After completing this course the student must demonstrate the knowledge and Ability to 

CO 1

Simplify the system of linear equations using rank of the matrices.

CO 2

Classify characteristic equation, characteristic roots in the applicability Of cayley hamilition theorem to find inverse of matrix. 

CO 3

Apply the appropriate test to find the convergence and divergence of the given series.

CO 4

Identify the policy of some special function like beta, gamma function which is helpful to evaluate some definite integrals.  

CO 5

Simplify   problems of differentiation functions of two variables and know about the maximization of functions of several variables.

After completing this course the student must demonstrate the knowledge and Ability to 

CO 1

 Understand the dual nature of the matter.

CO 2

Build understand the characteristics of semiconductors.

CO 3

Distinguish between photo sensors and emitters.

CO 4

Construct the lasers and fiber optics.

CO 5

Summarize electromagnetic theory by using dielectric and magnetic materials.

After completing this course the student must demonstrate the knowledge and Ability to 

CO 1

Construct algorithms, flow charts for solving problems .Understand the basic semantics of c Programming.

CO 2

Apply the concept of arrays, strings , pointers, structures, unions to develop C programs

CO 3

Develop applications using file Management to read write data from files

CO 4

Develop a problem into functions for modular reusable code

CO 5

Apply searching and sorting techniques

After completing this course the student must demonstrate the knowledge and Ability to 

CO 1

Know and understand the conventions and the methods of engineering drawing

CO 2

Interpret engineering drawings using fundamental technical mathematics

CO 3

Analyze and draw the orthographic projections of solids and the true shape of section.

CO 4

Construct the basic geometry and comprehend the theory of  projection

CO 5

Improve their visualization skills so that they can apply these skills in developing new drawings

After completing this course the student must demonstrate the knowledge and Ability to 

CO 1

Identification of planks constant

CO 2

Determination of V-I characteristics of different types of semiconducting devices

CO 3

Comparison LCR and CR circuit application in present technology.

CO 4

illustration of losses in optical fibers

CO 5

Identification of induction at several points on the axis of circular coil carrying current using Stewart and Gee’s.

After completing this course, the student is able to

CO 1

Design the programs to solve scientific and mathematical, Control structured  problems

CO 2

Develop  programs using arrays, pointers

CO 3

Design the programs using file handling functions

CO 4

Develop the programs using functions

CO 5

Design the programs for different searching and sorting techniques.

After completing this course, the student is able to

CO 1

Understand the Technologies on the basis of ecological principles.

CO 2

Apply the environmental regulations which in turn help in sustainable development.

CO 3

Understand the various classifications of ecosystems and natural resources.

CO 4

Apply environmental regulations to different acts.

CO 5

Analyze the values of social, ethical and aesthetic 

After completing this course, the student is able to

CO 1

Construct mathematical model of  ordinary differential equation and its applications.

CO 2

Solve mathematical of second order differential equations and different type of methods and apply the real world problems.

CO 3

Find areas, volumes, moment of inertia etc of regions on a plane or in space.

CO 4

Discuss the physical quantities involved in engineering field related to the vector valued functions.

CO 5

Analyze the basic properties of vector valued functions and their applications.

After completing this course, the student is able to

CO 1

Acquire the knowledge of Molecular orbital theory in solids (eg. Conductors) and in crystals.

CO 2

Interpret various water treatment methods for domestic and industrial purposes.

CO 3

Apply the principles of electrochemistry in batteries; extrapolate the importance of electrochemistry in corrosion.

CO 4

Understand the importance of stereochemistry & chemical reactions involved in organic synthesis.

CO 5

Recognize the principles and applications of spectroscopy.

After completing this course, the student is able to

CO 1

Analyze and solve problems of electrical circuits using network laws.

CO 2

Analyze and solve problems of electrical circuits using network theorems.

CO 3

Analyze the working principles of Transformer.

CO 4

Analyze the working principles of Electrical Machines.

CO 5

Explain components of Low Voltage Electrical Installations.

After completing this course, the student is able to

CO 1

Understanding the tools and methods of using to fabricate engineering components.

