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R20 Regulation Course Outcomes

 

ENGLISH

CO1

Understand Social Or Transactional Dialogues Spoken By Native Speakers Of English And Identify The Context, Topic, And Pieces Of Specific Information

CO2

Ask And Answer General Questions On Familiar Topics And Introduce Oneself/Others

CO3

Employ Suitable Strategies For Skimming And Scanning To Get The General Idea Of A Text And Locate Specific Information

CO4

Recognize Paragraph Structure And Be Able To Match Beginnings/Endings/Headings With Paragraphs

CO5

Form Sentences Using Proper Grammatical Structures And Correct Word Forms

 

MATHEMATICS-I

CO1

Utilize Mean Value Theorems To Real Life Problems

CO2

Solve The Differential Equations Related To Various Engineering Fields

CO3

Familiarize With Functions Of Several Variables Which Is Useful In Optimization

CO4

Apply Double Integration Techniques In Evaluating Areas Bounded By Region

CO5

Students Will Also Learn Important Tools Of Calculus In Higher Dimensions. Students Will  Become Familiar With 2- Dimensional And 3-Dimensional Coordinate Systems

 

MATHEMATICS –II

CO1

Develop The Use Of Matrix Algebra Techniques That Is Needed By Engineers For Practical Applications (L6)

CO2

Solve System Of Linear Algebraic Equations Using Gauss Elimination, Gauss Jordan, Gauss Seidel, Evaluate The Approximate Roots Of Polynomial And Transcendental Equations By Different Algorithms

CO3

Apply Newton’s Forward & Backward Interpolation And Lagrange’s Formulae For Equal And Unequal Intervals

CO4

Apply Numerical Integral Techniques To Different Engineering Problems

CO5

Apply Different Algorithms For Approximating The Solutions Of Ordinary Differential Equations With Initial Conditions To Its Analytical Computations

 

MATHEMATICS-III

CO1

Interpret The Physical Meaning Of Different Operators Such As Gradient, Curl And Divergence

CO2

Estimate The Work Done Against A Field, Circulation And Flux Using Vector Calculus

CO3

Apply The Laplace Transform For Solving Differential Equations

CO4

Find Or Compute The Fourier Series Of Periodic Signals

CO5

Know And Be Able To Apply Integral Expressions For The Forwards And Inverse Fourier Transform To A Range Of Non-Periodic Waveforms Identify Solution Methods For Partial Differential Equations That Model Physical Processes

 

 

ENGINEERING PHYSICS

CO1

Explain The Need Of Coherent Sources And The Conditions For Sustained Interference. Identify Applications Of Interference In Engineering. Analyze The Differences Between Interference And Diffraction With Applications. Illustrate The Concept Of Polarization Of Light And Its Applications. Classify Ordinary Polarized Light And Extraordinary Polarized Light The Different Realms Of Physics And Their Applications In Both Scientific And Technological Systems Are Achieved Through The Study Of Wave Optics.

CO2

Explain Various Types Of Emission Of Radiation. Identify Lasers As Tools In Engineering Applications. Describe The Construction And Working Principles Of Various Types Of Lasers. Explain The Working Principle Of Optical Fibers. Classify The Optical Fibers Based On Refractive Index Profiles And Modes Of Propagation. Identify The Applications Of Optical Fibers In Medical, Communication And Other Fields. Apply The Fiber Optic Concepts In Various Fields.

CO3

Explain The Concept Of Dielectric Constant And Polarization In Dielectric Materials. Summarize Various Types Of Polarization Of Dielectrics. Interpret Lorentz Field And Claussius- Mosotti Relation In Dielectrics. Classify The Magnetic Materials Based On Susceptibility And Their Temperature Dependence. Explain The Applications Of Dielectric And Magnetic Materials. Apply The Concept Of Magnetism To Magnetic Devices.

CO4

Explain Sound Waves And Its Propagation/Absorption Of Construction Material Used In Design Of Buildings. Analyze Acoustic Parameters Of Typical Materials Used In Buildings. Recognize Sound Level Disruptors And Their Application In Architectural Acoustics. Identify The Use Of Ultrasonic’s In Diversified Fields Of Engineering

CO5

Interpret Various Crystal Systems And Analyze The Characterization Of Materials By XRD. Identify The Important Properties Of Crystals Like The Presence Of Long-Range Order And Periodicity, Structure Determination Using X-Ray Diffraction Technique. Analysis Of Structure Of The Crystals By Laue And Powder Techniques

 

 

 

 

 

 

 

 

 

 

 

 

APPLIED PHYSICS

 

CO1

Explain The Need Of Coherent Sources And The Conditions For Sustained Interference. Identify Engineering Applications Of Interference. Analyze The Differences Between Interference And Diffraction With Applications. Illustrate The Concept Of Polarization Of Light And Its Applications. Classify Ordinary Polarized Light And Extraordinary Polarized Light

CO2

Understand The Basic Concepts Of LASER Light Sources. Apply The Concepts To Learn The Types Of Lasers. Identifies The Engineering Applications Of Lasers. Explain The Working Principle Of Optical Fibers. Classify Optical Fibers Based On Refractive Index Profile And Mode Of Propagation. Identify The Applications Of Optical Fibers In Various Fields.

