1
B.V.V. Sangha’s
Basaveshwar Science College, Bagalkot
B.Sc. Course Outcome
A course outcome describes what a faculty member will cover in a course. It is a description of
what a student must be able to do at the conclusion of a course. Course outcomes are clear and
concise statements.
Department of Chemistry Course Outcomes
Department : Chemistry
Semester : B.Sc. I
Subject Name & Code : CHEMISTRY & 14BSCCHET11
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand the following concepts
CO1. Structure of the Atom.
CO2. Factors affecting the formation different types of chemical bonds.
CO3. Properties of compounds.
CO4. Errors in Quantitative analysis.
CO5. Precipitation and iodometric titrations.
CO6. General principle of Chromatography.
CO7. Geometrical isomerism and Optical isomerism.
CO8. Principle of UV spectroscopy and Types of transition.
CO9. Relationship between critical constants and Vanderwaals constants.
CO10. Henry’s law.
CO11. Types of salts and degree of hydrolysis and State Nernst distribution law.
Department : Chemistry
Semester : B.Sc. II
Subject Name and Code : CHEMISTRY & 14BSCCHET21
-------------------------------------------------------------------------------------------------------------------------------
Students are able to comprehend the following concepts
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CO1. Salient features of hybridization.
CO2. Bond order for H2, He2, Li2, B2, N2, O2, O2+, O2
- and O2-2 molecules.
CO3. Advantages of organic reagents over inorganic reagents.
CO4. Chemical reactions of alkenes.
CO5. Aromaticity in benzene, furan, pyridine and [10]-annulene.
CO6. Conversion of Naphthalene to 1, 4-naphthaquinone.
CO7. Laws of thermodynamics.
CO8. Bond energy and bond dissociation energies for simple molecules.
CO9. Effect of temperature on surface tension.
CO10. Applications of Liquid crystals.
CO11. Applications of colloids.
CO12. Derivation of Brag's equation.
Department : Chemistry
Semester : B.Sc. III
Subject Name and Code : CHEMISTRY & 14BSCCHET31
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Students are able to comprehend the following concepts:
CO1. Thermodynamic concepts of selection of reducing agents using Ellingham diagram.
CO2. Production of tungsten powder from wolframite.
CO3. Water as universal solvent and leveling effect.
CO4. Classification of acids & bases.
CO5. Orientation of substituent in aromatic compound with functional groups like –OH.
CO6. Halogenation and nitration reactions.
CO7. Difference between primary, secondary and tertiary alcohols by Lucas reagent.
CO8. Applications of Dettol.
CO9. Principle of Infrared spectroscopy.
CO10. Preparation of Lithium dialkylcuprate.
CO11. Molecular weight determination by Berkely and Hartley method and Carnot’s
cycle.
3
Department : Chemistry
Semester : B.Sc. IV
Subject Name & Code : CHEMISTRY & 14BSCCHET41
-------------------------------------------------------------------------------------------------------------------------------
Students are able to comprehend the following concepts
CO1. Electronic configuration of d block elements.
CO2. Biological role of K, Fe & Zn.
CO3. Definition of BOD and the treatment of sewage and industrial effluents
CO4. Different compounds like Aldehydes & ketones.
CO5. Aldol condensation reaction.
CO6. Description of the acid strengths of mono, di and t richloroacetic acids.
CO7. Mechanism of Hoffmann rearrangement.
CO8. Uses of crown ethers as phase transfer catalysts.
CO9. Transport number and its determination by Hittorff’s method.
CO10. Derivation of the rate constant equation of second order reaction when
concentration of the reactions are equal(a=b).
CO11. Comparison between transition state theory and collision theory.
Department : Chemistry
Semester : B.Sc. V
Subject Name & Code : CHEMISTRY P-I & 14BSCCHET51
-------------------------------------------------------------------------------------------------------------------------------
Students are able to comprehend the following concepts
CO1. Limitations of Valence bond theory.
CO2. Conditions for precipitation.
CO3. Applications of phosphonitrilic halides.
CO4. Description of the 12 principles of green chemistry.
CO5. Comparison of basicity between pyridine, piperidine and pyrrole.
CO6. Mechanism of keto-enol tautomerism.
CO7. Classification of alkaloids .
4
CO8. Energy level diagram of diatomic molecules.
CO9. Vibrational degrees of freedom of molecules.
CO10. Description of the qualitative relation between force constant and bond
dissociation energy.
Department : Chemistry
Semester : B.Sc. V
Subject Name & Code : CHEMISTRY P-II & 14BSCCHET52
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn & understand the following concepts
CO1. Classification and applications of alloys.
CO2. Manufacture of white lead.
CO3. Mechanism of OsO4.
CO4. Principle of Mass Spectroscopy.
CO5. Classification of dyes.
CO6. BET equation.
CO7. Industrial applications of catalysis.
CO8. Description of the variation of Kp and Kc with temperature and pressure.
CO9. Chain inhibition.
CO10. Kinetics of branching chain reactions.
Department : Chemistry
Semester : B.Sc. VI
Subject Name & Code : CHEMISTRY P-I & 14BSCCHET61
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn & understand the following concepts
CO1. Description of Jahn-Tellar distortion.
CO2. Magnetic moment using Gouy’s method.
CO3. Factors affecting the stability of the metal complexes with reference to
CO4. Nature of metal ion and ligand.
5
CO5. Classification of the organotransition metal complexes
CO6. Killani’s synthesis.
CO7. Structure of peptides.
CO8. Classification of proteins.
CO9. Measurement of dipole moment by temperature variation method.
CO10. Induced dipole moment.
CO11. Classification ofPolymers andde-Broglie equation.
Department : Chemistry
Semester : B.Sc. VI
Subject Name & Code : CHEMISTRY P-II & 14BSCCHET62
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn & understand the following concepts
CO1. Applications of column chromatography.
CO2. Flame photometric determination of Na and K.
CO3. Determination of nitrogen by alkaline permanganate method.
CO4. Trace metals in soil.
CO5. Diagramatic presentation ofOrgel- energy level diagram for d1 and d2 states.
CO6. Synthesis of Antipyretics–antipyrine, paracetamol
CO7. Applications of Antimalarial drugs.
CO8. Distinguish between soaps and detergents.
CO9. Emulsifiers and stabilizers.
CO10. Benzillic acid rearrangement.
CO11. Principle of NMR Spectroscopy.
CO12. Classification of Types of electrodes.
CO13. Beer-Lambart’s Law.
Department of Physics Course Outcomes
Department : PHYSICS
6
Semester : B.Sc. I
Subject Name & Code : MECHANICS AND PROPERTIES OF MATTER & Physics 1.1
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Students are able to learn & understand the following concepts
CO1. Simple harmonic motion and characteristics of SHM.
CO2. Laws of motion and conservation of linear, angular momentum and energy and
Applying to the phenomenon like satellite motion.
CO3. Rigid body dynamics and properties of the materials like Elasticity and ,Surface
tension , Viscosity
CO4. Moment of inertia of fly wheel with relevant theory.
Department : PHYSICS
Semester : B.Sc. II
Subject Name & Code : SOUND AND THERMAL PHYSICS & Physics 2.1
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Students are able to learn & understand the following concepts
CO1. Free, forced, sustained vibration and resonance.
CO2. Process of recording and reproduction of sound and transducers.
CO3. Maxwell’s law of distribution of molecular velocity.
CO4. Working of Otto and diesel engine.
CO5. Maxwell’s thermodynamic equations.
CO6. Thermodynamic analysis of Joule’s Thomson effect
Department : PHYSICS
Semester : B.Sc. III
Subject Name & Code : GEOMETRICAL OPTICS AND ELECTRICITY I & Physics 3.1
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Students are able to learn & understand the following concepts
CO1. Cardinal points of an optical system.
CO2. Spherical and chromatic aberrations.
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CO3. Dynamics of a charged particle in electric and magnetic field.
CO4. Gauss law in dielectrics.
CO5. Statement and mechanism of Biot-Savarts law.
CO6. Uses of C.R.O. & B.G.
Department : PHYSICS
Semester : B.Sc. IV
Subject Name & Code : PHYSICAL OPTICS AND ELECTRICITY II & Physics 4.1
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn & understand the following concepts
CO1. Interference of light and Michelson’s Interferometer.
CO2. Diffraction of light, Zone plate, Fresnel, Fraunhoffer diffraction and polarization.
CO3. Impedance and current in LCR circuit.
CO4. Thomson, Peltier & Seebeck effects.
CO5. Gradient, divergence and curl of vectors.
CO6. Maxwell’s equations.
Department : PHYSICS
Semester : B.Sc. V
Subject Name & Code : PAPER-I: CLASSICAL MECHANICS, ELECTRONICS&
RELATIVITY & Physics 5.1
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Students are able to learn & understand the following concepts
CO1. Generalized coordinates, Degrees of freedom, Configuration space and Lagrange's
equation of motion.
CO2. D’alemberts principle.
CO3. Kepler’s laws of planetary motion.
CO4. Lorentz transformation equations.
CO5. Quantum computing and single electron transistor.
CO6. Lorentz transformation equations, Thevenins and Norton’s theorem.
CO7. FET construction working and characteristics.
8
CO8. Amplifiers, feedback amplifier and oscillator.
Department : PHYSICS
Semester : B.Sc. V
Subject Name & Code : PAPER-II: QUANTUM MECHANICS AND SPECTROSCOPY
& Physics 5.2
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Students are able to understand and implement the following concepts
CO1. Heisenberg’s Uncertainty principle.
CO2. Davisson and Germer experiment.
CO3. Schrodinger time independent Wave equation.
CO4. Vector atomic model of an atom.
CO5. Normal and anomalous Zeeman effect using quantum theory.
CO6. Raman effect based on quantum theory.
CO7. Legendre, Bessel’s & Hermit’s Polynomials.
Department : PHYSICS
Semester : B.Sc. VI
Subject Name & Code : PAPER-I: SOLID STATE PHYSICS, NUCLEAR PHYSICS,
ENERGY SOURCES, DIGITAL ELECTRONICS AND SPECIAL
MATERIALS & Physics 6.1
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Students are able to understand and implement the following concepts
CO1. Structure, composition and thermal properties like thermal capacity thermal
conductivity and electrical conductivity of the solid materials.
CO2. Different models of the atoms, structure of the nucleus and elementary particles.
CO3. Renewable and non renewable energy Sources.
CO4. Advantages and disadvantages of renewable and non renewable energy Sources.
CO5. Liquid crystals and its applications.
CO6. Demorgans theorem and different truth tables.
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CO7. Design logic gates using NOR and NAND gates.
CO8. Applications of Polymers.
Department : PHYSICS
Semester : B.Sc. VI
Subject Name & Code: PAPER-II: INTEGRAL TRANFORMS,OPTOELECTRONICS,
COMMUNICATION, PROGRAMMING AND INTEGRATED
ELECTRONICS & Physics 6.2
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Students are able to learn and implement the following concepts
CO1. Fourier and Laplace transform.
CO2. Photodiode. opto-coupler and working of LED.
CO3. Applications of optical fibers and LASER diode.
CO4. Wave propagation and Modulation.
CO5. Algorithm, flow chart, constants ,variables and C-tokens.
CO6. Applications of IC and OP-amps.
Department of Mathematics Course Outcomes
Department : Mathematics
Semester : B.Sc. I
Subject Name & Code : Paper –I : DIFFERENTIAL CALCULUS & MAT-1.1
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Students are able to understand and implement the following concepts
CO1. Real number, Field Axioms and Order Axioms and Completeness of R.
CO2. Absolute values and Archimedean property.
CO3. Continuous and Discontinuous functions and Algebra of limits.
CO4. Boundedness of continuous functions, Intermediate value theorem and Uniform
continuity.
CO5. nth derivative of ( )
( ) ( ) ( ) (
) ( )
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CO6. Leibnitz’s rule of nth derivative of a product.
