Course Outcome
2019 Scheme
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MAT 101 LINEAR ALGEBRA AND CALCULUS |
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|---|---|---|
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Sl.No: |
Course Outcomes |
Level |
|
CO1 |
Solve systems of linear equations, diagonalizable matrices and characterize quadratic forms |
L3 |
|
CO2 |
Compute the partial and total derivatives and maxima and minima of multivariable functions |
L2 |
|
CO3 |
Compute multiple integrals and apply them to find areas and volumes of geometrical shapes, mass and center of gravity of plane laminas |
L2 |
|
CO4 |
Perform various tests to determine whether a given series is convergent, absolutely convergent or conditionally convergent |
L3 |
|
CO5 |
Determine the Taylor and Fourier series expansion of functions and learn their applications. |
L2 |
|
MAT 102 VECTOR CALCULUS, DIFFERENTIAL EQUATIONS AND TRANSFORMS |
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|---|---|---|
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Sl. No: |
Course Outcomes |
Level |
|
CO1 |
Compute the derivatives and line integrals of vector functions and learn their applications |
L2 |
|
CO2 |
Evaluate surface and volume integrals and learn their inter-relations and applications. |
L2 |
|
CO3 |
Solve homogeneous and non-homogeneous linear differential equation with constant coefficients |
L3 |
|
CO4 |
Compute Laplace transform and apply them to solve ODEs arising in engineering |
L2 |
|
CO5 |
Determine the Fourier transforms of functions and apply them to solve problems arising in engineering |
L2 |
|
MAT201 PARTIAL DIFFERENTIAL EQUATIONS AND COMPLEX ANALYSIS |
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|---|---|---|
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Sl. No: |
Course Outcomes |
Level |
|
CO 1 |
Understand the concept and the solution of partial differential equation. |
L2 |
|
CO2 |
Analyze and solve one dimensional wave equation and heat equation. |
L3 |
|
CO3 |
Understand complex functions, its continuity differentiability with the use of Cauchy Riemann equations. |
L2 |
|
CO4 |
Evaluate complex integrals using Cauchy’s integral theorem and Cauchy’s integral formula, understand the series expansion of analytic function |
L3 |
|
CO5 |
Understand the series expansion of complex function about a singularity and Apply residue theorem to compute several kinds of real integrals. |
L2 |
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MAT203 – DISCRETE MATHEMATICAL STRUCTURES (CS,IT,EL) |
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|---|---|---|
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Sl. No: |
Course Outcomes |
Level |
|
CO 1 |
Learn the fundamentals of enumeration or countingtechniques and methods of arrangements and derangements. |
L2 |
|
CO 2 |
Learn the fundamentals of propositional logic and predicate calculus and apply to test the validity of statements |
L3 |
|
CO 3 |
Learn the ideas of relations, functions equivalence relation and posets and it’s applications |
L2 |
|
CO4 |
Understand recurrence relation and apply the method of solving different type of recurrence relations using generating functions |
L3 |
|
CO5 |
Understand Fundamentals of Algebraic structures its properties such as monoids and groups |
L2 |
|
MAT202 PROBABILITY, STATISTICS AND NUMERICAL METHODS |
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|---|---|---|
|
Sl. No. |
Course Outcomes |
Level |
|
CO1 |
Understand the concept, properties and important models of discrete random variables and, using them, analyze suitable random phenomena. |
L2 |
|
CO2 |
Understand the concept, properties and important models of continuous random variables and, using them, analyze suitable random phenomena. |
L2 |
|
CO3 |
Perform statistical inferences concerning characteristics of a population based on attributes of samples drawn from the population |
L3 |
|
CO4 |
Compute roots of equations, evaluate definite integrals and perform interpolation on given numerical data using standard numerical techniques |
L2 |
|
CO5 |
Apply standard numerical techniques for solving systems of equations, fitting curves on given numerical data and solving ordinary differential equations. |
L3 |
|
MAT206- GRAPH THEORY(CS) |
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|---|---|---|
|
Sl. No: |
Course Outcomes |
Level |
|
CO1 |
Explain vertices and their properties, types of paths, classification of graphs and trees & their properties. |