CO 2

Evaluating various methods and trades of workshop in the component building.  

CO 3

Practice on manufacturing of components using workshop trades including fitting, carpentry, foundry, house wiring, black smithy, tin smithy, soldering and welding.

CO 4

Apply suitable tools for different trades of Engineering processes including material removing, measuring, chiseling.

CO 5

Apply basic electrical engineering knowledge for house wiring practice.

After completing this course, the student is able to

CO 1

Understand the importance of grammar and vocabulary to attain fluency in English Language.

CO 2

Recognize the significance of reading skills.  

CO 3

Attine and enhance competency in writing various formats of letters.

CO 4

 Apply the knowledge of Tenses in to their life time situations.

CO 5

 Knowledge about Foreign Languages and Their Influence on English.

After completing this course, the student is able to

CO 1

Interpret the data for analysis of water constituents.

CO 2

Able to gain knowledge on instrumental techniques. 

CO 3

Synthesize advanced polymers materials. 

CO 4

Identify the strength of compounds using titrimetric methods.

CO 5

Analyze the percentage of constituents in compounds (eg. Ores).

After completing this course, the student is able to

CO 1

Understand the process of listening and its importance to communicate the people effectively.

CO 2

Acquire knowledge in Phonetics and try to speak appropriately and coherently. 

CO 3

Develop the ability to express themselves in group and individual activities.

CO 4

 Recognize the terms of Accent, Stress and intonation in English Language.

CO 5

Participate in JAM,SEMINARS ,PPT  and GD to generate new ideas

After completing this course, the student is able to

CO 1

Analyze and solve problems of electrical circuits using network laws.

CO 2

Demonstrate the response of different types of electrical circuits to different excitations.

CO 3

Analyze the working principles of Transformer.

CO 4

Identify the measurement, calculation and relation between the basic electrical parameters.

CO 5

Analyze the working principles of Electrical Machines.

After completing this course, the student is able to

CO 1

Analyze the different types of diodes, operation and its characteristics.

CO 2

Analyze the diode as a rectifier, basic principle of filter circuits and its various types.

CO 3

Design and analyses the DC bias circuitry of BJT, FET,SCR & UJT

CO 4

Design biasing circuits using diodes and transistors.

CO 5

Describe  design of FET  applications circuits, amplifier circuits .

After completing this course, the student is able to

CO 1

Understand the knowledge on basic RLC circuits behavior

CO 2

Analyze the Steady state and transient analysis of RLC Circuits.

CO 3

Understand the characteristics of two port network parameters

CO 4

Analyze the transmission line -I parameters and configurations

CO 5

Analyze the transmission line- II parameters and configurations

After completing this course, the student is able to

CO 1

Understand the different types of number conversion, Booleanalgebra theorems.

CO 2

Design and Analyze small combinational circuits and to use standard combinational functions/building blocks to build larger more complex circuits.

CO 3

Analyze and Design the sequential circuits flip flops, Counters, shift Registers.

CO 4

Design and Execute synchronous and asynchronous sequential circuits.

CO 5

Understand about the logic families and realization of logic gates.

After completing this course, the student is able to

CO 1

Identification of various signal functions

CO 2

Illustrates any arbitrary signal in time and frequency domain

CO 3

Explains the characteristics of linear time invariant systems

CO 4

Analyze the signals with different transform technique

CO 5

Shows the sampling process and correlation of various signals

After completing this course, the student is able to

CO 1

Understand Differentiate various signal functions.

CO 2

Understand Represent any arbitrary signal in time and frequency domain.

CO 3

Understand the characteristics of linear time invariant systems.

CO 4

Understand the Laplace transforms, Z-transforms.

CO 5

Analyze the signals with different transform technique.

After completing this course, the student is able to

CO 1

Analyze the different types of diodes, operation and its characteristics.

CO 2

Understand the characteristics of  BJT,FET.

CO 3

Understand the characteristics of FET amplifiers, small signal parameters.

CO 4

Describe voltage references of clippers,clampers.

CO 5

Apply various devices to  real time problems.