CO7. Rolle’s Theorem, Lagrange’s Mean Value Theorem, Cauchy’s Mean Value Theorem
CO8. Taylor’s Theorem (with Sclomilch and Rouche’s form of reminder), Maclaurin’s
Series and L-Hospital’s rule.
CO9. Indeterminate forms of
,
, ( ) , ,
Department : Mathematics
Semester : B.Sc. I
Subject Name & Code : Paper-II ALGEBRA AND TRIGNOMETRY & MAT-1.2
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and implement the following concepts
CO1. Determinants, Properties of Determinants, examples on fourth order Determinants.
CO2. Symmetric and Skew-Symmetric determinants & Reciprocal determinants.
CO3. Matrices, Rank of a Matrices and elementary transformations.
CO4. Elementary transformations, Reduction to Normal forms and Solution of system of
Linear equations.
CO5. Set theory, Equivalence relations, Partition of a Set, Arbitrary unions and
intersections.
CO6. De Morgan’s laws (Theorems), Countable and Uncountable sets.
CO7. Solution of the Euclidean algorithm, Reminder Theorem & Factor Theorem.
CO8. Fundamental Theorem of Algebra& Relation between the roots and coefficient of
general polynomial equation in one variable & Synthetic division.
CO9. Expansion of Sine and Cosine functions, Series of Sines and Cosines.
CO10. Hyperbolic functions, Logarithm of a Complex number &Summations of
Trigonometric series.
Department : Mathematics
Semester : B.Sc. II
Subject Name & Code : PAPER-I: DIFFERENTIAL AND INTEGRAL CALCULUS &
MAT-2.1
11
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Students are able to comprehend the following concepts
CO1. Polar coordinate system, Angle between radius vector and tangent at a point on the
curve.
CO2. Angle of intersection of two curves, Polar sub tangent, polar sub-normal &Polar and
pedal equation of the curves.
CO3. Derivative of arc length, Curvature and radius of curvature.
CO4. Radius of curvature of intrinsic form, Cartesian form, parametric form, polar form,
pedal forms, Evolutes and Involutes.
CO5. Limits, continuity of functions of two variables & Partial derivatives.
CO6. Total derivatives, total differentials & Homogeneous functions, Euler’s theorem on
homogeneous functions.
CO7. Concavity and Convexity of curves, Points of inflexion of curves.
CO8. Envelops, Asymptotes and types of Asymptotes .
CO9. Reduction formulae for integration of sinnx, cosnx, tannx, cotnx, secnx, cosecnx, sinmx,
cosnx, xn, eax, xm(logx)n.
Department : Mathematics
Semester : B.Sc. II
Subject Name & Code : PAPER-II: ALGEBRA AND GEOMETRY & MAT-2.2
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Students are able to comprehend the following concepts
CO1. Relations, Partially ordered sets, Least Upper Bound, Greatest Lower Bound&
Lattices.
CO2. Properties of algebraic structures of distributive and complemented lattices.
Boolean lattices, Boolean algebra, Boolean functions and expressions.
CO3. Prime and composite numbers, Fundamental theorem of arithmetic and
Congruence.
CO4. Fermat and Wilson’s theorems, Euler pi function.
CO5. Sphere, Equation of sphere, Standard form, Central form and General form.
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CO6. Sphere through a given circle, equation of circles, two spheres touch each other
internally and externally. Angle of intersection of two spheres & Orthogonal
properties.
CO7. Equation of cone with vertex at the origin is a homogeneous second degree
equation, General equation of the cone of second degree which passes through
the co-ordinate axis.
CO8. Equation of the right circular cone with different vertices and different
parameters.
CO9. Cylinder, Equation of cylinder, Equation of the cylinder whose generators are
parallel to the line
& base of the conic
f(x,y)=ax2+by2+2fy+2gx+2hxy+c=0,z=0 is a( ) 2 +b( )2+2h(
) ( )+2nf( )(z- )+2ng( ) (z- )+cn2=0.
CO10. Equation of the right circular cylinder in standard form whose axis is z-axis & radius
r, is x2+y2=r 2, Equation of right circular cylinder in general form whose axis is
& radius r, is (x- )2+(y- )2+(z- )2=[ ( ) ( ) (
)]2+r2/[l2+m2+n2].
Department : Mathematics
Semester : B.Sc. III
Subject Name & Code : PAPER- I : MATHEMATICAL LOGIC & REAL ANALYSIS &
MAT-3.1
-------------------------------------------------------------------------------------------------------------------------------
Students are able to comprehend the following concepts
CO1. Mathematical logic, Statement on Proposition, Conjunction, disjunction,
conditional, bi conditional, tautology and Contradiction.
CO2. Converse, inverse and Contra-positive of an implication, Mathematical structures
and valid arguments. Quantifiers, Existential & universal quantifiers.
CO3. Jacobians, Properties of Jacobians and Lagrange’s mean value theorem for
functions of two variables.
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CO4. Taylor’s theorem for two variable functions and Maclaurian’s theorems for two
variables.
CO5. Maximum value and Minimum value for functions of two variables.
CO6. Necessary condition for maxima or minima, sufficient condition for extreme values
of two variables &the Classification of critical points.
CO7. Sequences, Bounded and unbounded sequences, Convergent, Divergent and
Oscillatory sequences.
CO8. Monotonic sequences and Cauchy’s sequence.
CO9. Cauchy’s first and second theorems on limits and Subsequences.
Department : Mathematics
Semester : B.Sc. III
Subject Name & Code : PAPER II: GROUP THEORY, INTEGAL CALCULUS &
DIFFRENTIAL EQUATIONS & MAT-3.2
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Students are able to understand and implement the following concepts
CO1. Properties of groups, Semi groups, Subgroups and Permutation group.
CO2. Cyclic groups & cosets (Right and Left cosets).
CO3. Lagrange’s theorem on groups, Euler’s & Fermat’s theorem.
CO4. Definite Integrals, Application of definite integral to find the lengths of arc of
standard curves.
CO5. Application of definite integral to find the surface areas of standard curve & find the
volume of solids of revolution of standard curves.
CO6. Differential equations, order and degree of differential equations.
CO7. Homogeneous forms, Solutions of Bernoulli’s form and Solution of differential
equation by finding a suitable integrating factor.
CO8. Solutions of differential equations of higher degree.
Department : Mathematics
Semester : B.Sc. IV
14
Subject Name & Code : PAPER I: VECTOR CALCULUS AND INFINITE SERIES &
MAT-4.1
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Students are able to understand and implement the following concepts
CO1. Vector algebra, Scalar product of two vectors and Vector product of two vectors.
CO2. Triple product of vectors, Derivative of vector functions, Constant of vector
functions & Partial differentiation of vector function.
CO3. Vector differential operator del, gradient and curl, the gradient of a scalar point
function.
CO4. Properties of gradient of vector function, divergence and curl, Solenoidal and
irrotational vectors.
CO5. Infinite series, Convergent, Divergent and Oscillatory series.
CO6. Necessary and sufficient condition for convergence, Geometric series, P-series
&Different forms of comparison test.
CO7. D’Alembert’s ratio test, Raabe’s test.
CO8. Cauchy’s integral test, Cauchy’s root test.
CO9. Alternating series & Leibnitz theorem.
CO10. Absolute convergence, conditional convergence of series &Uniform convergence.
Department : Mathematics
Semester : B.Sc. IV
Subject Name & Code : PAPER II: GROUP THEORY, FOURIER SERIES AND
DIFFERENTIAL EQUATIONS & MAT-4.2
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Students are able to understand and implement the following concepts
CO1. Normal sub-groups, Quotient groups & Theorems on Quotient groups.
CO2. Homomorphism, Isomorphism of groups& Fundamental theorem on
Homomorphism.
CO3. Periodic functions with examples &Fourier series with examples.
15
CO4. Fourier series of even & odd functions with period 2 .Half -Range Sine & Cosine
Fourier series.
CO5. Fourier Sine, Cosine Transform and Fourier Integral Theorem.
CO6. Fourier Sine Transform &on Fourier Cosine Transform.
CO7. Linear differential equation, Solution of Linear differential equation of nth order with
constant coefficients.
CO8. Particular integral of the form xvwhere v is
function of x.
CO9. Homogeneous linear differential equation of nth order.
CO10. Equations reducible to the homogeneous linear form.
Department : Mathematics
Semester : B.Sc. V
Subject Name & Code : Paper –I: REAL ANALYSIS & MAT-5.1
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Students are able to understand and implement the following concepts
CO1. Partition of an interval & upper and lower Riemann sums.
CO2. Riemann integrals, Necessary and sufficient conditions for integrability and Algebra
of integrable function.
CO3. Integrability of continuous, monotonic functions.
CO4. Fundamental theorem of integral calculus &first and second mean value theorem of
integral calculus.
CO5. Proper and Improper integrals & Convergence of first and second kind of Improper
integrals.
CO6. Comparison tests, Abel’s test & Dirichlet’s test.
CO7. Beta and Gamma functions, Convergence of Beta and Gamma function.
CO8. Double and Triple integrals & Differentiation under integral sign.
CO9. Leibnitz’s rule for Differentiation under integral sign.
Department : Mathematics
16
Semester : B.Sc. V
Subject Name & Code : Paper –II: NUMERICAL ANALYSIS & MAT-5.2
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Students are able to learn & understand the following concepts
CO1. Algebraic and transcendental equations, Bisection method and Iteration method.
CO2. Newton-Raphson, Gauss Siedal and Jacobi Iteration method.
CO3. Finite difference, (Δ (Delta), (Del) & E(Shift)).
CO4. Factorial notation, Newton Gregory forward& backward difference interpolation
formula.
CO5. Forward and backward difference formulae.
CO6. Quadrature formula, Trapezoidal formula and Simpsons (1/3rd and 3/8th) formula.
CO7. Initial value problems and Ordinary linear first order differential equations.
CO8. Taylor’s series, Euler’s method, Picard method and Runge-Kutta method.
CO9. Basics of difference equations, Order, degree & solution of the difference equations.
CO10. Linear difference equations Form I and II with constant coefficients & Homogeneous
linear difference equation.
Department : Mathematics
Semester : B.Sc. V
Subject Name & Code : PAPER- III: DYNAMICS AND CALCULUS OF VARIATIONS
& MAT-5.3
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Students are able to learn & understand the following concepts
CO1. Radial and Transverse components of velocities& accelerations.
CO2. Tangential and normal components of velocities& acceleration.
CO3. Central Orbits, Central force& Derivation of the Equation of the path of the practical
in polar co-ordinates.
CO4. Derivation of the Differential Equation of the Central Orbits in polar and pedal form
& Apse, Apsidal distance and Apsidal angle.
CO5. Projectile, Trajectory, Point of projection and Velocity of projection.
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CO6. Equation of the path of the projectile in the form y= x tan gx2 / 2u2cos2 and Loss
of kinetic energy due to Direct and Oblique impact.
CO7. Functional &Variation of a function f = f(x, y, z).
CO8. Fundamental theorem of calculus of variation & Euler’s equation.
CO9. Geodesic and Geodesic on plane & Geodesic on sphere.
CO10. Derivation of Brachistochrone problem & Know the Minimum surface of revolution.
Department : Mathematics
Semester : B.Sc. VI
Subject Name & Code : PAPER –I : DIFFERENTIAL EQUATIONS & MAT-6.1
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Students are able to comprehend the following concepts
CO1. Ordinary simultaneous differential equation & Simultaneous differential equations
with two and three variables.
CO2. Total differential equation & Condition of integrability.
CO3. Power series, analytic function, ordinary & singular points.
CO4. Derivation of the Frobenius method with working rule.
CO5. Legendre equation& Solutions of Legendre’s equations in series.
CO6. Orthogonal properties, recurrence formulae & Rodrigue’s formula.
CO7. Lagrange’s linear partial differential equation Pp+Qq = R.
CO8. Non-linear differential equations of standard forms I,II,III and IV.
CO9. General Method of Solution (Charpit’s method).