L2 |
|
CO2 |
Demonstrate the fundamental theorems on Eulerian and Hamiltonian graphs. |
L2 |
|
CO3 |
Illustrate the working of Prim’s and Kruskal’s algorithms for finding minimum cost spanning tree and Dijkstra’s and Floyd-Warshall algorithms for finding shortest paths. |
L3 |
|
CO4 |
Explain planar graphs, their properties and an application for planar graphs. |
L3 |
|
CO5 |
Explain the Vertex Color problem in graphs and illustrate an example application for vertex coloring. |
L3 |
|
MAT204- PROBABILITY DISTRIBUTIONS, RANDOM PROCESS AND NUMERICAL METHODS (EC, EL and EE) |
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|---|---|---|
|
Sl. No: |
Course Outcomes |
Level |
|
CO1 |
Understand the concept, properties and important models of discrete random variables, and using them analyze suitable random phenomena |
L2 |
|
CO2 |
Understand the concept, properties and important models of continuous random variables, and using them analyze suitable random phenomena. |
L2 |
|
CO3 |
Analyze random processes using autocorrelation, power spectrum and Poisson process model as appropriate |
L3 |
|
CO4 |
Compute roots of equations, evaluate definite integrals and perform interpolation on given numerical data using standard numerical techniques |
L3 |
|
CO5 |
Apply standard numerical techniques for solving systems of equations, fitting curves on given numerical data and solving ordinary differential equations |
L3 |
|
MAT208- PROBABILITY, STATISTICS AND ADVANCED GRAPH THEORY(IT) |
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|---|---|---|
|
Sl. No: |
Course Outcomes |
Level |
|
CO1 |
Understand the concept, properties and important models of discrete random variables and, using them, analyse suitable random phenomena |
L2 |
|
CO2 |
Understand the concept, properties and important models of continuous random variables and, using them, analyse suitable random phenomena |
L2 |
|
CO3 |
Perform statistical inferences concerning characteristics of a population based on attributes of samples drawn from the population |
L3 |
|
CO4 |
Understand the basic concept in Graph theory, Understand planar graphs and it’s properties. Demonstrate the knowledge of fundamental concepts of matrix representation of graphs, Apply fundamental theorems on Eularian graphs and Hamiltonian graphs. |
L2 |
|
CO5 |
Understand the basic concept in Trees,coloring of graphs. Apply coloring of graphs, Apply algorithm to find the minimum spanning tree |
L2 |
2015 Scheme
|
MA101 LINEAR ALGEBRA AND CALCULUS |
||
|
Sl. No. |
Course Outcomes |
Level |
|
CO1 |
Solve systems of linear equations, diagonalize matrices and characterize quadratic forms |
L3 |
|
CO2 |
Determine the partial and total derivatives and maxima and minima of multivariable functions. |
L2 |
|
CO3 |
Apply multiple integrals to find areas, volumes of geometrical shapes, mass and centre of gravity of plane laminas. |
L3 |
|
CO4 |
Determine whether a given series is convergent. |
L2 |
|
CO5 |
Determine the Taylor and Fourier series expansion of functions. |
L2 |
|
MA102 VECTOR CALCULUS, DIFFERENTIAL EQUATIONS AND TRANSFORMS |
||
|
Sl. No. |
Course Outcomes |
Level |
|
CO1 |
Apply the concept of vector functions to work with conservative vector field. |
L3 |
|
CO2 |
Apply computing integrals of scalar and vector field over surfaces in 3 dimensional space. |
L3 |
|
CO3 |
Solve homogeneous and non-homogeneous linear differential equation with constant coefficients. |
L3 |
|
CO4 |
Apply Laplace transforms in various Engineering problems. |
L3 |
|
CO5 |
Apply Fourier transforms in various engineering problems. |
L3 |
|
MA 201 COMPLEX ANALYSIS AND LINEAR ALGEBRA |
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|
Sl. No. |
Course Outcomes |
Level |
|
CO1 |
Determine the properties of a given function and transformation |
L2 |
|
CO2 |
Solve contour integrals |
L3 |
|
CO3 |
Express the given function as power series |
L2 |
|
CO4 |
Solve real definite integrals using residue theorem |
L3 |
|
CO5 |
Solve a system of equations using Linear Algebra |
L3 |
|
MA 202 PROBABILITY DISTRIBUTIONS, TRANSFORMS AND NUMERICAL METHODS |
||
|
Si.No |
Course outcomes |
Level |
|
CO1 |
Explain different types of probability distributions to characterize the population. |
L2 |
|
CO2 |
Solve integrals and differential equations using Laplace transforms. |
L3 |
|
CO3 |
Express the given function as Fourier integrals. |
L2 |
|
CO4 |
Solve differential equations using numerical methods |
L3 |
|
CO5 |
Solve integrals using numerical methods |
L3 |