CO4 Ability to design appropriate compensator for the given specifications
CO5 Ability to come out with solution for complex control problem
CO6 Ability to understand use of PID controller in closed loop system
EE 8411-ELECTRICAL MACHINES-II Lab
CO1
Identify different types and parts of synchronous machines as well as induction machines
CO2
Carry out laboratory experiments on electrical machines and present experiment results in a
graphical as well as written report
CO3
Explain how synchronous induction machines works.
CO4
Learn the concept of electrical machine parameters and the load characteristics.
CO5 Determine the regulation of a synchronous machine by using mathematical equation and phasor
diagram by conducting EMF, MMF, ZPF and ASA methods.
EE8461- LINEAR AND DIGITAL INTEGRATED CIRCUITS LAB
CO 1
To understand the basic logic gates , implement the boolean functions and various code
converters circuit
CO 2
To develop parity generator and checker circuit and also to implement encoder and decoder
circuit.
CO 3
To understand about flip flops and design the counters and shift registers usinf flip-flops
CO 4
To understand about opamp and its applications
CO 5
To design 555 timer circuits
Department of Electronics and Instrumentation Engineering
III SEM
COURSE NAME: MA8351 Transforms and Partial Differential Equations (II Year –III
Semester)
COURSE CODE: C201
At the end of the course students will be able:.
CO.1 Understand the mathematical principles of partial differential equations and
formulate the equations.
CO.2 Evaluate the various forms of Fourier series.
CO.3 Apply the Fourier series solution methodology to boundary value problems.
CO .4 Understand the concept of Fourier transform and its properties, as well as to
evaluate Fourier transforms of typical functions.
CO.5 Apply Z transform techniques for discrete time signals.
COURSE NAME: EC 8351 Electronic Devices and Circuits (II Year –III Semester)
COURSE CODE: C202
CO.1 Students are able to understand the Structure and operation of PN junction
devices.
CO.2 Students are able to understand the Structure and operation of transistors.
CO.3 Students are able to understand about the operation of amplifiers.
CO .4 Students are able to understand the operation of multistage amplifiers and
differential amplifier.
CO.5 Students are able to understand about feedback amplifiers and oscillators.
COURSE NAME: EE8351 Digital Logic Circuits (II Year –III Semester)
COURSE CODE: C203
CO.1 To understand various number systems and Boolean functions
CO.2 To understand the combinational circuits
CO.3 Ability to design various synchronous and asynchronous circuits.
CO .4 Ability to introduce asynchronous sequential circuits and PLDs
CO.5 To understand the digital simulation for development of application
oriented logic circuits.
COURSE NAME: EI8351 ELECTRICAL MEASUREMENTS (II Year –III Semester)
COURSE CODE: C204
CO.1 Ability to measure current and voltage. Ability to understand AC & DC
measurements.
CO.2 Ability to measure power and calibration of energy meters.
CO.3 Ability to measure current and voltage using potentiometric method.
CO .4 Ability to understand the resistance measurement
CO.5 Ability to use bridge circuit to measure resistance, inductance and
capacitance.
COURSE NAME: EI 8351 TRANSDUCER ENGINEERING (II Year –III Semester)
COURSE CODE: C205
At the end of the course students will be able:
CO.1 Student’s are able to understand about physical quantity measurement and
conversion to electrical quantity or other form.
CO.2 Student’s have acquired adequate knowledge in resistance measurements.
CO.3 Students are able to acquire the knowledge in inductance and capacitance
transducers.
CO .4 Students are able to study the characteristics of transducers.
CO.5 Students are able to acquire knowledge in other types of transducers and
their applications.
COURSE NAME: CS8391 Object Oriented Programming(II Year –III Semester)
COURSE CODE: C206
At the end of the course students will be able:
CO.1 Develop the Java programs using OOP principles
CO.2 Develop Java programs with the concepts inheritance and interfaces
CO.3 Build java applications using exceptions and I/O streams
CO .4 Develop Java applications with threads and generic classes
CO.5 Develop interactive Java programs using swings
COURSE NAME: EI8361 Measurements and Transducers Laboratory
COURSE CODE: C207
At the end of the course students will be able:
CO.1 Understand the concepts of measurement, error and uncertainty.
CO.2 Understand the static and dynamic characteristics of measuring instruments.
CO.3 Gain knowledge about the principle of operation and characteristics of
different types of resistance, capacitance and inductance transducers.
CO .4 Acquire knowledge of analyzing different stages of signal conditioning
units.
CO.5 Ability to interpret the results and draw meaningful conclusions.
CO.6 Ability to work as a member of a team while carrying out
experiments.
COURSE NAME: CS8383 Object Oriented Programming Laboratory
COURSE CODE: C208
At the end of the course students will be able:
CO.1 Develop and implement Java programs for simple applications that make
use of classes, packages and interfaces.
CO.2 Develop and implement Java programs with arraylist, exception handling
and multithreading .
CO.3 Design applications using file processing, generic programming and event
handling
SEMESTER IV
COURSE NAME: MA8459 NUMERICAL METHODS (II Year –IV Semester)
COURSE CODE: C209
CO.1 Evaluate algebraic, transcendental equations, systems of linear equations
and Eigen value problems.
CO.2 Apply the knowledge of Interpolation and approximation aid students in
construction of approximate polynomials from large sets of experimental
data.
CO.3 Understand differentiation and integration of an empirical function given by
tabulated numerical values.
CO .4 Evaluate first order ordinary differential equations using single step
methods and multistep methods.