CO10. Linear partial differential equations of higher order& Homogeneous Partial
differential equation with constant coefficients.
Department : Mathematics
Semester : B.Sc. VI
Subject Name & Code : PAPER- II : COMPLEX ANAYLSIS AND RING THEORY &
MAT-6.2
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Students are able to comprehend the following concepts
CO1. Analytic function & Necessary and sufficient condition for f(z) to be analytic.
CO2. Harmonic and Harmonic conjugate function& Analytic function by Milne-Thomson’s
method.
CO3. Complex integration & Properties of Complex integration.
CO4. Cauchy’s integral Theorem using Greens theorem & Cauchy’s consequences
theorems & Cauchy’s Integral formula.
CO5. Taylor’s and Laurent’s series & Cauchy’s inequality theorem.
CO6. Liouvines theorem, Moreras theorem& essential and isolated singularities.
CO7. Zeros and Residue Theorem & Calculation of residues in case of a plane.
CO8. Cauchy’s Residue Theorem& Jordan’s lemma.
CO9. Properties of Ring, Subring &Necessary and sufficient condition for a subring.
CO10. Ideals, Principle ideal, maximal ideal, Quotient ring, Homomorphism & isomorphism
of ring.
Department : Mathematics
Semester : B.Sc. VI
Subject Name & Code : PAPER- III : TOPOLOGY AND LAPLACE TRANSFORMS &
MAT-6.3
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Students are able to comprehend the following concepts
CO1. Notion of topology, topological space, open set, close set, closure, neighborhood of
a point.
CO2. Limit points, derived sets, interior, exterior and boundary points of a set, Base and
sub-base.
CO3. Separation of axioms space & Properties of
CO4. Laplace transform of functions& Basic properties of Laplace Transforms.
CO5. First shifting theorem &change of scale property.
CO6. Laplace transforms of periodic functions, Laplace transforms of derivatives & Laplace
transforms of integrals.
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CO7. Multiplication by ‘t’ form, Multiplication by ‘tn’ form, Division by ‘t’ form & Inverse
Laplace transform.
CO8. Heaviside function, Dirac-delta function & unit step function.
CO9. Convolution theorem, Inverse convolution theorem and Solution of first and second
order differential equation.
Department of Electronics Course Outcomes
Department : Electronics
Semester : B.Sc. I
Subject Name & Code : ELE-1 BASICS OF CIRCUIT ANALYSIS & INSTRUMENTS &
ELE-1
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Students are able to learn and understand the following concepts.
CO1. Different waveforms, Kirchoff’s laws and applications, Network theorems
CO2. RL and RC circuits, j-operator and Argand diagram, LCR Series and parallel circuits.
CO3. Network parameters Z, Y, h, Relation between parameters, T and π network,
Conversion T to π and π to T, Open and Short circuit impedances.
CO4. PMMC meter design of Ammeter, Voltmeter, ohmmeter, Multimeter. Study of CRO.
CO5. Passive filters, Different types of filters (low pass, high pass, band pass and band
stop).
Department : Electronics
Semester : B.Sc. II
Subject Name & Code : ELE-2: CIRCUITS AND DEVICES & ELE-2
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand the following concepts.
CO1. Full wave and half wave Rectifier, Filters L,C, LC, -Section, Diode as clipper and
clamper.
CO2. Zener Diode, as a voltage regulator, IC voltage regulator.
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CO3. Transistor, FET, MOSFET construction, working, characteristics, Optoelectronic
devices
CO4. Transistor of biasing circuits, stability factor, stabilization techniques , thermal
runaway
CO5. RC coupled common emitter amplifier, CE amplifier analysis by h-parameters.
CO6. FET common source amplifier, Class-A , Class-B Class-C power amplifiers,
Transformer coupled push pull amplifier
Department : Electronics
Semester : B.Sc. III
Subject Name & Code : ELE -3 OSCILLATORS , OP AMP & NETWORKS & ELE-3
------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand the following concepts.
CO1. Feedback, positive & negative feedback and its Effects. Different types of Oscillators
CO2. Op-amp characteristics, Opamp Voltage series feedback amplifier and Voltage shunt
feedback amplifier.
CO3. Linear applications of Op-amp, Op-amp active filters
CO4. Laplace transformation, Heavy side formula. Applications of Laplace transformation
CO5. Properties of Hurwitz polynomial, positive real number, Foster series and Couche’s
series (I and II).
Department : Electronics
Semester : B.Sc. IV
Subject Name & Code : ELE -4 : DIGITAL ELECTRONICS & ELE-4
------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand the following concepts.
CO1. Number system, Weighted and Un Weighted codes and their Conversions.
CO2. Digital gates, timing diagram, D Morgan's theorem, Universal gates, DTL gates pin
configuration of IC’s.
CO3. SOP and POS, Karnaugh map, Adder and Substractor circuits.
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CO4. Combinational logic circuits, Encoder, Decoder, Comparators, Multiplexers, De-
multiplexers.
CO5. Sequential circuit, Flip- flops RS, D, JK, T (Clocked) and JK flip-flops, Counter (binary,
decade and modulus counters), Register.
Department : Electronics
Semester : B.Sc. V
Subject Name & Code : ELE- 5.1 PAPER-I: COMMUNICATION, SIGNALS AND
SYSTEMS & TRANSDUCERS & ELE-5.1.
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Students are able to learn and understand the following concepts.
CO1. Propagation of electromagnetic wave through ionosphere, Amplitude, Frequency,
Phase Modulation
CO2. Amplitude Modulation, Frequency Modulation transmitter and receivers.
Difference between Amplitude Modulation and Frequency Modulation advantages
and disadvantages.
CO3. Optical Fibre, construction working and different modes of propagation. Knowledge
of sources and detectors.
CO4. Different types of transmission lines, Antenna, polarization, different types of
antenna construction and working.
CO5. Different types of transducer, (resistive, capacitive and inductive) Microphone and
Speakers.
Department : Electronics
Semester : B.Sc. V
Subject Name & Code : ELE- 5.2 PAPER-II: MICROPROCESSOR AND
MICROCONTROLLER & ELE-5.2
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand the following concepts.
CO1. Intel 8085 Microprocessor, pin diagram, archietecture, instruction set and
addressing modes, Supporting circuits.
22
CO2. Stack operations, sub routine, Interrupts, Timing diagrams, Programming
preliminaries
CO3. Interfacing concepts, , memory interfacing. Interfacing I/O devices, Programmable
interval timer (8253) , D to A converter with microprocessor and Op-amp,
programmable peripheral Interface IC 8255.
CO4. Microcontroller 8051, Pin diagram, Architecture, addressing modes, Interrupts,
instruction set and programming .
CO5. VLSI, Crystal growth by method of Czocharlski , lithography, Etching
Department : Electronics
Semester : B.Sc. VI
Subject Name & Code : ELE- 6.1 PAPER-I: DIGITAL COMMUNICATION ,
SATELLITE COMMUNICATION & TELEVISION & ELE-6.1
------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand the following concepts.
CO1. Digital communication system, Pulse Amplitude Modulation, Pulse Width
Modulation, Pulse Position Modulation, Pulse Code Modulation, Digital
modulation techniques.
CO2. Satellite orbits, Satellite communication systems, Time Division Multiple Access,
Frequency Division Multiple Access, Code Division Multiple Access, Global
Positioning System.
CO3. Monochrome TV Block diagram, Scanning, Flicker, Interlaced scanning, Composite
video signal, T.V. Signal standards
CO4. Essentials of colour T.V. Chromaticity diagram, Delta gun colour picture tube,
block diagram of colour television.
CO5. SCR ,TRIAC, DIAC,UJT construction working and applications.
Department : Electronics
Semester : B.Sc. VI
Subject Name & Code : ELE- 6.2 PAPER-II: COMPUTER CONCEPTS AND C-
23
PROGRAMMING & ELE-6.2
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand the following concepts.
CO1. Computer, input and output devices. Different types of Languages (ALL, LLL and
HLL). flow chart , algorithms and operating system.
CO2. C language, characteristics and applications, Study of C tokens, input and output
statements. Different types of data types and operators
CO3. Control statements , if, if else, nested if else, for, switch, while, do while loops
CO4. Types of arrays, Strings and string handling functions.
CO5. Local and global variable, Function , Pointers, , Accessing variables through its pointer.
Department of Botany Course Outcomes
Department : Botany
Semester : B.Sc. I
Subject Name & Code : ANATOMY AND EMBRYOLOGY & Bot 1.1
-------------------------------------------------------------------------------------------------------------------------------
Students will be able to learn and understand the following concepts.
CO1. Occurrence, structure and functions of plant tissues.
CO2. Internal structure of vegetative organs of plant.
CO3. Types and significance of wood.
CO4. Development of male and female gametophyte.
CO5. Mechanism of Fertilization of angiospernms.
Department : Botany
Semester : B.Sc. II
Subject Name & Code : PLANT PHYSIOLOGY AND BIOCHEMISTRY & Bot 2.1
-------------------------------------------------------------------------------------------------------------------------------
Students will be able to learn and understand the following concepts.
24
CO1. Basic terminologies of plant water relationships and Physiological process of plants.
CO2. Mechanism of energy transformation through anabolic and catabolic events.
CO3. Biological method of Nitrogen fixation role of plant horomones.
CO4. Enzyme action ,Biomolecule’s structure and functions.
CO5. Role of Pharmacognocy in modern medicine.
Department : Botany
Semester : B.Sc. III
Subject Name & Code : DIVERSITY IN CRYPTOGAMS AND PLANT PATHOLOGY &
Bot 3.1
-------------------------------------------------------------------------------------------------------------------------------
Students will be able to learn and understand the following concepts.
CO1. Comparative account of life cycles of algae.
CO2. Structure and reproduction in fungi belongs to different classes.
CO3. Bacterial, Viral and Fungal diseases in Plants and their control measures.
CO4. Structure , reproduction in various members of Bryophytes.
CO5. Structure , reproduction , stelar evolution and heterospory and seed habitat in
different members of Pteridophytes.
CO6. Structure, reproduction and comparative account of different members of
Gymnosperms.
CO7. Geological time scale, Paleobotany.
Department : Botany
Semester : B.Sc. IV
Subject Name & Code : DIVERSITY AND SYSTEMATIC OF ANGIOSPERMS & Bot
4.1
-------------------------------------------------------------------------------------------------------------------------------
Students will be able to learn and understand the following concepts.
CO1. Modifications of stem, root, leaves ,inflorescence and fruits.
25
CO2. Principles and rules of Binomial Nomenclature of angiosperms.
CO3. Different system of classification of angiosperms.
CO4. Study of Diversity of Angiosperms belongs to different families.
CO5. Study of economic importance of vegetables, spices, beverages, fibre yielding
plants.
CO6. Medicinal values of plants like Tulsi, turmeric, Ashwagandh , Aloe vera etc.
Department : Botany
Semester : B.Sc. V
Subject Name & Code : PAPER -I : PLANT BREEDING , HORTICULTURE AND
TISSUE CULTURE & Bot 5.1.1
-------------------------------------------------------------------------------------------------------------------------------
Students will be able to learn and understand the following concepts.
CO1. History, objectives and methods of plant breeding.
CO2. Basic aspects , types and techniques involved in plant tissue culture.
CO3. Nursery management and its role in Horticulture.
CO4. Natural and artificial methods of plant propagation.
CO5. Introduction and advantages of Bonsai techniques.
CO6. Green house structure, types and its applications.
CO7. Methods of harvesting flowers and fruits and importance of weed management.
Department : Botany
Semester : B.Sc. V
Subject Name & Code : PAPER -II : ECOLOGY AND ENVIRONMENTAL STUDIES &
Bot 5.2.1
------------------------------------------------------------------------------------------------------------------------------
Students will be able to learn and understand the following concepts.
CO1. Study and effects of abiotic factors on plants.
26
CO2. Adaptations of plants belonging to different habitats.
