Group A
CO1: Apply the properties of laser in various applications like material working and holography.
CO2:Correlate the principles in quantum mechanics with applications like dynamics of electrons and
quantum computing.
CO3: Estimate electric load for fixing solar PV systems for the domestic application.
CO4: Compare the use of normal conductor and Superconductor for SQUID and MAGLEV Train.
CO5: Select optic fibre for intended communication system.
Group B
CO1: Apply the properties of laser in various applications like material working and holography.
CO2 :Correlate the principles in quantum mechanics with applications like dynamics of electrons and
quantum computing.
CO3: Estimate electric load for fixing solar PV systems for the domestic application.
CO4: Compare the use of normal conductor and Superconductor for SQUID and MAGLEV Train.
CO5: Analyse the properties of nanomaterials based on characterization technique.
Group C
CO1: Apply the properties of laser in various applications like material working and holography.
CO2: Correlate the principles in quantum mechanics with applications like dynamics of electrons and
quantum computing.
CO3: Estimate electric load for fixing solar PV systems for the domestic application.
CO4: Analyze acoustical aspects of auditorium.
CO5: Evaluate disorders in the material by using NDT for testing of various materials.
Group A
CO1: Apply the different methodologies for analysis of water and techniques involved in softening of
water as commodity.
CO2: Identify the causes of corrosion and methods for minimizing corrosion
CO3: Relate fuel and suggest use of alternative fuels for minimizing emission of carbon.
CO4: Demonstrate the knowledge of advanced engineering materials for various engineering
applications
CO5: Implement the green chemistry principles, and properties and application of smart sensors
materials to meet the technological challenges.
Group B
CO1: Apply the different methodologies for analysis of water and techniques involved in softening of
water as commodity.
CO2: Identify the causes of corrosion and methods for minimizing corrosion
CO3: Relate fuel and suggest use of alternative fuels for minimizing emission of carbon.
CO4: Demonstrate the knowledge of advanced engineering materials for various engineering
applications
CO5 : Select appropriate electro techniques and methods of material analysis.
Group C
CO1:Apply the different methodologies for analysis of water and techniques involved in softening of
water as commodity.
CO2: Identify the causes of corrosion and methods for minimizing corrosion
CO3: Relate fuel and suggest use of alternative fuels for minimizing emission of carbon.
CO4: Demonstrate the knowledge of advanced engineering materials for various engineering
applications
CO5: Appreciate the knowledge of properties of surfactants and lubricants.
Group A
CO1: Apply the essential tool of matrices and linear algebra in a comprehensive manner for
analysis of systems of linear equations applicable to engineering problems.
CO2: Apply the essential tool of matrices and linear algebra in a comprehensive manner for
finding linear and orthogonal transformations, Eigenvalues and Eigenvectors applicable
to engineering problems.
CO3: Implement Mean value theorems, expansions of function using Taylor's and Maclaurin’s
series useful in the analysis of engineering Problems.
CO4: Apply the concept partial derivatives to find Jacobian used for functional dependence &
estimating error and approximation
CO5:Solve Algebraic and Transcendental equation & System of linear Equations Using
numerical techniques.
Group B
CO1: Apply the essential tool of matrices and linear algebra in a comprehensive manner for
analysis of systems of linear equations applicable to engineering problems.
CO2: Apply the essential tool of matrices and linear algebra in a comprehensive manner for
Evaluate linear and orthogonal transformations, Eigenvalues and Eigenvectors
CO3: Implement Mean value theorems, expansions of function using Taylor's and Maclaurin’s
series useful in the analysis of engineering.
CO4: Calculate the derivative of functions of several variables that are essential in various
branches of Engineering.
CO5:Examine the Fourier series representation and harmonic analysis for design and analysis
of periodic continuous and discrete systems.
Group C
CO1: Apply the essential tool of matrices and linear algebra in a comprehensive manner for analysis of
systems of linear equations applicable to engineering problems.
CO2: Apply the essential tool of matrices and linear algebra in a comprehensive manner to evaluate
linear and orthogonal transformations, Eigenvalues and Eigenvectors
CO3: Implement Mean value theorems, expansions of function using Taylor's and Maclaurin’s series
useful in the analysis of engineering.
CO4: Apply the concept partial derivatives to find Jacobian used for functional dependence &
estimating error and approximation
CO5: Apply basics of complex numbers to calculate roots and logarithms and its applications
Group A
CO1: Apply the effective mathematical tools to solve first order differential equations to model physical
processes such as Newton’s law of cooling, electrical circuit etc
CO2 :Use advanced integration techniques such as Reduction formulae, Beta functions, Gamma
functions, Differentiation under integral sign needed in evaluating multiple integrals and their
applications.