CO.5 Gain knowledge in solving boundary value problems in ODE and PDE by
finite difference methods.
COURSE NAME: EI8451 ELECTRICAL MACHINES
COURSE CODE: C210
CO.1 Ability to acquire knowledge to solve problems associated with DC and AC
Machines.
CO.2 Ability to test and control different machines based on the familiarity of
basic concepts and working principle.
CO.3 Ability to choose appropriate machines for a given application while
carrying out projects.
CO .4 Ability to apply the knowledge gained to choose appropriate machines for
specific application useful for the society.
CO.5 Ability to know about the latest developments related to machines and to
learn their concepts even after the completion of the course and the ability
to acquire knowledge of stepper motor.
COURSE NAME: EI8452 Industrial Instrumentation - I
COURSE CODE: C211
At the end of the course students will be able to:
CO.1 Understand the construction and working of instruments used for
measurement of force, torque, speed, acceleration, vibration, density,
viscosity, humidity, moisture, temperature
CO.2 Ability to select instruments according to the application
CO.3 Ability to understand the concept of calibration of instruments and gain
knowledge about temperature measurement devices
CO .4 Ability to design signal conditioning circuits and compensation schemes for
temperature measuring instruments
CO.5
CO.6
. Ability to understand the working of instruments used for measurement of
pressure.
Ability to measure fiber optic sensor to measure temperature.
COURSE NAME: EE8451- Linear integrated Circuits and Applications
COURSE CODE: C212
At the end of the course students will be able to:
CO.1 Students will be able to understand the IC fabrication procedure
CO.2 Students will be able to understand the characteristics, design for signal
analysis using opamp ICs
CO.3 Students will be able to understand the applications of Op-amp
CO .4 Students will be able to understand the internal functional blocks and the
applications of special ICs like Timers, PLL circuits, regulator Circuits,
ADCs.
CO.5 Students will be able to understand about application ICs.
COURSE NAME : IC8451- Control Systems
COURSE CODE: C213
At the end of the course students will be able to:
CO.1 Develop various representation of systems based on the knowledge of
Mathematics, Science and Engineering fundamentals
CO.2 Do time domain and frequency domain analysis of various models of linear
system
CO.3 Interpret characteristics of the system to develop mathematical model
CO .4 Design appropriate compensator for the given specifications
CO.5 Develop solution for complex control problem
CO.6 Understand the use of PID controller in closed loop system
COURSE NAME: EC8395-Communication Engineering
COURSE CODE: C214
At the end of the course students will be able to:
CO.1 Apply analog communication techniques.
CO.2 Apply digital communication techniques.
CO.3 Use data and pulse communication techniques.
CO .4 Analyze Source and Error control coding.
CO.5 Utilize multi-user radio communication.
COURSE NAME: EI8461- Devices and Machines lab
COURSE CODE: C215
At the end of the course students will be able to:
CO.1 Gain knowledge on the proper usage of various electronic equipment and
simulation tools for design and analysis of electronic circuits.
CO.2 Get hands-on experience in studying the characteristics of semiconductor
devices.
CO.3 Ability to analyze various electronic circuits such as voltage regulators,
transistor amplifiers and oscillators.
CO .4 Ability to make use of basic concepts to obtain the no load and load
characteristics of D.C machines.
CO.5 Analyze and draw conclusion from the characteristics obtained by
conducting experiments on machines and carry out the experiments in
batches to motivate team work.
COURSE NAME: EE8461- Linear and Digital integrated Circuits Laboratory
COURSE CODE: C216
At the end of the course students will be able to:
CO.1 Understand and Implement boolean Functions
CO.2 Understand the characteristics,design for signal analysis using op-amp ICs
CO.3 Understand the applications of Op-amp and ICs
CO .4 Understand the Internal functional blocks and the applications of special
ICs like Timers,PLL circuits, regulator circuits,ADCs
CO.5 Understand the importance of Code Conversion
Department of Instrumentation and Control Engineering
COURSE OUTCOMES -REGULATION 2017
III SEM
COURSE NAME: MA8351 Transforms and Partial Differential Equations (II Year –III
Semester)
COURSE CODE: C201
At the end of the course students will be able:.
CO.1 Understand the mathematical principles of partial differential equations and
formulate the equations.
CO.2 Evaluate the various forms of Fourier series.
CO.3 Apply the Fourier series solution methodology to boundary value problems.
CO .4 Understand the concept of Fourier transform and its properties, as well as to
evaluate Fourier transforms of typical functions.
CO.5 Apply Z transform techniques for discrete time signals.
COURSE NAME: EC 8353 Electronic Devices and Circuits (II Year –III Semester)
COURSE CODE: C202
CO.1 Students are able to understand the Structure and operation of PN junction
devices.
CO.2 Students are able to understand the Structure and operation of transistors.
CO.3 Students are able to understand about the operation of amplifiers.
CO .4 Students are able to understand the operation of multistage amplifiers and
differential amplifier.
CO.5 Students are able to understand about feedback amplifiers and oscillators.
COURSE NAME: EE8351 Digital Logic Circuits (II Year –III Semester)
COURSE CODE: C203
CO.1 To understand various number systems and Boolean functions
CO.2 To understand the combinational circuits
CO.3 Ability to design various synchronous and asynchronous circuits.
CO .4 Ability to introduce asynchronous sequential circuits and PLDs
CO.5 To understand the digital simulation for development of application
oriented logic circuits.
COURSE NAME: EI8351 ELECTRICAL MEASUREMENTS (II Year –III Semester)
COURSE CODE: C204
CO.1 Ability to measure current and voltage. Ability to understand AC & DC
measurements.