After completing this course, the student is able to

CO 1

Design and realization logic gates using digital IC’s.

CO 2

Design the combinational circuits such as  4-bit adder/subtarctor,4 bit comparator,MUX using ICs.

CO 3

Design and implement sequential circuits such as shift registers, counters using flip-flops.

CO 4

Design and realization of  a 4-bit gray to binary and binary to gray converter.

CO 5

Design and realization of  a sequence detector a FSM.

After completing this course, the student is able to

CO 1

Design of various signal functions and its operations in MATLAB.

CO 2

Design any arbitrary signal in time and frequency domain.

CO 3

Able to determine the characteristics of linear time invariant systems with its realizations.

CO 4

Analyze the signals with different transform technique.

CO 5

Analyze the sampling process and correlation of various signals,

After completing this course, the student is able to

CO 1

Make use of Laplace Transform techniques to solve ODE’S

CO 2

Simplify the root of the equation and estimate the value for the given data using Interpolation.

CO 3

Develop Numerical solutions for the given ODE’s and evaluation of integrals using numerical techniques.

CO 4

Analyze the complex function, Analytic properties, CR equations, deriving the harmonic conjugate functions and elementary functions.

CO 5

Simplify Line integrals using Cauchy integral theorem, formula and residue theorem. Taylor’s and Laurent’s series expansions of complex Function

After completing this course, the student is able to

CO 1

Get the knowledge of Basic Laws, Concepts and proofs related to Electrostatic Fields andMagneto static Fields.

CO 2

Distinguish between the static and time-varying fields, establish the corresponding sets of Maxwell’s Equations and Boundary Conditions.

CO 3

Analyze the Wave Equations for good conductors, good dielectrics and evaluate the UPW Characteristics for several practical media of interest.

CO 4

Establish the proof and estimate the polarization features, reflection and transmission coefficients for UPW propagation,  distinguish   between   Brewster  and Critical Angles, and acquire knowledge of their applications.

CO 5

Analyze completely the rectangular waveguides, their mode characteristics, and design waveguides for solving practical problems.

After completing this course, the student is able to

CO 1

Analyze and design of various continuous wave amplitude modulation and demodulation.

CO 2

Understand the effect of noise present in continuous wave and angle modulation techniques.

CO 3

Apply attain in knowledge about AM, FM transmitter, receiver.

CO 4

Analyze various pulse modulation techniques.

CO 5

Understand the concept of  digital modulation techniques , baseband modulation.

After completing this course, the student is able to

CO 1

Analyze the basic operational amplifiers with linear integrated circuits.

CO 2

Understand the functional diagrams and applications of op-amp.

CO 3

Design active filters, oscillators.

CO 4

Attain the knowledge of functional diagrams and applications of IC 555 and IC 565.

CO 5

Demonstrate the different type’s data converters.

After completing this course, the student is able to

CO 1

Apply the knowledge of BJT to implement multistage amplifiers, high frequency response of Transistor.

CO 2

Analyze the different types of feedback amplifiers.

CO 3

Identify the Positive Feedback amplifiers to analyze the performance of Oscillator.

CO 4

Compare the need , performance of various power ,Tuned amplifiers.

CO 5

Analyze the multivibrators using transistor, features of sweep circuits. 

After completing this course, the student is able to

CO 1

Compare various modulation and demodulation techniques in Analog communications.

CO 2

Understand the operations of different types of detectors.

CO 3

Understand the operation of Multiplexing DE multiplexing techniques.

CO 4

Understand the basics of various pulse modulation and demodulation.

CO 5

Understand The Concepts Of PCM, DM, FSK, BPSK, DPSK, and QPSK.

After completing this course, the student is able to

CO 1

Understand the functionalities of Inverting and Non-inverting Amplifiers, Adder ,Subtractor ,Comparators using Op Amp.

CO 2

Design the integrated circuit, Schmitt Trigger Circuits using IC741.

CO 3

Understand and design IC741 waveform generators.

CO 4

Design multivibrators using IC555.

CO 5

Design Three Terminal Voltage Regulators –7805, 7809,7912.