CO3

Explain The Concept Of Dual Nature Of Matter. Understand The Significance Of Wave Function. Interpret The Concepts Of Classical And Quantum Free Electron Theories. Explain The Importance Of K-P Model

Classify The Materials Based On Band Theory. Apply The Concept Of Effective Mass Of Electron.

Explain The Concept Of Dielectric Constant And Polarization In Dielectric Materials. Summarize Various Types Of Polarization Of Dielectrics. Interpret Lorentz Field And Claussius- Mosotti Relation In dielectrics

CO4

Classify the magnetic materials based on susceptibility and their temperatures dependence explain the applications of the dielectric and magnetic materials apply the concept of magnetism to magnetic data storage

CO5

Classify The Energy Bands Of Semiconductors. Interpret The Direct And Indirect Band Gap Semiconductors. Identify The Type Of Semiconductor Using Hall Effect. Identify Applications Of Semiconductors In Electronic Devices. Classify Superconductors Based On Meissner’s Effect. Explain Meissner’s Effect, BCS Theory & Josephson Effect In Superconductors

 

 

 

ENGINEERING CHEMISTRY

CO1

Analyze The Different Types Of Composite Plastic Materials And Interpret The Mechanism Of Conduction In Conducting Polymers.

CO2

Utilize The Theory Of Construction Of Electrodes, Batteries And Fuel Cells In Redesigning New Engineering Products And Categorize The Reasons For Corrosion And Study Methods To Control Corrosion.

CO3

Synthesize Nonmaterial’s For Modern Advances Of Engineering Technology.

CO4

Summarize The Techniques That Detect And Measure Changes Of State Of Reaction.

CO5

Illustrate The Commonly Used Industrial Materials.

 

 

 

 

APPLIED CHEMISTRY

 

CO1

Importance Of Usage Of Plastics In Household Appliances And Composites (FRP) In Aerospace And Automotive Industries.

CO2

Outline The Basics For The Construction Of Electrochemical Cells, Batteries And Fuel Cells. Understand The Mechanism Of Corrosion And How It Can Be Prevented.

CO3

Explain The Preparation Of Semiconductors And Nanomaterials, Engineering Applications Of Nanomaterials, Superconductors And Liquid Crystals.

CO4

Recall The Increase In Demand For Power And Hence Alternative Sources Of Power Are Studied Due To Depleting Sources Of Fossil Fuels. Advanced Instrumental Techniques Are Introduced.

CO5

Outline The Basics Of Computational Chemistry And Molecular Switches

 

 

ENGLISH COMMUNCATION SKILLS LAB

CO1

 

A Study Of The Communicative Items In The Laboratory Will Help The Students Become Successful In The Competitive World

 

APPLIED / ENGINEERING PHYSICS LAB

CO1

Physics Lab Curriculum Gives Fundamental Understanding Of Design Of An Instrument With Targeted Accuracy For Physical Measurements

 

APPLIED / ENGINEERING CHEMISTRY LAB

 

CO1

The Students Entering Into The Professional Course Have Practically Very Little Exposure To Lab Classes. The Experiments Introduce Volumetric Analysis; Redox Titrations With Different Indicators; EDTA Titrations; Then They Are Exposed To A Few Instrumental Methods Of Chemical Analysis. Thus At The End Of The Lab Course, The Student Is Exposed To Different Methods Of Chemical Analysis And Use Of Some Commonly Employed Instruments. They Thus Acquire Some Experimental Skills.

 

 

ENVIRONMENTAL SCIENCE

CO1

Overall Understanding Of The Natural Resources.

CO2

Basic Understanding Of The Ecosystem And Its Diversity.

CO3

Acquaintance On Various Environmental Challenges Induced Due To Unplanned Anthropogenic Activities.

CO4

An Understanding Of The Environmental Impact Of Developmental Activities.

CO5

Awareness On The Social Issues, Environmental Legislation And Global Treaties