CO3. Structure and types of Ecosystem , ecological pyramids and succession.
CO4. Phytogeographical regions and types of vegetations of India and Karnataka.
CO5. Different types energy resources
CO6. Methods of conservation of natural resources and forest management.
CO7. Causes , effects and control measures of air , water and soil pollutions.
CO8. Acid rain , Green house effects and Global Warming.
Department : Botany
Semester : B.Sc. VI
Subject Name & Code : PAPER -I : CELL BIOLOGY , GENETICS AND EVOLUTION
& Bot 6.1.1
---------------------------------------------------------------------------------------------------------------------------
Students will be able to learn and understand the following concepts.
CO1. Structure and functions of Cell and its components.
CO2. Morphology and types of Chromosomes.
CO3. Cell cycles, different stages of mitosis and meiosis .
CO4. Mendalian genetics and gene interaction.
CO5. Lamarkism , Darwinism and mutation theory of evolution.
Department : Botany
Semester : B.Sc. VI
Subject Name & Code : PAPER -II : MOLECULAR BIOLOGY, BIOTECHNOLOGY
AND IMMUNOLOGY & Bot 6.2.1
------------------------------------------------------------------------------------------------------------------------------
Students will be able to learn and understand the following concepts.
CO1. Structure and functions of DNA and RNA.
CO2. Regulation of gene expression in prokaryotes and Eukaryotes.
CO3. r-DNA technology and bioinformatics and their applications.
27
CO4. Development of transgenic plants, its ethical concerns and intellectual property
rights.
CO5. Methods of microbial genetic manipulation.
CO6. Immune techniques in agriculture in detection of plant diseases.
CO7. Monoclonal antibodies.
Department of Zoology Course Outcomes
Department : Zoology
Semester : B.Sc. I
Subject Name & Code : TAXONOMY, NON-CHORADATES& PARASITOLOGY &
Zoo 1
-------------------------------------------------------------------------------------------------------------------------------
Students are able to understand and implement the following concepts:
CO1. Describe the science of taxonomy and its importance to classification.
CO2. Understand the habit & habitat of unicellular organisms.
CO3. Sponges& coral reef system
CO4. Polymorphism in coelenterate.
CO5. Study of Liver fluke helps to avoid its infection to sheep & goat by avoiding
infected food & water.
CO6. General characters & classification leads to know about free living & parasitic
Aschehelminthes.
CO7. the earthworms morphological, Anatomical structure & physiological functions
they express.
CO8. Understand prawns are used as food because their flesh is highly nutrient & tasty.
CO9. This study is important from biodiversity point of view.
CO10. Appreciate the importance of parasitic infection in terms of global health.
CO11. Understand the broad perception of epidemiology, transmission, control and
treatment of parasitic diseases.
CO12. Describe the current challenges of parasite control and the progress of anti-
parasitic vaccines.
28
Department : Zoology
Semester : B.Sc. II
Subject Name & Code : BIOLOGY OF CHORDATES& COMPARATIVE ANATOMY
& Zoo 2
-------------------------------------------------------------------------------------------------------------------------------
After the completion of this course, student will able to understand following concepts
CO1. Understand the evolution of Choradates.
CO2. Study of fishes is important knowledge, if students want to go for M.Sc. fishery.
CO3. Other students know fish classification and fish biodiversity.
CO4. Amphibians make good indicator species because se they live in two environments,
land and water.
CO5. They can identify poisonous & nonpoisonous snakes
CO6. Know migration.
CO7. Different types of mammals
CO8. Gain a knowledge base for understanding vertebrate anatomy and evolution
Department : Zoology
Semester : B.Sc. III
Subject Name & Code : DEVELOPMENTAL BIOLOGY, BIOCHEMISTRY,
PHYSIOLOGY, ENDOCRIMOLOGY&IMMUNOLOGY &
Zoo 3
-------------------------------------------------------------------------------------------------------------------------------
After the completion of this course, student will able to understand following concepts
CO1. Basic concepts in Gametogenesis
CO2. Concepts and terms in embryology
CO3. These topics are much needed to understand working of life at molecular level.
Define the term vitamin and list 3 characteristics of vitamins as a group.
CO4. Classify the vitamins according to whether they are fat soluble or water soluble.
CO5. About GIT & its accessory glands and their secretion.
CO6. The alveolar pressure, air flow & lung volume exchange.
29
CO7. Structure & function of human heart.
CO8. The position & structure of kidney and nephron.
CO9. The types of muscle proteins & their structure.
CO10. Learn structure of a neuromuscular junction, and explain how an action potential
is transmitted across the junction.
CO11. Hormones
CO12. Understand the antigen & antibodies.
Department : Zoology
Semester : B.Sc. IV
Subject Name & Code : CELL BIOLOGY, HISTOLOGY & ANIMAL BEHAVIOR &
Zoo 4
-----------------------------------------------------------------------------------------------------------------------------
After the completion of this course, student will able to understand following concepts
CO1. Understand the composition, structure and function of cell organelles
CO2. Know Sources and energy utilization inside the cell.
CO3. Understand the cellular components underlying mitotic cell division.
CO4. Understand receptor subclasses and their possible uses in cell signalling.
CO5. The purpose of dynamic histology is to examine tissue structures at the microscopic
level in order to understand their physiological and anatomical functions.
CO6. Histopathology.
CO7. Cell staining is a technique
CO8. Animal’s behavior.
Department : Zoology
Semester : B.Sc. V
Subject Name & Code : PAPER-I: ECOLOGY EVOLUTION ORIGIN OF LIFE
&PALAEONTOLOGY & Zoo 5.1.1
-------------------------------------------------------------------------------------------------------------------------------
After the completion of this course, student will able to understand following concepts
CO1. Existence in the world is made up of living and nonliving things & their interactions.
30
CO2. The oceans are the significant source of oxygen for our plane.t
CO3. The Marine species
CO4. Biogeochemical cycles
CO5. Theories of organic evolution.
CO6. Principles of evolution from the perspective of horse and humans over the years.
CO7. Knowledge of wildlife and conservation methods.
CO8. To identify different fossils and their mode of formation etc.
CO9. The geological time.
Department : Zoology
Semester : B.Sc. V
Subject Name & Code : PAPER-II: GENETICS, GENETIC CODE AND PROTEIN
BIOSYNTHESIS, BIOTECHNOLOGY & BIOSTATISTICS &
Zoo 5.2.1
-----------------------------------------------------------------------------------------------------------------------------
After the completion of this course, student will able to understand following concepts
CO1. Syndromes can be eliminated from amniocentesis.
CO2. Human genetics-inborn errors of metabolism
CO3. The expression of DNA’s code through protein synthesis directs life’s activities.
CO4. Understand that the genetic code is a three-letter nucleotide code.
CO5. Making proteins enables life to maintain homeostasis.
CO6. Understand the importance of cells to genetic engineering.
CO7. Know the natural function of restriction endonucleases
CO8. While the study of biology focuses on living organisms, statistical analyses provide
crucial insight into many biological processes.
Department : Zoology
Semester : B.Sc. VI
Subject Name & Code : PAPER-I: APPLIED ZOOLOGY & Zoo 6.1.1
-------------------------------------------------------------------------------------------------------------------------------
Students are able to understand following concepts:
31
CO1. Express knowledge regarding the ethical economic, legal and Political Aspects of
animal rearing and husbandry.
CO2. Application oriented knowledge of Sericulture, Vermi culture poultry and animal
husbandry.
CO3. Pearl producing molluscans, Pearl formation and composition of Pearl.
CO4. Pearl Industry: Artificial Insertion of nucleus
CO5. Apiculture.
CO6. Natural control of insect pests & their reschedule farming activities
CO7. Know about economic importance helps them to know the value of Lac.
Department : Zoology
Semester : B.Sc. VI
Subject Name & Code : PAPER-II: MICROBIOLOGY NANOTECHNOLOGY
BIOINFORMATICS METHODS IN BIOLOGY & Zoo 6.2.1
-------------------------------------------------------------------------------------------------------------------------------
Students are able to understand following concepts:
CO1. To identify different microscopes.
CO2. Knowing about bacteria, virus & fungi.
CO3. Study production of antibodies.
CO4. The importance on Nanotechnology
CO5. The basic principles and concepts of biology, computer science and mathematics.
CO6. Understand the basics involving gel-based proteomics.
CO7. Understand the basic concepts of mass spectrometry.
CO8. To know the main applications and advantages of each of the main types of blotting
techniques.
CO9. Understand appropriate radiation protection while performing radiologic
procedures on children and adults.
Department of Microbiology Course Outcomes
Department : Microbiology
32
Semester : B.Sc. I
Subject Name & Code : MB1.1 GENERAL MICROBIOLOGY & MB-1.1
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand the following concepts.
CO1. Microbes and spontaneous generation of life.
CO2. Various branches of Microbiology.
CO3. Contributions of scientists on Abiogenesis, Germ theory etc.
CO4. Heakels three kingdom & Whittaker’s five kingdom classifications.
CO5. Different trends in classification of Microorganisms.
CO6. Size, Shape, arrangement, Cell wall, Cell membrane.
CO7. Ultra structure of cell organelles.
CO8. General characters, Classification, Reproduction & significance of 1) Rickettsia
2) Chlamydia 3) Mycoplasma 4) Actinomycetes
CO9. Structure of Archae, Bacteria, Eukarya
CO10. General structure & Properties of viruses- Bacteriophage, Plant viruses, Animal
viruses.
CO11. Nature & Significance of Prions and Viriods.
Department : Microbiology
Semester : B.Sc. II
Subject Name & Code : MB2.1 MICROBIOLOGICAL TECHNIQUES & MB-2.1
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand the following concepts.
CO1. Working principle and application of –Dark field, Phase contrast, Fluoresces &
Electron microscope.
CO2. Sterilization, Physical method, dry heat, moist heat, filtration and Radiation
method & their mode of action.
CO3. Chemical method of Sterilization.
CO4. Use & mode of action- Alcohol, Aldehydes, Halogens, Phenols.
CO5. Culture media and their types.
33
CO6. Special media and their types
CO7. Selection methods of isolation of Bacteria, Fungi by serial dilution method.
CO8. Maintance of pure culture & Cultivation of Anaerobic.
CO9. Strains & preparation of Bacterial stains for light microscope.
CO10. Working principle of Centrifuge, pH metre, colorimeter & spectrophotometer and
their applications.
Department : Microbiology
Semester : B.Sc. III
Subject Name & Code : MB3.1 MICROBIAL PHYSIOLOGY & GENETICS & MB-
3.1
------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand the following concepts.
CO1. Classification and importance of Carbohydrates, Proteins, Lipids.
CO2. Nomenclature, classification & properties of enzymes.
CO3. Competative and non compitative inhibition & allosteric enzymes.
CO4. Nutritional requirements for microorganisms.
CO5. Mode of Nutritions- Phototrophs, Chemotrophs, Organotrophs etc.
CO6. Factors affecting rate of Photosynthesis and Light and Dark reaction.
CO7. Laws of thermodynamics, ATP & its production.
CO8. Redox reaction.
CO9. Glycolysis, TCA cycle, Oxidative phosphorylation.
CO10. Anaerobic respiration, Lactic and acitic acid fermentation.
CO11. Growth rate, generation time & growth curve-phases of growth.
Department : Microbiology
Semester : B.Sc. IV
Subject Name & Code : MB4.1 MOLECULAR BIOLOGY & MB-4.1
------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand the following concepts.
34
CO1. Molecular basis of life & uses.
CO2. DNA damage & repair and causes.
CO3. Photoreaction, Transcription process and factors.
CO4. Translation & protein synthesis.
CO5. Gene expression in michondria & chloroplast.
CO6. Genetic engineering & scope.
CO7. Modifying enzymes, Cloning plasmids & Viruses as cloning vehical.
CO8. Isolation of DNA from Bacteria & Vector DNA.
CO9. Cutting & Joining of DNA molecules by different methods, DNA finger printing & its
application.