CO.2 Ability to measure power and calibration of energy meters.
CO.3 Ability to measure current and voltage using potentiometric method.
CO .4 Ability to understand the resistance measurement
CO.5 Ability to use bridge circuit to measure resistance, inductance and
capacitance.
COURSE NAME: EI 8352 TRANSDUCER ENGINEERING (II Year –III Semester)
COURSE CODE: C205
At the end of the course students will be able:
CO.1 Student’s are able to understand about physical quantity measurement and
conversion to electrical quantity or other form.
CO.2 Student’s have acquired adequate knowledge in resistance measurements.
CO.3 Students are able to acquire the knowledge in inductance and capacitance
transducers.
CO .4 Students are able to study the characteristics of transducers.
CO.5 Students are able to acquire knowledge in other types of transducers and
their applications.
COURSE NAME: CS8392 OOPS(II Year –III Semester)
COURSE CODE: C206
At the end of the course students will be able:
CO.1 Develop the Java programs using OOP principles
CO.2 Develop Java programs with the concepts inheritance and interfaces
CO.3 Build java applications using exceptions and I/O streams
CO .4 Develop Java applications with threads and generic classes
CO.5 Develop interactive Java programs using swings
COURSE NAME: EI8351 Measurements and Transducers Laboratory
COURSE CODE: C207
At the end of the course students will be able:
CO.1 Understand the concepts of measurement, error and uncertainty.
CO.2 Understand the static and dynamic characteristics of measuring instruments.
CO.3 Gain knowledge about the principle of operation and characteristics of
different types of resistance, capacitance and inductance transducers.
CO .4 Acquire knowledge of analyzing different stages of signal conditioning
units.
CO.5 Ability to interpret the results and draw meaningful conclusions.
CO.6 Ability to work as a member of a team while carrying out
experiments.
COURSE NAME: CS8382 Object Oriented Programming Laboratory
COURSE CODE: C208
At the end of the course students will be able:
CO.1 Develop and implement Java programs for simple applications that make
use of classes, packages and interfaces.
CO.2 Develop and implement Java programs with arraylist, exception handling
and multithreading .
CO.3 Design applications using file processing, generic programming and event
handling.
SEMESTER IV
COURSE NAME: MA8491 NUMERICAL METHODS (II Year –IV Semester)
COURSE CODE: C209
CO.1 Evaluate algebraic, transcendental equations, systems of linear equations
and Eigen value problems.
CO.2 Apply the knowledge of Interpolation and approximation aid students in
construction of approximate polynomials from large sets of experimental
data.
CO.3 Understand differentiation and integration of an empirical function given by
tabulated numerical values.
CO .4 Evaluate first order ordinary differential equations using single step
methods and multistep methods.
CO.5 Gain knowledge in solving boundary value problems in ODE and PDE by
finite difference methods.
COURSE NAME: EI8451 ELECTRICAL MACHINES
COURSE CODE: C210
At the end of the course students will be able to:
CO.1 Ability to acquire knowledge to solve problems associated with DC and AC
Machines.
CO.2 Ability to test and control different machines based on the familiarity of
basic concepts and working principle.
CO.3 Ability to choose appropriate machines for a given application while
carrying out projects.
CO .4 Ability to apply the knowledge gained to choose appropriate machines for
specific application useful for the society.
CO.5 Ability to know about the latest developments related to machines and to
learn their concepts even after the completion of the course and the ability
to acquire knowledge of stepper motor.
COURSE NAME: EI8452 Industrial Instrumentation - I
COURSE CODE: C211
At the end of the course students will be able to:
CO.1 Understand the construction and working of instruments used for
measurement of force, torque, speed, acceleration, vibration, density,
viscosity, humidity, moisture, temperature
CO.2 Ability to select instruments according to the application
CO.3 Ability to understand the concept of calibration of instruments and gain
knowledge about temperature measurement devices
CO .4 Ability to design signal conditioning circuits and compensation schemes for
temperature measuring instruments
CO.5
CO.6
. Ability to understand the working of instruments used for measurement of
pressure.
Ability to measure fiber optic sensor to measure temperature.
COURSE NAME: EE8451- Linear integrated Circuits and Applications
COURSE CODE: C212
At the end of the course students will be able to:
CO.1 Students will be able to understand the IC fabrication procedure
CO.2 Students will be able to understand the characteristics, design for signal
analysis using opamp ICs
CO.3 Students will be able to understand the applications of Op-amp
CO .4 Students will be able to understand the internal functional blocks and the
applications of special ICs like Timers, PLL circuits, regulator Circuits,
ADCs.
CO.5 Students will be able to understand about application ICs.
COURSE NAME : IC8451- Control Systems
COURSE CODE: C213
At the end of the course students will be able to:
CO.1 Develop various representation of systems based on the knowledge of
Mathematics, Science and Engineering fundamentals
CO.2 Do time domain and frequency domain analysis of various models of linear
system
CO.3 Interpret characteristics of the system to develop mathematical model
CO .4 Design appropriate compensator for the given specifications
CO.5 Develop solution for complex control problem
CO.6 Understand the use of PID controller in closed loop system
COURSE NAME: EC8395-Communication Engineering
COURSE CODE: C214
At the end of the course students will be able to:
CO.1 Apply analog communication techniques.
CO.2 Apply digital communication techniques.
CO.3 Use data and pulse communication techniques.
CO .4 Analyze Source and Error control coding.