CO3: Draw the Cartesian, Polar, Parametric & Rose curve for a given equation.
CO4: Evaluate multiple integrals and its application to find area bounded by curves, volume bounded
by surfaces.
CO5: Solve differential equations of first order and Integration using different numerical methods
used in modern scientific computing.
Group B
CO1: Apply the effective mathematical tools to solve first order differential equations to model physical
processes such as Newton’s law of cooling, electrical circuit etc
CO2: Use advanced integration techniques such as Reduction formulae, Beta functions, Gamma
functions, Differentiation under integral sign needed in evaluating multiple integrals and their
applications.
CO3: Draw the Cartesian, Polar, Parametric & Rose curve.
CO4: Use the concepts of solid geometry using equations of sphere, cone and cylinder in a
comprehensive manner
CO5: Evaluate multiple integrals and its application to find area bounded by curves, volume bounded
by surfaces
Group C
CO1: Apply the effective mathematical tools to solve first order differential equations to model physical
processes such as Newton’s law of cooling, electrical circuit etc
CO2: Use advanced integration techniques such as Reduction formulae, Beta functions, Gamma
functions, Differentiation under integral sign needed in evaluating multiple integrals and their
applications.
CO3: Draw the Cartesian, Polar, Parametric & Rose curve.
CO4: Find the Fourier series representation and harmonic analysis for design and analysis of periodic
continuous and discrete systems
CO5: Evaluate multiple integrals and its application to find area bounded by curves, volume bounded
by surfaces
Group I & II
CO1: Understand the basic concept of force, moment & couple to determine resultant of
various force systems.
CO2: Apply conditions of Static equilibrium to free body diagram to solve engineering problem
CO3 : Analyze and solve engineering problems involving friction, centroids and moments of
inertia
CO4: Analyze rectilinear and curvilinear motion of particle
CO5: Apply Newton’s second law, work energy and impulse momentum principles for particles
Electrical and Electronics Engineering (SEM-I/SEM-II)
CO1: Apply KVL, KCL and different network theorems under DC supply for simplification of D.C.
networks.
CO2: Analyze pure R, L, C Series R-L, R-C, and R-L-C circuit for voltage, current, impedance and power
with a.c supply along with phasor diagram.
CO3: Analyze Diode circuits for Rectifier and DC Power supply.
CO4: Apply the knowledge of Transistors as a amplifier, switch and logic gates for adder circuits
CO5: Apply different tariffs to calculate electricity bills for Residential and Commercial Load.
CO1: Explain the fundamentals of engineering graphics and basic principles of geometric construction
CO2: Use the principles of drawing to draw projection of plane
CO3: Apply the concept of orthographic projection of an object to draw several 2D views and its
sectional views for visualizing the physical state of the object.
CO4: Apply the visualization skill to draw a simple isometric projection from given
orthographic views
CO5: Draw Fully Dimensioned 2D, 3D drawings using computer aided drafting tools.
CO1: Use the program design tools like Algorithm, Pseudocode and Flowchart and basic concepts of C++
programming to write clean and efficient code for large applications.
CO2: Demonstrate the conditional Statements like if statement, if-else statement, if else-if ladder,
Nested if statement and switch case statement for decision making.
CO3: Apply looping statements and Design C++ programs using arrays to implement the data
structures.
CO4: Implement C++ programs using string operations and built in string functions for data
manipulation.
CO5: Develop C++ programs using user defined and built in functions to implement the Abstraction
in object oriented programming.
CO1:Handle techniques for various tools and equipment commonly used in workshops are essential to
reduce the risk of accidents and injuries during operation
CO2 :Describe Centre Lathe, Drilling, Grinding, Milling, CNC, Refrigeration and Air Conditioning.
CO3: Assembly of Two-Wheeler, Sheet Metal Job, Fitting Job and PC/Laptop for different input values.
CO4: Creation of engaging presentations using MS PowerPoint, including slide design, multimedia
integration, and delivery techniques.
CO1: Gain hands-on experience in using various engineering tools, equipment, and techniques relevant
to their field of study or profession
CO2: Analyze plumbing problems, identify potential solutions, and implement effective problemsolving strategies.
CO3: Assemble Wood Working Job, Mobile Phone, LCD/LED TV, Domestic Electric Wiring, Soldering,
Welding.
CO4: Understand report and procedures followed for a given task related To MATLAB Tool
CO1: Demonstrate linguistic fluency in foreign or native languages through studying the cultural and
historical contexts related to their chosen discipline, understanding its evolution, traditions, and
the role it plays within various cultural settings and narratives.