CO10. Application of genetic engineering & in medicine in agriculture. Gene therapy, Nif
gene.
Department : Microbiology
Semester : B.Sc. V
Subject Name & Code : PAPER-I: MB5.1 ENVIRONMENTAL MICROBIOLOGY &
MB-5.1
------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand the following concepts.
CO1. Soil, Water & Air as habitates for microorganism
CO2. Sources types, Effects & control of air and ozone layer depletion.
CO3. Technique of trapping air borne microorganisms.
CO4. Sources types, Effects & control of water pollution & water born diseases.
CO5. Water purification in municipal water supply.
CO6. Bioleaching, scope of bioleaching & organism involved economic important.
CO7. Biodegradation of petroleum & pesticides.
Department : Microbiology
Semester : B.Sc. V
Subject Name & Code : PAPER-II: MB5.3 SOIL & AGRICULTURE MICROBIOLOGY
35
& MB-5.3
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand the following concepts.
CO1. Types of soil, physical and chemical characters of soil.
CO2. Biogeochemical cycle
CO3. Nitrogen fixation of bacteria
CO4. Mass production of bioinoculants & Biopesticides.
CO5. Causative agent, symptoms & control of Bacterial, fungal & plant diseases.
Department : Microbiology
Semester : B.Sc. VI
Subject Name & Code : PAPER-I: MB6.1 FOOD AND INDUSTRIAL
MICROBIOLOGY & MB-6.1
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand the following concepts.
CO1. Food microbiology, source of contamination.
CO2. Food spoilage, poisoning & sanitation and control.
CO3. Fermented foods, fermentation of olives, Yoghurts.
CO4. Food preservation, physical and chemical methods.
CO5. Industrial microbiology, scope & development.
CO6. Types of industrial fermentation process, Crude media components, antifoam agent.
CO7. Sterilization method, Maintance of sterility During Fermentation.
CO8. Inoculum preparation, Aeration and Agitation
CO9. Basic structure of fermentors & Types of fermentors. Downstream processing.
Department : Microbiology
Semester : B.Sc. VI
Subject Name & Code : PAPER-II: MB6.1 FOOD AND INDUSTRIAL
MICROBIOLOGY & MB-6.3
------------------------------------------------------------------------------------------------------------------------------
36
Students are able to learn and understand the following concepts.
CO1. History & scope of Immunology.
CO2. Types of Immunity- Natural, Acquired, active & passive.
CO3. Nature and types of Antigen.
CO4. Structure of antibodies, function of immunogobulins.
CO5. Antigen & Antibody reactions.
CO6. Immune response, CML, MHC, AMI.
CO7. Hypersensitivity & reaction. Vaccines.
CO8. Medical microbiology, development of medical microbiology.
CO9. Infection & Mode of transmission. Pathogensis.
CO10. Antibiotics, general characters & types.
Department of Biotechnology Course Outcomes
Department : Biotechnology
Semester : B.Sc. I
Subject Name & Code : 1.1 CELL BIOLOGY AND GENETICS & Bt 1.1
------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand the following concepts.
CO1. Branches and scope of biotechnology
CO2. Basic concepts of cell and its theory
CO3. Different types of cell and its organelles
CO4. Concept of cell cycle and cell division
CO5. Basic study of cancer cell and its preventive measures
CO6. Branches and Scope of Genetics
CO7. Solve the Genetic problems
Department : Biotechnology
Semester : B.Sc. II
Subject Name & Code : 2.1 BIO MOLECULES AND BIOSTATISTICS & Bt 2.1
37
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand the following concepts.
CO1. Different types of Biomolecules.
CO2. Structure and properties of Carbohydrates, aminoacids, proteins, enzymes and lipids
CO3. Basic concept of Ph, Buffer
CO4. Basic study of biostatistics
CO5. Mean, Median and Mode
CO6. Frequency polygon, Frequency Distribution
CO7. Types of Data, analysis of data
Department : Biotechnology
Semester : B.Sc. III
Subject Name & Code : 3.1 MICROBIOLOGY AND IMMUNOLOGY & Bt 3.1
------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand the following concepts.
CO1. Discoveries in the Microbiology
CO2. Scope of microbiology
CO3. Basic techniques in the microbiology
CO4. Media preparation for the microbes
CO5. Growth curve of Microbes
CO6. Some harmful and useful microbes
CO7. Basic concepts and some discoveries in the immunology
CO8. Types of immune system, lymphoid organs and lymphocytes
CO9. Antigen and Antibody Reaction
Department : Biotechnology
Semester : B.Sc. IV
Subject Name & Code : 4.1 MOLECULAR BIOLOGY & Bt 4.1
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand the following concepts.
38
CO1. Molecular basis of life
CO2. Types of nucleic acids, structure and its function
CO3. Replication of DNA
CO4. Genetic code
CO5. Recombination in prokaryotes
CO6. Protein synthesis in prokaryotes and eukaryotes
CO7. Transposable elements in drosophila and maize
CO8. Gene organization in chloroplast and mitochondria
Department : Biotechnology
Semester : B.Sc. V
Subject Name & Code : PAPER: 5.1 PLANT AND ANIMAL TISSUE CULTURE & Bt
5.1.1
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand the following concepts.
CO1. Get basic knowledge of plant tissue culture
CO2. Aseptic condition to maintain plant tissue culture laboratory
CO3. Anther, Embryo, Meristem culture
CO4. Techniques in the plant tissue culture
CO5. Basic concept of stem cell
CO6. Animal cell culture media
Department : Biotechnology
Semester : B.Sc. V
Subject Name & Code : PAPER: 5.3 GENETIC ENGINEERING & Bt 5.2.1
-------------------------------------------------------------------------------------------------------------------------------
Students are able learn and understand the following concepts:
CO1. Methodology of Genetic Engineering
CO2. Tools of Genetic Engineering
CO3. Different technique to introduce r DNA into the cell
39
CO4. Detection of right clone
CO5. DNA Sequencing
CO6. Rules and regulations to handle GMO’S
CO7. Applications of genetic engineering
Department : Biotechnology
Semester : B.Sc. VI
Subject Name & Code : PAPER: 6.1 INDUSTRIAL AND ENVIRONMENTAL
BIOTECHNOLOGIES & Bt 6.1.1
-------------------------------------------------------------------------------------------------------------------------------
Students are able learn and understand the following concepts:
CO1. Fermentor structure and types of fermentor
CO2. Properties and conditions for basic frementor
CO3. Some basic fermented foods
CO4. Production of industrially important products
CO5. Basic concepts of environmental biotechnology
CO6. Environmental protection act and air, soil and water pollution
CO7. Treatment for the sewage water
Department : Biotechnology
Semester : B.Sc. VI
Subject Name & Code : PAPER: 6.3 AGRICULTURE AND MEDICAL
BIOTECHNOLOGY & Bt 6.2.1
------------------------------------------------------------------------------------------------------------------------------
Students are able learn and understand the following concepts:
CO1. Microbes involved in the production of Biofertilizer
CO2. Microbes used as biopesticides and neem used as biopesticide
CO3. Biological nitrogen fixation
CO4. Crop improvement by agricultural biotechnology
CO5. Bt.Cotton and Golden rice
CO6. Production of Vaccine
40
CO7. Production of insulin by r DNA Technology
CO8. Gene therapy and disease diagnosis and treatment
Department of Statistics Course Outcomes
Department : Statistics
Semester : B.Sc. I
Subject Name & Code : 1.1: UNIVARIATE DATA ANALYSIS AND PROBABILITY &
STAT 1.1
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn & understand the following concepts
CO5. Introduction about the statistics.
CO6. Purpose of measures of location. Definition of A.M, G.M, H.M and their properties
(with proof) Mean Median and Mode, partitioned values.
CO7. Purpose of measures of dispersion, definition of Range, Quartile deviation, Mean
deviation, Standard deviation, concepts of skewness& kurtosis
CO8. Basic concepts of probability .Definition of probability in 3different approaches.
Addition and Multiplication law of probability .Baye’s theorem (with proof).
CO9. Concept of Random variable &their types, the various types of probability functions
with examples i.e. p.m.f, p.d.f, Moment generating function (m.g.f) and its
properties.
Department : Statistics
Semester : B.Sc. II
Subject Name & Code : BIVARIATE DATA ANALYSIS AND PROBABILITY
DISTRIBUTIONS & STAT 2.1
------------------------------------------------------------------------------------------------------------------------------
Students are able to learn & understand the following concepts
CO1. Bivariate distribution function: Joint, Marginal, Conditional distributions for discrete
and continuous variate.
CO2. Definition and derivation of simple correlation coefficient, Rank correlation
coefficient, Regression correlation coefficient with their properties.
41
CO3. Definition of standard discrete distributions like Uniform, Bernoulli, Binomial,
Poisson, Negative binomial, geometric distributions, Hyper geometric distribution.
CO4. Derivation of Recurrence relation for probabilities and moments of Binomial and
Poisson distributions.
CO5. Definition of standard continuous distributions like Uniform, Gamma, Exponential,
Beta distribution of I and II Kind, Normal Distribution.
CO6. Construction of Index numbers and their computation, interpretations, Simple
aggregate and Weighted average methods.
Department : Statistics
Semester : B.Sc. III
Subject Name & Code : 3.1: SAMPLING DISTRIBUTION AND LARGE SAMPLE &
NON PARAMETRIC TESTS & STAT 3.1
------------------------------------------------------------------------------------------------------------------------------
Students are able to learn & understand the following concepts
CO7. Sampling of x & s2 for sample from normal distribution. Central Limit
Theorem(without proof) & Large sample tests
CO8. Definition & derivation of Chi-square distribution, Properties, recurrence relation,
Applications of chi-square distribution
CO9. Definition & derivation of t-distribution, Properties, recurrence relation,
Applications of t-distribution
CO10. Meaning of order statistics, Explanation of the different types of Non-parametric
tests.
CO11. Multiple and Partial Correlation and Regression.
Department : Statistics
Semester : B.Sc. IV
Subject Name & Code : 4.1 STATISTICAL INFERENCE & STAT 4.1
------------------------------------------------------------------------------------------------------------------------------
Students are able to learn & understand the following concepts
42
CO1. Basic concepts of parameter, estimator, estimate and standard error, relative
efficiency.
CO2. MVUE, Neymann-Factorization theorem with proof, Fisher information Function.
CO3. Properties of MLE and MME.
CO4. Meaning of confidence interval. Confidence coefficient, Discussion of confidence
intervals for mean, difference between means for large and small samples.
CO5. Concepts of testing of hypothesis, MP, UMP, Neymann-Pearson Lemma.
CO6. UMP and Likelihood Ratio Tests.
Department : Statistics
Semester : B.Sc. V
Subject Name & Code : 5.1 PAPER-I: ANOVA, DESIGN OF EXPERIMENTS AND
SPRT & STAT 5.1.1
-----------------------------------------------------------------------------------------------------------------------------
Students are able to understand and implement the following concepts
CO1. Analysis of Variance, conducted the ANOVA for one-way, two-way classified data.
CO2. Basic principles, CRD, RBD, LSD, layout, models, least squares estimates of
parameters, hypothesis, test procedures and ANOVA tables.
CO3. Factorial Experiments like 22 and 23 factorials.
CO4. Spilt-Plot design.
CO5. Need for sequential tests, Construction of SPRT for Binomial, Poisson, Normal
distribution.
Department : Statistics
Semester : B.Sc. V
Subject Name & Code : 5.2 PAPER-II: SAMPLING AND DEMOGRAPHY & STAT
5.2.1
-------------------------------------------------------------------------------------------------------------------------------
CO1. Students are able to understand and implement the following concepts
CO2. Concepts of population and sample, Need for sampling.
43
CO3. Need for sampling. Complete enumeration vs Sample surveys. Non probability and
probability sampling
CO4. Explanation of the SRSWR&SRSWOR
CO5. Derivation of the sampling variance, Standard errors of the estimators, Variance of
the estimators and their estimation.