CO.5 Utilize multi-user radio communication.
COURSE NAME: EI8461- Devices and Machines lab
COURSE CODE: C215
At the end of the course students will be able to:
CO.1 Gain knowledge on the proper usage of various electronic equipment and
simulation tools for design and analysis of electronic circuits.
CO.2 Get hands-on experience in studying the characteristics of semiconductor
devices.
CO.3 Ability to analyze various electronic circuits such as voltage regulators,
transistor amplifiers and oscillators.
CO .4 Ability to make use of basic concepts to obtain the no load and load
characteristics of D.C machines.
CO.5 Analyze and draw conclusion from the characteristics obtained by
conducting experiments on machines and carry out the experiments in
batches to motivate team work.
COURSE NAME: EE8461- Linear and Digital integrated Circuits Laboratory
COURSE CODE: C216
At the end of the course students will be able to:
CO.1 Understand and Implement boolean Functions
CO.2 Understand the characteristics,design for signal analysis using op-amp ICs
CO.3 Understand the applications of Op-amp and ICs
CO .4 Understand the Internal functional blocks and the applications of special
ICs like Timers,PLL circuits, regulator circuits,ADCs
CO.5 Understand the importance of Code Conversion
Department of Information and Technology
SEMESTER : III
Subject Code : MA8351 Subject Name : DISCRETE MATHEMATICS
Course outcomes
CO1 Acquire knowledge in testing the logic of a program
CO2 Evaluate problems using the counting principles
CO3 Understand the concepts of graphs, connected graphs, Euler and Hamilton
graphs.
CO4 Understand properties of algebraic structures such as groups, rings and fields.
CO5 Analyze the class of functions which transform a finite set into another finite set
which relates to input and output functions in computer science.
Subject Code : CS8392 Subject Name : OBJECT ORIENTED PROGRAMMING
Course outcomes
CO1 Develop Java programs using OOP principles
CO2 Develop Java programs with the concepts inheritance and interfaces
CO3 Build Java applications using exceptions and I/O streams
CO4 Develop Java applications with threads and generics classes
CO5 Develop interactive Java programs using swings
Subject Code : CS8351 Subject Name : DIGITAL PRINCIPLES AND SYSTEM
DESIGN
Course outcomes
CO1 Understand about digital circuits and to design them by simplifying Boolean
functions
CO2 Understand and design any combinational circuits.
CO3 Analyze and design synchronous and asynchronous sequential circuits.
CO4 Understand Programmable Logic Devices
CO5 Apply HDL code for any combinational and sequential circuits
Subject Code : CS8391 Subject Name : DATA STRUCTURES
Course outcomes
CO1 To know about Abstract Data Types
CO2 To implement Stack and Queues
CO3 To implement Trees and its applications
CO4 To understand Graph along with its applications
CO5 Analyze the various Searching, Sorting and Hashing Mechanisms
Subject Code : EC8394 Subject Name : ANALOG AND DIGITAL
COMMUNICATION
Course outcomes
CO1 Apply analog and digital communication techniques.
CO2 Use data and pulse communication techniques.
CO3 Explain various digital communication systems
CO4 Analyze source and error control coding techniques
CO5 Gain knowledge on multi-user radio communication
SEMESTER : III
Subject Code : CS8392 Subject Name : OBJECT ORIENTED PROGRAMMING
LAB
Course outcomes
CO1
Develop and implement Java programs for simple applications that make use of
classes, packages and interfaces.
CO2 Develop and implement Java programs with arraylist, exception handling and
multithreading.
CO3 Design applications using file processing, generic programming and event
handling.
Subject Code : CS8381 Subject Name : DATA STRUCTURES
LAB
Course outcomes
CO1 Write functions to implement linear and non-linear data structure operations
CO2 Suggest appropriate linear / non-linear data structure operations for solving a
given problem
CO3 Appropriately use the linear / non-linear data structure operations for a given
problem
CO4 Apply appropriate hash functions that result in a collision free scenario for data
storage and retrieval
Subject Code : CS8382 Subject Name : DIGITAL
LAB
Course outcomes
CO1 Use Boolean simplification techniques to design a combinational hardware
circuit
CO2 Design and implement combinational and sequential circuits
CO3 Analyze a given digital circuit-combinational and sequential
CO4 Design the different functional units in a digital computer system
CO5 Design and implement a simple digital system with HDL
SEMESTER : IV
Subject Code : CS8492 Subject Name : Database Management
Systems
Course outcomes
CO1
Classify(Analyzing) the modern and futuristic database applications based on
Relational model, size and complexity
CO2
Map (Synthesis/create/design) ER model to Relational model to perform database
design effectively by Construct DDL, DML, TCL and DCL commands for different
databases with various constraints
CO3 Write queries using normalization criteria and optimize queries(Evaluating)
CO4
Compare and contrast various indexing strategies in different database systems
(Evaluating)
CO5 Appraise how advanced databases differ from traditional databases.(Evaluating)
Subject Code : CS8451 Subject Name : DESIGN AND ANALYSIS OF
ALGORITHMS
Course outcomes
CO1 Identify the type of algorithm used for various computing problems
CO2 Describe and Design algorithms for various computing problems
CO3 Calculate the time and space complexity of algorithms
CO4 Justify the algorithm design techniques used for the given problem
CO5 Design new algorithm and Modify existing algorithms to improve efficiency
Subject Code : CS8451 Subject Name : OPERATING SYSTEMS
Course outcomes
CO1 To learn the basic concepts of an operating system
CO2 To understand the I/O Management and File Systems
CO3 To apply various resource management algorithms
CO4 To analyze the critical section problems , Various memory management
schemes
CO5 To evaluate Linux OS and Mobile OS like ios and Android
Subject Code : CS8461 Subject Name : OPERATING SYSTEMS LAB
Course outcomes
CO1 To Implement Deadlock avoidance and Detection Algorithms
CO2 Implement Semaphores
CO3 Create processes and implement IPC
CO4 Analyze the performance of the various Page Replacement Algorithms
CO5 Implement File Organization and File Allocation Strategies
Department of Mechanical
REGULATION – 2017
Year-II
COURSE
CODE
MA835
3
COURSE
NAME
TRANSFORMS AND PARTIAL
DIFFERENTIAL EQUATIONS SEM 3
On completion of the course, the students will be able to
CO.1 Understand how to solve the given standard partial differential equations.