CO2: Demonstrate enhanced ability to creatively express themselves and effectively communicate
ideas, emotions, and, or by creating innovative and artistic art pieces.
CO3:Express creativity and individuality through their work, whether through artistic creations,
musical performances, or athletic activities, and present and perform their skills confidently in
various settings.
CO1: Analyze and evaluate spoken information critically for understanding the context and credibility
of the source.
CO2: Demonstrate effective interpersonal communication skills for harmonious and productive
interactions.
CO3: Articulate strategies for clear and coherent writing skills for personal & professional
communication needs.
CO4: Develop skills for effective and authentic non-verbal communication to ace the professional
communication needs.
CO1: Explain Indian Science, Engineering and Technology
CO2: Demonstrate Concepts of Vedic Mathematics, Astronomy and Agriculture
CO3: Collect Literature of Indian Town Planning, Architecture, Music, Dance
CO4: Discover Ayurveda for Health, Wellness, Psychology and Spirituality
Python for Data Science
CO1: Demonstrate proficiency in basic Python syntax, data types, and control structures.
CO2: Use and manipulate python data structures, functions, packages and modules.
CO3: Analyze the structure and components of a Python package and understand
the module search path.
CO4: Understand the fundamentals of data science and its applications.
CO5: Create informative data manipulation for visualization using python libraries.
Basics of Civil Engineering
CO1:Describe the importance of various branches and interdisciplinary approach in Civil Engineering
for enormous understanding
CO2: Identify and utilize construction materials, concrete types, and sustainable practices for effective
building construction.
CO3: Identify and describe the various types of foundations and superstructures
CO4: Discuss the importance of surveying, leveling to understand topography
CO5: Interpret the application of various construction equipment and automation technologies in the
building process.
Object Oriented Programming, with C++
CO1: Understand and apply basic object-oriented concepts to provide solution for simple system.
CO2: Design and implement program to demonstrate use of Inheritance in real time systems.
CO3: Develop an application using polymorphism for solving any complex problem.
CO4: Understand and use Pointer concept to implement Run Time Polymorphism
CO5: Apply file handling concept for creating software applications.
Semiconductor Devices and Sensor
CO1:Select rectifier diode for design of DC power supply, LED and Photodiode for Opto-coupler circuits
in counting applications.
CO2: Relate BJT, JFET and MOSFET for amplification and switching action for street light control circuit.
CO3:Design combinational circuits like MUX, De-MUX, Encoder, Decoder and sequential logic circuits
like mod N counter.
CO4:Analyze proximity sensors for touch switches in consumer electronics, RTD for food processing
unit and load cell for electronics weighing machine
Fundamentals of Java Programming
CO1: Apply the fundamental concepts of Java programming language including variables, data types,
control structures, and methods.
CO2: Use the concepts of classes, objects, members of a class and the relationships among
them to write a code for finding the solution to specific problems.
CO3: Demonstrate how to extend java classes and achieve reusability using Inheritance and
Interfaces.
CO4: Apply the concepts of Exception handling to develop efficient and error free codes.
CO5: Construct robust and faster programmed solutions to problems using concept of Multithreading.
Measurements in Instrumentation
CO1:Analyze static and dynamic characteristics of measurement instruments like voltmeters and
ammeters for analyzing loading effect.
CO2: Measure resistance, capacitance, and inductance of electrical circuits for signal analysis.
CO3:Analyze measurements like voltage, current, frequency, phase of electrical circuits using cathode
ray oscilloscope for signal conditioning requirements.
CO4: Use electronic instruments for analog and digital measurements for sensor signal conditioning.
Basic Mechanical Engineering
CO1: Apply basic laws of thermodynamics, heat transfer for day-to-day life applications.
CO2: Illustrate various basic parts and transmission system of a road vehicle
CO3: Discuss several manufacturing processes and identify the suitable process for various industrial
applications
CO4: Interpret various types of mechanisms and its applications for household usage.
Elements of Mechanical Engineering
CO1:Analyze and solve problems related to fluid properties, statics, and dynamics in engineering
contexts.
CO2: Understand the structure, components, and economic aspects of electric vehicles.
CO3: Describe various manufacturing processes and identify associated safety measures and defects.
CO4: Demonstrate rapid prototype techniques and their applications in modern manufacturing.
Merit list will be displayed on 11 September 2024 at 2:30 pm.
Grievances will be accepted between 2:30 pm to 4:30 pm.
Final merit list will be displayed at 5:30 pm.