CO6. Compared the V (ran), V(prop) and V (opt) ignoring f p c. Estimation of gain in
precision due to stratification.
CO7. Expressed the variance with intra class correlation.
CO8. Sources of demography &the basic concepts of Mortality & Fertility rates
Department : Statistics
Semester : B.Sc. VI
Subject Name & Code: 6.1 PAPER-I: STATISTICAL QUALITY MANAGEMENT AND
ECONOMETRICS & STAT 6.1.1
------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and implement the following concepts
CO1. Pioneers of Statistical Quality Control
CO2. Discussed the Theoretical basis and practical background of control Charts for
variables. control limits like 3 -sigma limits, Warning limits & Probability
CO3. Construction of np-chart, p-chart c-chart and u-chart with interpretation.
CO4. Components of time series, Constructed seasonal indices by simple.
CO5. Simple linear regression model with assumptions, OLS, properties of OLS
Department : Statistics
Semester : B.Sc. VI
Subject Name & Code: 6.2 PAPER-II: OPERATIONS RESEARCH & STAT 6.2.1
------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and implement the following concepts
CO1. Basic Concepts and Formulation of an LPP
44
CO2. Mathematical form of general LPP, Standard LPP, Simplex algorithm- Big-M-Method
with Examples.
CO3. Transportation problem with mathematical model.
CO4. Analyzed the different methods of finding optimum solution of transportation
problem.
CO5. Assignment problem with mathematical model.
CO6. Analyzed the different methods of finding optimum solution of assignment problem.
CO7. Basic concepts of inventory theory, EOQ model.
B.Sc.(Cs) COURSE OUTCOME
DEPARTMENT : COMPUTER SCIENCE
COURSE : B.Sc. (CS) I Sem
SUBJECT Name & Code : Maths B.Sc. (C.S) 102
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand following concepts.
CO1. Direction cosines and direction ratios – planes, angle between planes/straight lines,
shortest distance between skew lines, right circular cone and right circular cylinder.
CO2. Differential Calculus, Determination of nth derivatives of standard functions, Leibnitz’s
theorem(without proof) , Polar curves – Angle between the radius vector and the
tangent – pedal equations of polar curves only.
CO3. Euler’s Theorem, Total differentiation, Differentiation of Composite and Implicit
functions–Jacobians, Errors and approximations – Illustrative Engg. Oriented problems.
CO4. Integral Calculus ,Reduction formulae for the functions sinnx, cosnx, tannx, cotnx, secnx,
cosecnx, and sinmx cosnx ,Evaluations of these intergrals with standard limits – Problems,
Tracing of Standard curves in Cartesian form.
CO5. Parametric form and Polar form. Applications to find area, length, volume and surface
area, Solutions of 1st order and 1st degree equations, Homogeneous and Non-
Homogeneous, Exact equations and reducible and exact form.
45
CO6. Linear and Bernoulli’s equations. Orthogonal trajectories of Cartesian and polar
form.(Use of initial condition should be emphasized). – Illustrative examples.
CO7. Convergence, divergence and oscillation of an infinite series,Comparison Test, P-series,
D’ alembert’s ration test, Raabe’s test, Cauchy’s root test, Cauchy’s integral test.
CO8. Series of positive terms. Alternating series. Absolute and conditional convergence,
Leibnitz’s (without proof).
DEPARTMENT : COMPUTER SCIENCE
COURSE : B.Sc. (C.S) I
SUBJECT Name & Code : BASIC ELECTRICAL & ELECTRONICS (B.Sc. (CS) 103)
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand following concepts:
CO1. Generation of Altering Voltage & currents
CO2. A-C terminology & their important relations
CO3. Phase Diagram using R.M.S values
CO4. Usage of single Wattmeter-power measurement in 3-phase circuits
CO5. Transforms, semiconductor
CO6. Diode characteristics
CO7. Operational Amplifiers
CO8. Types of communication system modulation
CO9. Microwave bench, types of Antenna.
DEPARTMENT : COMPUTER SCIENCE
COURSE : B.Sc.(C.S) I
SUBJECT Name & Code : C Programming B.Sc.(CS) 104
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand the following concepts:
46
CO1. Basic concept of Computer, software and hardware devised, History
CO2. Algorithm, Flowchart, Coding, Running the program
CO3. Variables, Keywords, Identifiers, Data types, Constants
CO4. Operators, Type conversion, Mathematical functions
CO5. Decision Making and Branching, Looping Controls
CO6. Arrays, Functions and String handling functions
CO7. Structures and Unions
CO8. Pointers declaration and initialization
DEPARTMENT : COMPUTER SCIENCE
COURSE : B.Sc.(CS) III
SUBJECT Name & Code : Analog and Digital(B.Sc.(CS) 203)
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand following concepts:
CO1. Diode Circuits, Transistor Biasing, Transistor at Low Frequencies
CO2. Feedback Amplifiers, Power Amplifier, 555 Timer
CO3. Introduction to Analog Signals, Digital Signals
CO4. Introduction to all types of Number system, conversion from one number system to
another and vice-versa
CO5. Logic Gates and Simplification of Boolean Expressions
CO6. Complementary nature of mini terms and max terms, Using K-Map obtain minimal sum
and product for complete and incomplete Boolean forms, Simplification of logical
functions using Boolean algebra technique
CO7. Logic levels, Integration levels, Output switching times, Specifications and Characteristics
of Digital IC’s TTL, wired logic
CO8. The MOSFET: Operation of n-channel, Enhancement Type MOSFET, The MOSFET as a
Resistor, NMOS and PMOS logic.
47
DEPARTMENT :COMPUTER SCIENCE
COURSE :B.Sc.(C.S) II
SUBJECT Name & Code:DATA STRUCTURES(B.Sc.(CS) 204)
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand the following concepts:
CO1. Pointers, Memory Management, Files, File access modes
CO2. Introduction to data structures, Primitive and Non-primitive data structure
CO3. Importance, Advantages and Disadvantages, Types of data Structure
CO4. Stack, Uses of stack, Infix, Prefix and Postfix conversions
CO5. Queue, Double ended queue, Circular queue and Priority queue
CO6. Linked List, Double ended Linked List, Circular Linked List,
CO7. Linear and Binary Searching, Bubble sort, Insertion sort, Selection sort, Quick sort, Merge
Sort.
DEPARTMENT : COMPUTER SCIENCE
COURSE : B.Sc.(C.S) III
SUBJECT Name &Code : Computer Organization and Architecture (B.Sc.(C.S)( 301))
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand following concepts:
CO1. Basic organization of computer architecturewith peripherals
CO2. Basic structure of gates for logic operation
CO3. K-simplification of Boolean expressions
CO4. Combinational circuits are used process the system for manipulation of data
CO5. Sequential circuits for storing elements
CO6. Write and read operation
CO7. Addressing modes are required to change the mode of address during the process
CO8. Accessing methods of Information.
48
DEPARTMENT :COMPUTER SCIENCE
COURSE : B.Sc.(C.S) III
SUBJECT Name &Code: Discrete Mathematical Structures (B.Sc.(C.S) 302)
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand following concepts:
CO1. Statements and notations of Mathematical Logic
CO2. Set Theory
CO3. Pigeonhole principle
CO4. Definition, properties of binary relations in a set
CO5. Algebraic Systems
CO6. Combinations and permutations
CO7. Graph Theory
CO8. Trees and their properties.
DEPARTMENT : COMPUTER SCIENCE
COURSE : B.Sc.(C.S) III Sem
SUBJECT Name & Code : CONMB.Sc. (CS) 303
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand following concepts:
CO1. Numerical Methods, Solution of equations (polynomial and transcendental equations),
Interval halving methods, secant, Regula Falsi, Newton-Raphson methods, Fixed point
iteration method.
CO2. Solution of system of linear equations, Gaussian elimination method, Gauss Jordan, Gauss
Seidal iteration methods, LU Decomposition
CO3. Method of Eigen values and Eigen vectors of a Square matrix , Newton’s forward and
backward differences, Interpolation formula-Lagrange interpolation.
49
CO4. Curve fitting by least squares method. Numerical differentiation, Integration, Trapezoidal
and Simpson' formula. Romberg Integration.
CO5. Basics concepts and definition of statistics. Mean, standard deviation, coefficient of
variation, skewness & kurtosis, Carl Pearson Correlation, Rank correlation.
CO6. Basic concepts and definition of probability, Probability axioms, Laws of probability (based
on set theory concepts).
CO7. Conditional probability Boy's theorem, Problems and application, Discrete and continuous
random variables, expectation of random variables, theorems on expectation, illustrative
examples.
CO8. Probability function, Probability mass/density function, Theoretical Distributions:
Introduction, Bernoulli Distribution, Binomial Distribution.
DEPARTMENT : COMPUTER SCIENCE
COURSE : B.Sc.(CS) III
SUBJECT Name &Code: OOPs Using C++: B.Sc.(CS) 304
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand the following concepts
CO1. Procedural Languages, definition of OOP, Object, Polymorphism
CO2. Data types, Classes, Overloading, I/O-stream class
CO3. Command Line Arguments, C++ Comments, C++ Keywords
CO4. constants, Variables, pass by value, passing by reference
CO5. Different Kinds of arguments, Function declaration
CO6. Class Declaration, class object constructors, Streams
CO7. Overloaded constructor, Objects as function, Operator Keyword
CO8. Inheritance, Virtual Functions, Templates & Exception Handling
DEPARTEMENT : COMPUTER SCIENCE
50
COURSE : B.Sc. (CS) III Sem
SUBJECT Name & Code : DEVELOPMENT OF PERSONALITY AND COMMUNICATION SKILL (B.Sc.
(CS)305
---------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand following concepts:
CO1. Personality meaning, dimensions/ determinants physical, Intellectual, emotional,
linguistic cultural, Traits of Personality
CO2. Grooming the self, Dress code for Men and Women, Do’s and Don’ts, Social etiquettes
and Manners, Self-confidence
CO3. SWOT Analysis, Who am I, Attributes, Importance of Self Confidence, Creativity out of
box thinking, Lateral Thinking, Johari Window.
CO4. GOAL SETTING – Short Term, Long Term, Life Time Goals, (Personalized and
organizational) Time Management Value of time, Diagnosing Time Management, Weekly
Planner to do list, Prioritizing work.
CO5. Process of Communication, written and oral communication, process of listing body
language or non-verbal communication, the art of public speaking.
CO6. Working in a team, management of conflict, interpersonal and interpersonal intergroup,
Profiles, of great personalities,
CO7. Career planning and role of career planning and role of career planning in personality
development, How to face personal interview and group discussion?
DEPARTMENT : COMPUTER SCIENCE
Course : B.Sc. (C.S) IV Sem
SUBJECT Name & Code : System ProgrammingB.Sc. (CS) 401
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand following concepts:
CO1. Machine Structure, Components Evolution, System Assembler, Loaders, Macros,
51
Compilers, Formal Systems.
CO2. General Machine Structure, Machine Language, Assembly Language, Assemblers ,General
Design Procedure, Design of assembler, Statement of Problem, Data structure, Format of
databases, algorithm.
CO3. Searching and Sorting using different algorithms
CO4. Macroinstructi0n, Features of macro facility, Macro instruction arguments, conditional
macro Expansion, macro calls within macros.
CO5. Implementation, Statement of problem, implementation of a restricted facility, A two
pass algorithm. A single pass algorithm, implementation of macro calls within macros.
CO6. Loader schemes, Compile & go, General loading Scheme, absolute loaders, Subroutine
Languages, Relocating loaders, Direct linking loaders, other loading Schemes.
CO7. Design of absolute loader, Direct linking loader Specification of problem, Specification of
data structure, format of data bases algorithm.