CO.2 Solve differential equations using Fourier series analysis which plays a vital role in
engineering applications
CO.3 Appreciate the physical significance of Fourier series techniques in solving one and two
dimensional heat flow problems and one dimensional wave equations.
CO.4
Understand the mathematical principles on transforms and partial differential equations
would provide them the ability to formulate and solve some of the physical problems of
engineering.
CO.5 Use the effective mathematical tools for the solutions of partial differential equations by
using Z transform techniques for discrete time systems.
COURSE
CODE ME8391
COURSE
NAME ENGINEERING THERMODYNAMICS SEM 3
On completion of the course, the students will be able to
CO.1 Apply the first law of thermodynamics for simple open and closed systems under steady
and unsteady conditions.
CO.2 Apply second law of thermodynamics to open and closed systems and calculate entropy
and availability.
CO.3 Apply Rankine cycle to steam power plant and compare few cycle improvement
methods
CO.4 Derive simple thermodynamic relations of ideal and real gases
CO.5 Calculate the properties of gas mixtures and moist air and its use in psychometric
processes
COURSE
CODE CE8394
COURSE
NAME FLUID MECHANICS AND MACHINERY SEM 3
On completion of the course, the students will be able to
CO.1 Apply mathematical knowledge to predict the properties and characteristics of a fluid
CO.2 Can analyse and calculate major and minor losses associated with pipe flow in piping
networks.
CO.3 Can mathematically predict the nature of physical quantities
CO.4 Can critically analyse the performance of pumps
CO.5 Can critically analyse the performance of turbines.
COURSE
CODE ME8351
COURSE
NAME MANUFACTURING TECHNOLOGY – I SEM 3
On completion of the course, the students will be able to
CO.1 Explain different metal casting processes, associated defects, merits and demerits
CO.2 Compare different metal joining processes.
CO.3 Summarize various hot working and cold working methods of metals.
CO.4 Explain various sheet metal making processes.
CO.5 Distinguish various methods of manufacturing plastic components.
COURSE
CODE EE8353
COURSE
NAME ELECTRICAL DRIVES AND CONTROLS SEM 3
On completion of the course, the students will be able to
CO.1 Upon Completion of this subject, the students can able to explain different types of
electrical machines and their performance
COURS
E CODE
ME836
1
COURSE
NAME
MANUFACTURING TECHNOLOGY
LABORATORY – I SEM 3
On completion of the course, the students will be able to
CO.1 Demonstrate the safety precautions exercised in the mechanical workshop.
CO.2 Make the workpiece as per given shape and size using Lathe.
CO.3 Join two metals using arc welding.
CO.4 Use sheet metal fabrication tools and make simple tray and funnel.
CO.5 Use different moulding tools, patterns and prepare sand moulds.
COURSE
CODE ME8381
COURSE
NAME COMPUTER AIDED MACHINE DRAWING SEM 3
On completion of the course, the students will be able to
CO.1 Follow the drawing standards, Fits and Tolerances
CO.2 Re-create part drawings, sectional views and assembly drawings as per standards
COURSE
CODE MA8452
COURSE
NAME STATISTICS AND NUMERICAL METHODS SEM 4
On completion of the course, the students will be able to
CO.1 Apply the concept of testing of hypothesis for small and large samples in real life
problems.
CO.2 Apply the basic concepts of classifications of design of experiments in the field of
agriculture.
CO.3 Appreciate the numerical techniques of interpolation in various intervals and apply the
numerical techniques of differentiation and integration for engineering problems.
CO.4 Understand the knowledge of various techniques and methods for solving first and
second order ordinary differential equations.
CO.5 Solve the partial and ordinary differential equations with initial and boundary conditions
by using certain techniques with engineering applications
COURSE
CODE ME8492
COURSE
NAME KINEMATICS OF MACHINERY SEM 4
On completion of the course, the students will be able to
CO.1 Discuss the basics of mechanism
CO.2 Calculate velocity and acceleration in simple mechanisms
CO.3 Develop CAM profiles
CO.4 Solve problems on gears and gear trains
CO.5 Examine friction in machine elements
COURSE
CODE ME8451
COURSE
NAME MANUFACTURING TECHNOLOGY – II SEM 4
On completion of the course, the students will be able to
CO.1 Explain the mechanism of material removal processes.
CO.2 Describe the constructional and operational features of centre lathe and other special
purpose lathes
CO.3 Describe the constructional and operational features of shaper, planner, milling, drilling,
sawing and broaching machines.
CO.4 Explain the types of grinding and other super finishing processes apart from gear
manufacturing processes
CO.5 Summarize numerical control of machine tools and write a part program.