After completing this course, the student is able to

CO 1

Design Amplifier circuits and simulation by using Multisim and testing done in hardware .

CO 2

Design Oscillator circuits simulation by using Multisim, testing done in hardware.

CO 3

Analyze feedback topology for amplifiers simulation by using Multisim, testing done in hardware.

CO 4

Analyze class A and B power amplifiers simulation by using Multisim, testing done in hardware

CO 5

Design the Hartley and Colpitts’s oscillator’s simulation by using Multisim, testing done in hardware.

After completing this course, the student is able to

CO 1

Interpret  the internal organization of popular 8086/8051 microprocessor/ Microcontrollers

CO 2

Analyze, specify, design, write and test assembly language programs of moderate complexity.

CO 3

Explain hardware & software interaction and integration

CO 4

Design electrical circuitry to the Micro controller  I/O ports in order to interface the Controller  to external device

CO 5

Effectively utilize microcontroller peripherals and implement a  microcontrollerbased embedded system

After completing this course, the student is able to

CO 1

Understand the basic concepts of networking and describing the layers of OSI and TCP/IP model

CO 2

Analyze the contents of data link layer based on the concepts of error control and flow control

CO 3

Demonstrate the mechanism of routing the data in network layer

CO 4

Identify the significance of various Flow control and Congestion control Mechanisms

CO 5

Explain the concepts of principles of networking application 

After completing this course, the student is able to

CO 1

Develop the mathematical model, transfer function of dynamic system.

CO 2

Analyze a closed loop system to satisfy steady state error specifications construction of Root-loci.

CO 3

Construct the frequency response analysis of Bode plot, polar plot, Nyquist stability.

CO 4

Compare the features of compensators, PID Controllers.

CO 5

Compare the features of compensators, PID Controllers.

After completing this course, the student is able to

CO 1

Examine the performance characteristics of every instrument and Explain the basic instruments such as voltmeters, ohmmeters and ammeters.

CO 2

Demonstrate about different types of signal analyzers and Signal Generator.

CO 3

Illustrate basic features of oscilloscope and special purpose  oscilloscopes

CO 4

Apply the complete knowledge of various electronics transducers to measure the physical quantities in the field of engineering and technology.

CO 5

Analyze the bridges for the measurement of inductance and resistance measurement.

After completing this course, the student is able to

CO 1

Design and implement programs on 8085 microprocessor.

CO 2

Design and implement programs on 8086 microprocessor.

CO 3

Design interfacing circuits with 8085.

CO 4

Design interfacing circuits with 8086.

CO 5

Design and implement 8051 microcontroller based systems

After completing this course, the student is able to

CO 1

Understand the basic idea of link between nodes and data transmission between nodes.

CO 2

Evaluate the performance of various LAN Topologies, RED QUEUE and Drop tail.

CO 3

Evaluate the performance of various TCP and UDP Protocols.

CO 4

Evaluate the performance of AODV and DSR, DSDV.

CO 5

Evaluate the performance of IEEE 802.11 and IEEE 802.15.4 and IEEE 802.11 and SMAC.

After completing this course, the student is able to

CO 1

Acquire vocabulary and use it to communicate to others.

CO 2

Understand and enhance their proficiency in Reading. 

CO 3

Apply relevant formats of writing paragraph, e-mail and letter writing ,resume  and report writing.

CO 4

Plan their ideas  to give oral presentations like seminars,ppt.

CO 5

Generate new ideas  in Group Discussions.

After completing this course, the student is able to

CO 1

Describe the Radiation pattern, Beam efficiency of an Antenna

CO 2

Describe array system of different antennas ,application of different currents to the individual antenna elements

CO 3

Understand antenna array, measurements ,errors

CO 4

Analyze  the characteristics of types of antenna …

CO 5

Understand the concept of Groundwave ,space wave , Sky wave propagation.