CO8. Simple Structure of Compiler, Brief introduction to 7 Phases of Compilers
Department : Computer Science
Course : B.Sc.(C.S) IV
Subject Name & Code: Management Information System & B.Sc. (CS) 403
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand following concepts:
CO1. Management Information Systems, leadership role, decision making
CO2. Analyze and synthesize business information systems
CO3. Process of Management: Analyze and synthesize business information and systems to
facilitate evaluation of strategic alternatives.
CO4. Cultural values, relative importance of various issues
CO5. Strategic Management of Business Quality of education
CO6. Decision Making, use that insight to make more effective decisions
CO7. Decision Support System
52
CO8. Enterprise Management Systems, Complex software within the context of business,
Distinguish between programming languages and information systems.
DEPARTMENT : COMPUTER SCIENCE
COURSE : B.Sc. (CS) IV sem
SUBJECT Name & Code : BASIC COMMUNICATION (402)
------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand following concepts:
CO1. Model of communication systems, Analysis and design of communication systems.
CO2. Transmission Media: Open wire, twisted – Pair wire, Co-Axial Cable and their applications,
Optic fibers and its applications.
CO3. Information Theory: Information in communication system, coding noise in an
information carrying channel, Shanan’s encoding algorithm
CO4. Telegraphy, Telemetry, Telephony: Basic principles of working of telegraphy, telemetry
and telephony systems.
CO5. Analog Communication Systems: Need for modulation, principles of AM, FM and PM
CO6. Pulse and Digital Communication systems: Statement of sampling theorem, PAM, PWM
and PPM techniques (only qualitative analysis)
CO7. Time Division Multiplexing; ASK,FSK, PSK and DPSK systems; principles of Pulse Code
Modulation and Delta Modulation
CO8. Cellular Telephone Satellite Networks: Cellular telephony, First generation, second
generation, GSM, Satellite networks, Orbit, Foot print, GEO, MEO, LEO
DEPARTMENT : COMPUTER SCIENCE
COURSE : B.Sc.(CS) IV
SUBJECT Name & Code : MICROPROCESSORS (B.Sc. (CS) 404)
53
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand following concepts:
CO1. Architecture and Operation
CO2. Programming the 8085
CO3. Programming techniques
CO4. Memory Interface
CO5. Interrupts
CO6. Interfacing of peripherals (I I Os) and applications
CO7. 8255 PPI, 8259 PIC, DM A and 8257 DMA controller
CO8. Serial communication using 8251.
Department : Computer Science
Course : B.Sc.(CS) IV
Subject Name & Code: Design and Analysis of Algorithm (B.Sc.(CS)405)
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand the following concept:
CO1. Algorithm, Algorithm design, Algorithm specification, Pseudo code
CO2. Time and Space complexity, Divide and Conquer method
CO3. Knapsack problem, Job Sequencing with Deadline, Minimum Cost Spanning Tree
CO4. Prim’s Algorithm, Kruskal’s Algorithm, Optimal Storage on Tapes, Optimal Merge Pattern,
Single Source Shortest Path - (Dijkstra’s Algorithm)
CO5. Dynamic Programming, Multistage Graph, All Pair Shortest Paths, Optimal Binary Search
Tree
CO6. Travelling Salesperson Problem, Flow Shop Scheduling, Binary Tree and its Traversal,
Graph Traversal, Depth First Search and Breadth First Search, AND/OR Graphs
CO7. 4-Queen Problem, 8-Queen ProblemN - Queen Problem, Graph Colouring, Hamiltonian
Cycles.
54
DEPARTMENT : COMPUTER SCIENCE
COURSE : B.Sc (CS) V SEM
SUBJECT NAME & CODE: SOFTWARE ENGINEERING (502)
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand following concepts:
CO1. Software process, Types of process models
CO2. Systems and their environment, System Procurement, System Engineering Process
CO3. Requirement Engineering Process
CO4. The Software requirement document Data flow, Semantic, Object, models, Requirement
definition, Requirement Specification, Non-functional requirement
CO5. Prototyping in software process, techniques, User interface prototyping.
CO6. Object Oriented & function oriented design
CO7. Software Reliability and reusability
CO8. Software Verification and Validation
CO9. The testing Process, Test Planning & Strategies
DEPARTMENT : COMPUTER SCIENCE
COURSE : B.Sc.(C.S)V
SUBJECT Name & Code: Operating System (B.Sc.(C.S) 501)
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand following concepts:
CO1. Introduction and types of Operating System, Process Scheduling, CPU Scheduling
CO2. Process Synchronization techniques
CO3. Deadlocks: Detection, Avoidance, Recovery, Methods of Handling Deadlocks
CO4. Memory Management: Logical and Physical address space, Swapping Contiguous
55
CO5. allocation, Paging, Segmentation
CO6. Virtual memory – Demand paging, Page Replacement algorithms, Allocation of frames,
Thrashing
CO7. File concepts, Access methods, Directory structure, Protection
CO8. FCFS, SSTF, SCAN, C-SCAN, LOOK Disk Scheduling Methods
CO9. Goals of protection, Domain protection, Access matrix security, Authentication, One time
password.
DEPARTMENT : COMPUTER SCIENCE
COURSE : B.Sc.(CS) V
SUBJECT Name & Code: DBMS(B.Sc.(C.S) 503)
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand following concepts:
CO1. Database Users, Characteristics of the Database Approach, Actors on the scene, Workers
CO2. behind the Scene, Advantages of using DBMS
CO3. Classification of Database Management Systems
CO4. Relationship sets, Roles and Structural Constraints, Weak Entity Types, ER Diagrams
CO5. Relation Model, Relational Algebra, Relational Database Design by ER and EER to
CO6. Relational Mapping
CO7. Informal Design Guidelines for Relational Schemas, Functional Dependencies
CO8. Practical experience with SQL Queries
CO9. Concurrency control techniques (Locking Techniques, time stamp ordering, Optimistic
CO10. Concurrency etc).
DEPARTMENT : COMPUTER SCIENCE
COURSE : B.Sc.(CS opt) V
SUBJECT Name & Code : VB.NET(B.Sc.(C.S) 504)
-------------------------------------------------------------------------------------------------------------------------------
56
Students are able to learn and understand following concepts.
CO1. VB.NET Features and IDE
CO2. Properties, Events and Methods of different tools
CO3. Data Types, Keywords, Variables, Constants, Enumerations, Classes, Interfaces,
Procedures
CO4. Conditional Statements Looping Statement, Arrays- Static and Dynamic.
CO5. Menus and Toolbars, Built-In Dialog Boxes:Open File, Save File, Font, Color , Print,
InputBox, MsgBox,,Interfacing with End user: MDI
CO6. Mathematical and String Functions, User Defined Functions and Procedures
CO7. Object Oriented Programming, Exception Handling, File Handling
CO8. Data Access with ADO.Net.
DEPARTMENT : COMPUTER SCIENCE
COURSE : B.Sc.(CS) V
SUBJECT Name & Code: Internet Programming (B.Sc.(C.S)505)
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand following concepts:
CO1. Constants and variables, typecasting and type conversion, Final variables.
CO2. Java Program structure, C, C++ and Java, java standalone applications.
CO3. Syntax and semantics of arrays, Strings and Vectors.
CO4. Concept of OOPs, inheritance and method overloading.
CO5. Interfaces, Packages and Threads, Multithread programming
CO6. Types of exception, Applets, HTML Tags.
CO7. Applet Programs to draw different geometric figures.
CO8. Programs that use console I/O.
DEPARMENT :COMPUTER SCIENCE
57
COURSE : B.Sc.(CS) V
SUBJECT Name & Code: Computer Networks (B.Sc.(C.S) 601)
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand following concepts:
CO1. Network Architecture, Types of Topologies, Reference model types
CO2. Transmission Media types, Types of Switching
CO3. Error detection and Error correction design issues in Datalink Layer
CO4. The channel allocation problem, multiple access protocols, Ethernet, Wireless
CO5. LAN, Bluetooth
CO6. Types of Routing algorithms, Quality of Service
CO7. Transport service, Internet transport protocols (TCP & UDP), DNS, Electronic
CO8. Mailing, and World Wide Web.
DEPARTMENT : COMPUTER SCIENCE
COURSE : B.Sc.(CS) VI Sem
SUBJECT Name & Code : Software Testing and Practices (B.Sc.(C.S)602)
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand following concepts.
CO1. Principles of Testing, Software Development Life Cycle Models
CO2. Testing Techniques
CO3. Performance testing
CO4. Common People Issues
CO5. Test Planning, Management toprovide a unique identifier for the document
CO6. Test Planning, Management to provide an overview of the test plan.
DEPARTMENT : Computer Science
58
COURSE : B.Sc.(CS) VI
SUBJECT Name and Code: .Net framework using C# (B.Sc.(C.S) 603)
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand the following concepts
CO1. Building blocks of C#(CLR,CLS,FCL),Method Parameter
CO2. Data types, Classes, Variables, Egressions
CO3. Working with Loops, Building Functions
CO4. Object oriented Programming, Working with Strings
CO5. Managing resources with the Garbage collector
CO6. Working with Nullable types, Namespaces, Stream I/O
CO7. Catching errors, Handling Errors
CO8. Understanding Arrays, Interfaces, Assemblies, Delegates.
B.C.A. COURSE OUTCOME
DEPARTRMENT : Computer Science
COURSE : BCA I
SUBJECT Name & Code : MATHS17BCA1711
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand the following concepts:
CO1: Complex Numbers; Conjugate of a complex number; modulus of a complex Number.
CO2: Geometrical representation of complex number; De Moivere’s theorem; nth roots of a
complex number.
CO3: Sequence and Series: Arithmetic Progression (A.P.), Arithmetic Mean (A.M.), Geometric
Progression (G.P).
CO4: sum of n terms of a G.P. Arithmetic and geometric series, infinite G.P. and its sum,
geometric mean (G.M.). Relation between A.M. and G.M.
CO5: Binomial Theorem: Statement of the binomial theorem for positive integral indices.
59
CO6: Quadratic Equations: Solution of Quadratic Equations by factor method, complete square
method.
CO8: Introduction to Trigonometry: Trigonometry, The theorem of Pythagoras, Trigonometric
ratios of acuteangles, Evaluating trigonometric ratios, Solution of right-angled triangles.
DEPARTMENT : COMPUTER SCIENCE
COURSE : BCA I
SUBJECT Name & Code : COMPUTER FUNDAMENTALS (17BCACOFT13)
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand following concepts:
CO1. Characteristic, evolution, generation of computer, Basic computer organization.
CO2. Number systems, Computer Codes, Computer arithmetic.
CO3. Processor and memory, Secondary storage, IO devices.
CO4. Application Software, software development, firmware, middleware.
CO5. Application software case study, MS-Word.
CO6. Overview of operating system, functions of operating system, concept of
multiprogramming.
CO7. Windows OS, Linux OS.
DEPARTMENT : COMPUTER SCIENCE
COURSE : BCA I
SUBJECT Name & Code :C PROGRAMMING (17BCAPRCT14)
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand the following concepts:
CO1. Basic concept of Computer, software and hardware devised, History
CO2.Algorithm, Flowchart, Coding, Running the program
CO3.Variables, Keywords, Identifiers, Data types, Constants
CO4. Operators, Type conversion, Mathematical functions
CO5. Decision Making and Branching, Looping Controls
60
CO6. Arrays, Functions and String handling functions
CO7. Structures and Unions.
DEPARTMENT : Computer Science
COURSE : BCA II
SUBJECT Name & Code: DATA STRUCTURES(17BCADSCT23)
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand the following concept
CO1. Pointers, Memory Management, Files, File access modes
CO2.Introduction to data structures, Primitive and Non-primitive data structure
CO3.Importance, Advantages and Disadvantages, Types of data Structure
CO4.Stack, Uses of stack, Infix, Prefix and Postfix conversions
CO5.Queue, Double ended queue, Circular queue and Priority queue
CO6.Linked List, Double ended Linked List, Circular Linked List,
CO7. Linear and Binary Searching, Bubble sort, Insertion sort, Selection sort, Quick sort, Merge
Sort.