COURSE
CODE
ME8491 COURSE
NAME ENGINEERING METALLURGY SEM 4
On completion of the course, the students will be able to
CO.1 Explain alloys and phase diagram, Iron-Iron carbon diagram and steel classification
CO.2 Explain isothermal transformation, continuous cooling diagrams and different heat
treatment processes
CO.3 Clarify the effect of alloying elements on ferrous and non-ferrous metals
CO.4 Summarize the properties and applications of non metallic materials
CO.5 Explain the testing of mechanical properties
COURSE
CODE CE8395
COURSE
NAME
STRENGTH OF MATERIALS FOR MECHANICAL
ENGINEERS SEM 4
On completion of the course, the students will be able to
CO.1 Understand the concepts of stress and strain in simple and compound bars, the importance
of principal stresses and principal planes.
CO.2 Understand the load transferring mechanism in beams and stress distribution due to shearing
force and bending moment.
CO.3 Apply basic equation of simple torsion in designing of shafts and helical spring
CO.4 Calculate the slope and deflection in beams using different methods.
CO.5 Analyze and design thin and thick shells for the applied internal and external pressures.
COURSE
CODE ME8493
COURSE
NAME THERMAL ENGINEERING - I SEM 4
On completion of the course, the students will be able to
CO.1 Apply thermodynamic concepts to different air standard cycles and solve problems
CO.2 Solve problems in single stage and multistage air compressors
CO.3 Explain the functioning and features of IC engines, components and auxiliaries
CO.4 Calculate performance parameters of IC Engines
CO.5 Explain the flow in Gas turbines and solve problems
COURS
E CODE ME8462
COURS
E NAME
MANUFACTURING TECHNOLOGY
LABORATORY – II SEM 4
On completion of the course, the students will be able to
CO.1 use different machine tools to manufacturing gears
CO.2 Ability to use different machine tools to manufacturing gears
CO.3 Ability to use different machine tools for finishing operations
CO.4 Ability to manufacture tools using cutter grinder
CO.5 Develop CNC part programming
COURS
E CODE CE8381
COURS
E NAME
STRENGTH OF MATERIALS AND FLUID
MECHANICS
AND MACHINERY LABORATORY
SEM 4
On completion of the course, the students will be able to
CO.1 Perform Tension, Torsion, Hardness, Compression, and Deformation test on Solid materials.
CO.2 Use the measurement equipments for flow measurement
CO.3 Perform test on different fluid machinery
COURSE
CODE HS8461
COURSE
NAME ADVANCED READING AND WRITING SEM 4
On completion of the course, the students will be able to
CO.1 Write different types of essays
CO.2 Write winning job applications
CO.3 Read and evaluate texts critically
CO.4 Display critical thinking in various professional contexts
Department of MBA
YEAR / SEM : II / III BA 5301 INTERNATIONAL BUSINESS MANAGEMENT
CO1 To expose the student to the basic concepts of International Business
CO2 To make the students familiarize with Global business environment, Global
strategic management practices
CO3 To enable the students to familiar with conflicts situation and ethical issues in
global business
CO4 To understand functional practices adopted by global business organizations
CO5 To understand the emerging trends in Global Business formats
YEAR / SEM : II / III BA5302 STRATEGIC MANAGEMENT
CO1 To demonstrate understanding of the concept of competitive advantage and its
sources
CO2 To distinguish the two primary types of competitive advantage: cost leadership and
differentiation
CO3 To recognize the different stages of industry evolution and recommend strategies
appropriate to each stage
CO4 To formulate strategies for exploiting international business opportunities including
foreign entry strategies
CO5 To demonstrate to think in relation to a particular problem, situation or strategic
decision through real-world scenarios
YEAR / SEM : II / III BA 5004 INTEGRATED MARKETING COMMUNICATION
CO1 To understand the scope and objectives of Marketing
CO2 To explore the range and reach of various media
CO3 To understand the scope and objectives of sales promotion
CO4 To understand the importance of PR and its tools
CO5 To explore the scope of publicity through social media
CO6 To access the importance of advertising and sales promotion campaigns planning
and objective setting in relation to consumer decision making processes.
YEAR / SEM : II / III BA5005 RETAIL MARKETING
CO1 Ability to understand the nature of retail industry in India and international
CO2 Understand the characteristics of various formats of retailing
CO3 Equip the students to design and develop the product line for sustaining in the retail
environment.
CO4 Enhance the ability to plan, build and manage retail shops in different locations
CO5 Equip the students to apply visual merchandising tools to attract customers.
YEAR / SEM : II / III BA5006 SERVICES MARKETING
CO1 To understand the meaning of service and significance of marketing the services
CO2 To have insight into characteristics of services and challenges in service
CO3 To get knowledge about expanded marketing mix and marketing strategies
CO4 To understand the process of new service development
CO5 To acquire ability to promote and delivery services
CO6 To tackle managerial issues in framing service strategies
YEAR / SEM : II / III BA 5008 BANKING FINANCIAL SERVICES MANAGEMENT
CO1 To possess the knowledge about Indian banking system and relevant acts.
CO2 To understand the sources and application of bank funds
CO3 To understand the concept of merger and acquisition
CO4 To know the financial distress and its prediction models
CO5 To possess the knowledge regarding various internet banking and threats
CO6 To Possess the knowledge regarding risk and evaluate performance of banks
YEAR / SEM : II / III BA 5011 MERCHANT BANKING AND FINANCIAL SERVICES
CO1 To understand the various concepts of merchant banking activities
CO2 To know the emergence and developments of Financial services in India
CO3 To understand the modes of issuing securities
CO4 To acquire financial evaluation technique of leasing and hire purchase
CO5 To acquire the knowledge of various fund based and fee based financial services
YEAR / SEM : II / III BA5012 SECURITY ANALYSIS AND PORTFOLIO MANAGEMENT
CO1 Understand the various alternatives available for investment.