After completing this course, the student is able to

CO 1

Identification of various signal functions and multi rate signal processing

CO 2

Illustrates any arbitrary signal in time and frequency domain

CO 3

Understand the characteristics and design of IIR digital filters

CO 4

Analyze the signals with design of FIR digital filters using windowing techniques

CO 5

Shows the Realization of digital filters and finite word length effects

After completing this course, the student is able to

CO 1

Analysis the fabricating procedures of different MOS transistors and behavior electrical properties

CO 2

Extract the analog parasitic elements from the layout and analyze the circuit timing using a logic simulator and an analog simulator.

CO 3

Design elementary data paths for microprocessors, including moderate-speed adders, subractors, and multipliers.

CO 4

Understand the assemble an entire chip and add the appropriate pads to a layout

CO 5

Understand the concept of insert elementary testing hardware into the VLSI chip, to design front end and back end deign of VLSI systems

After completing this course, the student is able to

CO 1

Known the evolution of cellular and mobile communication system.

CO 2

understand Co-Channel and Non-Co-Channel interferences.

CO 3

Understand impairments due to multipath fading channel and how to overcome the different fading effects.

CO 4

Understand the concept of Familiar with cell coverage for signal and traffic, diversity, techniques, frequency management, Channel assignment and types of hand off.

CO 5

Understand the difference between cellular and Adhoc Networks and design goals of MAC

Layer protocol

After completing this course, the student is able to

CO 1

Apply significance of management in their profession

CO 2

Evaluate planning and problem solving decision in their profession.

CO 3

Analyze organization structure and human resource management process to manage Organization.

CO 4

Develop leadership and motivational skills to analyze organization behavior..

CO 5

Identify the areas to control and Selecting the Appropriate controlling methods/Techniques 

After completing this course, the student is able to

CO 1

Design of various signal functions.

CO 2

Implement and justify any arbitrary signal in time and frequency domains.

CO 3

Design the characteristics and of IIR digital filters.

CO 4

Analyze the signals with design of FIR digital filters using windowing techniques.

CO 5

Designs the Impulse responses of signals.

After completing this course, the student is able to

CO 1

Design and Realization logic gates implementation using HDL.

CO 2

Design and implement combinational circuits using HDL.

CO 3

Design and implement Sequential circuits using HDL.

CO 4

Design basic gates and observe the layout ,physical verification,timing,IR analysis and cross talk analysis .

CO 5

Design CMOS NAND/NOR and observe the layout ,physical verification,timing,IR analysis and cross talk analysis .

After completing this course, the student is able to

CO 1

Understand the difference between scripting language and other programming languages.

CO 2

Understand the scripting language programs.

CO 3

Acquire some fluency programming in Ruby.

CO 4

Attain gain some fluency programming in Perl.

CO 5

Attain gain some fluency programming in TCL.

After completing this course, the student is able to

CO 1

Understand The Power Generation At Microwave Frequencies And Derive The Performance Characteristics.

CO 2

Realize The Need For Solid State Microwave Sources And Understand The Principles Of Solid State Devices.

CO 3

Understand Between The Different Types Of Waveguide And Ferrite Components, And Select Proper Components For Engineering Applications

CO 4

Understand The Utility Of  S-Parameters In Microwave Component Design And Learn The Measurement Procedure Of Various Microwave Parameters

CO 5

Understand The Mechanism Of Light Propagation Through Optical Fibers.

After completing this course, the student is able to

CO 1

Examine Python syntax and semantics and be fluent in the use of Python flow control and functions.

CO 2

Demonstrate proficiency in handling Strings and File Systems.

CO 3

Create, run and manipulate Python Programs using core data structures like Lists, Dictionaries and use Regular Expressions.

CO 4

Interpret the concepts of Object-Oriented Programming as used in Python.

CO 5

Implement exemplary applications related to Network Programming, Web Services and Databases in Python.

After completing this course, the student is able to

CO 1

Analyze Relations Between Pixels And Utility Of 2-D Transforms In Image Processer.

CO 2

Understand The Enhancement Process On An Image.

CO 3

Understand The Segmentation And Restoration Processes On An Image.

CO 4

Implement The Various Morphological Operations On An Image.

CO 5

Understand The Need Of Compression And Evaluation Of Basic Compression Algorithms.

After completing this course, the student is able to

CO 1

Explain The Fundamentals Of DBMS Database Design And Normal Forms

CO 2

Analyze The Basics Of SQL For Retrieval And Management Of Data 

CO 3

Apply The Concept Of Functional Dependencies To Improve The Schemas Using Normal Forms.

CO 4

Explain The Basics Of Transaction Processing And Concurrency Control.

CO 5

Explain Database Storage Structures And Access Techniques

After completing this course, the student is able to

CO 1

Understanding Basic Purpose Of Profession, Professional Ethics And Various Moral And Social Issues 

CO 2

Applying Laws Of Contract Are  Explained, Contract Of Agency, Sale Of Goods Act & Contract Of Sale Are Presented.

CO 3

Analyzed Arbitration, Conciliation And ADR (Alternative Dispute Resolution) System

CO 4

Explained Engagement Of Labour And Labour & Other Construction-Related Laws, Role Of Labour In Civil Engineering.

CO 5

Understanding Laws Relating To Intellectual Property, Defining Intellectual Property, Copyright, Trademarks, Patents And Designs.

After completing this course, the student is able to

CO 1

Understand  The Performance Of  Reflex Klystron Characteristics ,Gunn Diode Characteristics Using Microwave Bench Setup

CO 2

Analyze Measurements Of Frequency, Attenuation, VSWR, Impedance Using Klystron Bench Setup.

CO 3

Understand The Characteristics Of Directional Coupler.

CO 4

Understand The Characterization Of LED, Laser Diode.

CO 5

Understand The Measurement Of Data Rate ,Numerical Aperture Of Digital Optical

Link

After completing this course, the student is able to

CO 1

Design identifies basic requirement for an application and process a effective solution.

CO 2

Build knowledge through practical assignments and learn the various design methods for solving problems.

CO 3

Develop skill to build design techniques for various problem analyses.

CO 4

Summarize the fundamental concepts and techniques used in mini project.

CO 5

Make up project enables the student to understand the business process. 

After completing this course, the student is able to

CO 1

Spell for basic concepts of science and technology.

CO 2

Contrast the understanding perceptive of techniques applicable to their domain.

CO 3

Construct the solutions upon their own knowledge.

CO 4

Improve their presentation and communication skills.

CO 5

Makeup them to pursue their placements and higher studies.

After completing this course, the student is able to

CO 1

Understand a detailed action plan for conducting in investigation, including team work.

CO 2

Understand the  detailed analysis/modeling/simulation/design/problem solving/experiment as needed.

CO 3

Develop a final product/process, perform testing ,arrive at results &conclusions and suggest future directions.

CO 4

Make a paper for conference presentation/publication, if possible.

CO 5

Make up project enables the student to understand the business process

After completing this course, the student is able to

CO 1

Derive the complete radar range equation.

CO 2

Understand the need and functioning of CW, FM-CW and MTI radars

CO 3

Estimate the efficiency of Doppler Signal in Radar Transceivers

CO 4

Develop the Known various Tracking methods

CO 5

Derive the matched filter response characteristics for radar receivers.

After completing this course, the student is able to

CO 1

This course explains machine learning techniques such as decision tree learning,

Bayesian learning etc

CO 2

To understand computational learning theory

CO 3

To study the pattern comparison techniques

CO 4

To understand the reinforcement learning

CO 5

To analyze the pattern recognition techniques

After completing this course, the student is able to

CO 1

Understand the need of Low power circuit design. 

CO 2

Attain the knowledge of architectural approaches

CO 3

Analyze and design Low-Voltage Low-Power combinational circuits

CO 4

Known the design of Low-Voltage Low-Power Memories

CO 5

Estimate the values of Low-Voltage Low-Power circuits

After completing this course, the student is able to

CO 1

Understand a detailed action plan for conducting in investigation, including team work.

CO 2

Understand the  detailed analysis/modeling/simulation/design/problem solving/experiment as needed.

CO 3

Develop a final product/process, perform testing ,arrive at results &conclusions and suggest future directions.

CO 4

Make a paper for conference presentation/publication, if possible.

CO 5

Make up project enables the student to understand the business process