CO2 Learn to measure risk and return.
CO3 Find the relationship between risk and return.
CO4 Value the equities and bonds.
CO5 Gain knowledge of the various strategies followed by investment practitioners
YEAR/ SEM : II / III BA5015 INDUSTRIAL RELATION AND LABOUR WELFARE
CO1 To understand the significance of Industrial relations and the Problems
CO2 To enable students to have in depth knowledge in Industrial Conflicts and the
Machinery for settling Industrial Disputes
CO3 To explore the Concept of Labour Welfare , Training and Workers Education
CO4 To give an insight towards Industrial Health and Safety and Practices
CO5 To enable students about Welfare of Special Categories of Labour
YEAR / SEM : II / III BA 5016 LABOUR LEGISLATIONS
CO1 Overall orientation about labor laws are highlighted.
CO2 Legal provisions relating to Wages and Bonus are clarified.
CO3 Explanation on working condition and labor welfare are provided.
CO4 Industrial Relations practices are explained and analyzed with case.
CO5 Social security laws were explained and clearly understood.
CO6 Application of the laws are explained with case that gives practical exposure.
YEAR / SEM : II / III BA 5018 ORGANIZATIONAL THEORY, DESIGN AND DEVELOPMENT
CO1 To learn the process of designing and development of an organization
CO2 To understand the process of enhancing organizational efficiency
CO3 To gain knowledge of intricacies of designing an organization
CO4 To understand the concept of organizational culture and its implications
CO5 To apply the business acumen gained in change process in an organization
CO6 To create awareness about Organizational evolution and sustenance
YEAR / SEM : II / III BA 5021 DATA MINING FOR BUSINESS INTELLIGENCE
CO1 To understand what business intelligence and data mining are, can do, and cannot do
CO2 To understand how data warehousing is different from and related to statistics and machine
learning
CO3 To understand the data mining tools, techniques for privacy and ethical considerations
CO4 To critique and interpret business intelligence and data mining reports prepared by others
C05 To effectively apply data mining techniques in a variety of business applications
YEAR / SEM : II / III BA 5022 ENTERPRISE RESOURCE PLANNING
CO1 To understand the ERP systems basics and business process
CO2 To have brief insight on ERP software solutions and the various functional
modules.
CO3 To understand the evaluation and selection of ERP
CO4 To gain understanding on the maintenance and ERP success factors
CO5 To understand the emerging trends in ERP development.
YEAR / SEM : II / III BA 5024 E-BUSINESS MANAGEMENT
CO1 To understand the concepts of e-business
CO2 To have brief knowledge about Technology and infrastructure for developing e-
business
CO3 To understand the real time usage of e-business application
CO4 To gain knowledge about payment and security for e-business
CO5 To understand the legal and privacy issues
YEAR / SEM : II / III BA 5025 LOGISTICS MANAGEMENT
CO1 To understand the basics of logistics
CO2 To know the Channel structure and mode of outsourcing
CO3 To understand the efficiency of transportation and packaging
CO4 To measure the performance of logistics
CO5 To understand the current and future trends of logistics
YEAR / SEM : II / III BA 5028 PROJECT MANAGEMENT
CO1 Manage the selection and initiation of individual projects and of portfolios of
projects in the enterprise.
CO2 Conduct project planning activities that accurately forecast project costs, timelines,
and quality. Implement processes for successful resource, communication, and risk
and change management.
CO3 Demonstrate effective project execution and control techniques that result in
successful projects.
CO4 Conduct project closure activities and obtain formal project acceptance.
CO5 Demonstrate a strong working knowledge of ethics and professional responsibility.
CO6 Demonstrate effective organizational leadership and change skills for managing
projects, project teams, and stakeholders.
YEAR / SEM : II / III BA5030 SUPPLY CHAIN MANAGEMENT
CO1 To understand business logistics and supply chain
CO2 To understand the managing flows
CO3 To understand the inventory and warehousing
CO4 To understand transporting and packing
CO5 To understand the organization and control
CO6 To gains knowledge on effective management of the logistics and supply chain
YEAR / SEM : II / IV BA 7401 INTERNATIONAL BUSINESS MANAGEMENT
CO1 To expose the student to the basic concepts of International Business
CO2 To make the students familiarize with Global business environment, Global
strategic management practices
CO3 To enable the students to familiar with conflicts situation and ethical issues in
global business
CO4 To understand functional practices adopted by global business organizations
CO5 To understand the emerging trends in Global Business formats
YEAR / SEM : II / IV BA 7402 BUSINESS ETHICS,CORPORATE SOCIAL
RESPONSIBILITY AND GOVERNANCE
CO1 To have grounding on ethical theory through the understanding of real life
situations and cases
CO2 To understand ethical issues in workplace and be able to find solutions for most
good
CO3 To enhance the understanding of the nature of business ethics in the Indian as
well as global business environment
CO4 To examine the ethical implications of business practices from a stakeholder
perspective
CO5 To increase awareness of the challenges of business social responsibility
SRI SAIRAM ENGINEERING COLLEGE
DEPARTEMNT OF PRODUCTION ENGINEERING
COURSE OUTCOMES (CO) – R-2017
ODD SEMESTER-III semester
PR8301 – BASIC MACHINING PROCESS:
CO1: Understand the constructional features and working principles of Lathe, work
holding devices and also understands the concepts of mechanics of metal
cutting.
CO2: Understand the constructional features and working principles of shaper, planer
and slotter, work holding devices and various machining operations performed.
CO3: Understand the constructional features and working principles of drilling
machine and its types.
CO4: Understand the constructional features and working principles of milling
machine and its types, work holding devices and various machining operations
performed.
CO5: Understand the constructional features and working principles of grinding
machine and its types.
PR8302 – THERMODYNAMICS AND THERMAL ENGINEERING:
CO1: To solve the basic problem in thermodynamics and its concepts.
CO2: To understand the concepts in Internal Combustion engines and Compressor.
CO3: To understand the basics in Production of Electricity and solve problems based
on same.
CO4: To know the basics in Refrigeration and Air conditioning
CO5: To analyze the heat transfer techniques and heat transfer in condensers.
CE8395 -STRENGTH OF MATERIALS FOR MECHANICAL ENGINEERS:
CO1: Understand the concepts of stress and strain in simple and compound bars, the
importance of principal stresses and principal planes.
CO2: Understand the load transferring mechanism in beams and stress distribution
due to shearing force and bending moment.
CO3: Apply basic equation of simple torsion in designing of shafts and helical spring
CO4: Calculate the slope and deflection in beams using different methods.
CO5: Analyze and design thin and thick shells for the applied internal and external
pressures.
CE8394 - FLUID MECHANICS AND MACHINERY:
CO1: Apply mathematical knowledge to predict the properties and characteristics of
a fluid.
CO2: Can analyse and calculate major and minor losses associated with pipe flow in
piping networks.
CO3: Can mathematically predict the nature of physical quantities
CO4: Can critically analyse the performance of pumps
CO5: Can critically analyse the performance of turbines.
PR8311 - BASIC MACHINING PROCESS LABORATORY
CO1: Ability to select appropriate turning process to obtain finished components.
CO2: Ability to select appropriate milling process to obtain finished components.
CO3: Ability to select appropriate shaper and slotting process to obtain finished
components.
CO4: Ability to select appropriate grinding process to obtain optimum surface finish.
CO5: Ability to coordinate various machining process in sequence to get desired
design in final components.
CE8381 - STRENGTH OF MATERIALS AND FLUID MECHANICS &
MACHINERY LABORATORY
CO1: Ability to perform Tension, Torsion, Hardness, Compression, and Deformation
test on Solid materials.
CO2: Perform Tension, Torsion, Hardness, Compression, and Deformation test on
Solid materials.
CO3: Use the measurement equipments for flow measurement.
CO4: Perform test on different fluid machinery.
ME8381 - COMPUTER AIDED MACHINE DRAWING
CO1: Follow the drawing standards, Fits and Tolerances.
CO2: Re-create part drawings, sectional views and assembly drawings as per
standards.
CO3: Explain the features and applications of lathe, milling, drilling and broaching
machines.
CO4: Discuss features and applications of reciprocating machine tools like shaper,
planer and slotting machine.
CO5: Write the programming to control and operate nc and cnc machines
COURSE OUTCOMES (CO) – R-2017
EVEN SEMESTER -IV Semester
MA8452 Statistics and Numerical Methods
CO1: Apply the concept of testing of hypothesis for small and large samples in real
life problems.
CO2: Apply the basic concepts of classifications of design of experiments in the field
of agriculture.
CO3: Appreciate the numerical techniques of interpolation in various intervals and
apply the numerical techniques of differentiation and integration for
engineering problems.
CO4: Understand the knowledge of various techniques and methods for solving first
and second order ordinary differential equations.
CO5: Solve the partial and ordinary differential equations with initial and boundary
conditions by using certain techniques with engineering applications.
ME8491 Engineering Metallurgy
CO1: Explain alloys and phase diagram, Iron-Iron carbide diagram and steel
classification.
CO2: Explain isothermal transformation, continuous cooling diagrams and different
heat treatment processes.
CO3: Summarize the mechanism of plastic deformation and testing mechanical
properties.
CO4: Clarify the effect of alloying elements on ferrous and non-ferrous metals.
CO5: Differentiate different non-mettalic materials.
PR8491 Computer Integrated Manufacturing
CO1: Explain the concept of Computer Aided Process Planning (CAPP) and Material
Requirements Planning (MRP).
CO2: Illustrate the cellular manufacturing using Rank order, Clustering and Hollier
method.
CO3: Explain Flexible Manufacturing system and applications of Automated Guided
Vehicles in the implementation of CIM..
CO4: Describe the configurations of Industrial Robots, and their part programming.
CO5: Understand the use of computers in various Manufacturing support systems.
PR8451 Mechanics of Machines
CO1: Understand the principles in the formation of mechanisms and their kinematics.
CO2: Understand the construction features of Gears and Gear Trains.
CO3: Understand the effect of friction in different machine elements.
CO4: Understand the importance of balancing, Governors and Gyroscopic effects.
CO5: Understand the importance of vibration.
PR8401 Fluid Power Drives and Control
CO1: To understand the fundamentals of pneumatics and hydraulics and its
principles.
CO2: To understand constructional and operational features about the hydraulic and
pneumatic drives system.
CO3: To identify pneumatic and hydraulic components and their functions.
CO4: To design basic and advanced pneumatic and hydraulic circuits for industrial
applications.
CO5: To understand the basic concepts, elements and functions of Programmable
Logic Controller.