DEPARTMENT : COMPUTER SCIENCE
COURSE : BCA II SEM
SUBJECT Name & Code : DIGITAL LOGIC&COMPUTER DESIGN (17BCADLCT24)
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand following concepts:
CO1. Conversion of number systems.
CO2. Laws of Boolean algebra & axioms along with canonical & standard forms.
CO3. Concepts of map method- two variable, three variables & four variable k-map
CO4.Designing of NAND & NOR exclusive OR GATE with the help of basic Gates
CO5. Binary adder, subtractor, binary multiplier & Decoder functions
CO6.Identify the difference of various Flip-flop understand the registers & counters.
CO7.Identify the difference between RAM & ROM
CO8. Error detection code.
61
DEPARTMENT : COMPUTER SCIENCE
COURSE : BCA III
SUBJECT Name &Code : Discrete Mathematical Structures (17BCADMST31)
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand following concepts:
CO1.Statements and notations of Mathematical Logic
CO2. Set Theory
CO3. Pigeonhole principle
CO4. Definition, properties of binary relations in a set
CO5. Algebraic Systems
CO6. Combinations and permutations
CO7.Graph Theory
CO8. Trees and their properties.
DEPARTMENT : COMPUTER SCIENCE
COURSE : BCA III
SUBJECT Name & Code : OBJECT ORIENTEDPROGRAMMING USING AVA(17BCAOOPT32)
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand following concepts:
CO1. Constants and variables, typecasting and type conversion, Final variables.
CO2. Java Program structure, C, C++ and Java, java standalone applications.
CO3. Syntax and semantics of arrays, Strings and Vectors.
CO4. Concept of OOPs, inheritance and method overloading.
CO5. Interfaces, Packages and Threads, Multithread programming
CO6. Types of exception, Applets, HTML Tags.
CO7. Applet Programs to draw different geometric figures.
CO8. Programs that use console I/O.
DEPARTMENT : COMPUTER SCIENCE
COURSE : BCAIII
SUBJECT Name & Code : Operating System Principles (17BCARDBT34)
62
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand following concepts:
CO1.Introduction and types of Operating System, Process Scheduling, CPU Scheduling
CO2.Process Synchronization techniques
CO3.Deadlocks: Detection, Avoidance, Recovery, Methods of Handling Deadlocks
CO4. Memory Management: Logical and Physical address space, Swapping Contiguous
allocation, Paging, Segmentation
CO5.Virtual memory – Demand paging, Page Replacement algorithms, Allocation of frames,
Thrashing
CO6.File concepts, Access methods, Directory structure, Protection
CO7.FCFS, SSTF, SCAN, C-SCAN, LOOK Disk Scheduling Methods
CO8.Goals of protection, Domain protection, Access matrix security, Authentication, One time
password.
DEPARTMENT : COMPUTER SCIENCE
SEMESTER : BCA III
SUBJECT Name & Code : DC & CN (17BCARDCM35)
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand following concepts:
CO1.Communication Networks and Services, Network Functions and Topology,
Layered Architecture and Applications.
CO2. Digital representation of information, Nyquist signaling rate and Shannon
Channel capacity, Line Coding, Modems and digital modulation.
CO3. Properties of Media and Digital transmission systems, Error Detection and
Correction, Multiplexing techniques.
CO4. Peer-to-Peer protocols and Service Models, Sliding Window Flow Control, Data
link Controls – HDLC, PPP.
CO5. Multiple Access Communications, Random Access Protocols- ALOHA, Slotted
ALOHA, CSMA, CSMA/CD.
CO6. Scheduling Approaches to Medium access control – Reservation Systems,
Polling, Token Passing Rings; Channelization – FDMA, TDMA,CDMA
63
CO7. LAN Standards- IEEE 802.3 (Ethernet), IEEE 802.11(Wireless LAN), LAN Bridges.
DEPARTMENT : Computer Science
COURSE :BCA IV
SUBJECT Name & Code: DESIGN AND ANALYSIS OF ALGORITHM (17BCADAAT42)
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand the following concept:
CO1. Algorithm, Algorithm design, Algorithm specification, Pseudo code
CO2. Time and Space complexity, Divide and Conquer method
CO3. Knapsack problem, Job Sequencing with Deadline, Minimum Cost Spanning Tree
CO4. Prim’s Algorithm, Kruskal’s Algorithm, Optimal Storage on Tapes, Optimal Merge Pattern,
Single Source Shortest Path - (Dijkstra’s Algorithm)
CO5. Dynamic Programming, Multistage Graph, All Pair Shortest Paths Optimal Binary Search
Tree
CO6. Travelling Salesperson Problem, Flow Shop Scheduling, Binary Tree and its Traversal,
Graph Traversal, Depth First Search and Breadth First Search, AND/OR Graphs.
CO7. 4-Queen Problem, 8-Queen ProblemN - Queen Problem, Graph Colouring Hamiltonian
Cycles.
DEPARTMENT : COMPUTER SCIENCE
COURSE : BCA IV
SUBJECT Name &Code : ADVANCED COMPUTER NETWORKS AND SECURITY(17BCACNST43)
-------------------------------------------------------------------------------------------------------------------------------
Students are able to learn and understand following concepts:
CO1. OSI reference Model and TCP/IP reference model
CO2. Basic structure of networks and physical topologies
CO3. Algorithms are used to specify the information
CO4. Routers are specified to transfer of data form source to destination
CO5. Protocols TCP, SMTP and UDP
CO6. Realization of network through different networks
CO7. Security of network through encryption and decryption and some algorithms.
64
DEPARTMENT : COMPUTER SCIENCE
COURSE : BCAIV
SUBJECT Name & Code : ADVANCED JAVA (17BCAAJAT44)
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Students are able to learn and understand following concepts:
CO1.Applet Lifecycle, Advantages, types
CO2.GUI Components and Interfaces
CO3.Event Source, Classes, Listener, Swing key features, Swing Buttons
CO4.Overview of JDBC. Driver types and Database, Transaction Processing; Metadata
CO5. The Life Cycle of a Servlet, Packages, Reading Servlet Parameters
CO6. Handling HTTP
CO7.Java Networking classes, FTP, JavaBeans Introduction
DEPARTMENT : COMPUTER SCIENCE
COURSE : BCAV
SUBJECT Name & Code : OPERATING SYSTEM (14BCAOPST51)
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Students are able to learn and understand following concepts:
CO1.Introduction and types of Operating System, Process Scheduling, CPU Scheduling
CO2.Process Synchronization techniques
CO3.Deadlocks: Detection, Avoidance, Recovery, Methods of Handling Deadlocks
CO4. Memory Management: Logical and Physical address space, Swapping Contiguous
allocation, Paging, Segmentation
CO5.Virtual memory – Demand paging, Page Replacement algorithms, Allocation of frames,
Thrashing
CO6.File concepts, Access methods, Directory structure, Protection
CO7.FCFS, SSTF, SCAN, C-SCAN, LOOK Disk Scheduling Methods
CO8.Goals of protection, Domain protection, Access matrix security, Authentication, One time
password.
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DEPARTMENT : Computer Science
COURSE : BCA V Sem
SUBJECT Name & Code : WEB TECHNOLOGY (14BCAWEBT52)
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Students are able to learn and understand concepts:
CO 1: Basic text markup, Images, Hypertext: Programming techniques.
CO 2: Overview of Javascript, Syntactic characteristics: web services to transfer data
CO 3: ASP.NET File types in ASP.NET 3.5 Exploring to design websites
CO 4: Web Forms ControlsCreate a Web form with server controls
CO 5: Data Access with ADO.NET IntroducingBuilding multi-tier enterprise applications,
Introduction to the .NET framework.
CO 6: Data Access with ADO.NET IntroducingASP.NET Web services and web service security.
CO 7: Data Access with ADO.NET IntroducingSoftware as a Service (SaaS).Cross-Platform Mobile
Application Development with HTML5 and PhoneGap
DEPARTMENT : COMPUTER SCIENCE
COURSE : BCA V
SUBJECT Name & Code : DBMS (14BCADBMT53)
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Students are able to learn and understand following concepts:
CO1. Database Users, Characteristics of the Database Approach, Actors on the scene, Workers
behind the Scene, Advantages of using DBMS
CO2. Classification of Database Management Systems
CO3. Relationship sets, Roles and Structural Constraints, Weak Entity Types, ER Diagrams
CO4. Relation Model, Relational Algebra, Relational Database Design by ER and EER to
Relational Mapping
CO5. Informal Design Guidelines for Relational Schemas, Functional Dependencies
CO6. Practical experience with SQL Queries
CO7. Concurrency control techniques (Locking Techniques, time stamp ordering, Optimistic
Concurrency etc).
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DEPARMENT : COMPUTER SCIENCE
COURSE : BCA V
SUBJECT Name & Code : COMPUTER NETWORKS (14BCACONT54)
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Students are able to learn and understand following concepts:
CO1. Network Architecture, Types of Topologies, Reference model types
CO2. Transmission Media types, Types of Switching
CO3. Error detection and Error correction design issues in Datalink Layer
CO4.The channel allocation problem, multiple access protocols, Ethernet, Wireless LAN,
Bluetooth
CO5. Types of Routing algorithms, Quality of Service
CO6. Transport service, Internet transport protocols (TCP & UDP), DNS, Electronic Mailing, and
World Wide Web.
DEPARTRMENT : Computer Science
COURSE : BCA V
SUBJECT Name and Code : .NET FRAMEWORK USING C# (14BCANETT55)
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Students are able to learn and understand the following concepts
CO1.Building blocks of C#(CLR,CLS,FCL),Method Parameter
CO2. Data types, Classes, Variables, Egressions
CO3.Working with Loops, Building Functions
CO4. Object oriented Programming, Working with Strings
CO5. Managing resources with the Garbage collector
CO6. Working with Nullable types, Namespaces, Stream I/O
CO7. Catching errors, Handling Errors
CO8. Understanding Arrays, Interfaces, Assemblies, Delegates
DEPARTMENT : COMPUTER SCIENCE
COURSE : BCA VI
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SUBJECT Name & Code : SOFTWARE TESTING AND PRACTICES (14BCASPTT61)
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Students are able to learn and understand following concepts.
CO1: Principles of Testing, Software Development Life Cycle Models
CO 2: Testing Techniques
CO 3: Performance testing
CO 4: Common People Issues
CO 5: Test Planning, Management toprovide a unique identifier for the document
CO 6: Test Planning, Management to provide an overview of the test plan
DEPARTMENT : COMPUTER SCIENCE
SEMESTER : BCA VI
SUBJECT Name & Code: BUSINESS INTELLIGENCE (14BCABINT62)
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Students are able to learn and understand following concepts:
CO1.Business Enterprise Organization, Key purpose of using IT in business, Types
of digital data.
CO2. BI, EIS, MIS, OLAP, OLTP, Compare and contrast OLAP and data mining as
techniques for extracting knowledge from a data warehouse.
CO3. BI component Framework, BI roles and responsibilities, data Warehouse,
Data Quality.
CO4. ODS, Data integration, Data integration technologies.
CO5. Data Modelling techniques, Dimensional Modelling Life cycle,high-level
understanding of major DBMS components and their function.
CO6. Reporting perspectives common to all levels of Enterprise,Report
Standardization and Presentation practices.
CO7. Intercultural dimensions of management,legal and ethical principles in business.
DEPARTMENT : COMPUTER SCIENCE
COURSE : BCAVI
SUBJECT Name & Code : J2EE (14BCAJ2ET63)
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Students are able to learn and understand following concepts:
CO1. Swing key features, Swing Buttons
CO2.Overview of JDBC. Driver types and Database
CO3. Transaction Processing; Metadata; Data types; Exceptions
CO4. The Life Cycle of a Servlet using Tomcat Server
CO5. Handling HTTP Requests and Responses using Cookies, Session Tracking
CO6. Lifecycle of JSP, JSP Tags, Tomcat, Request String, User Sessions, Cookies, Session Objects.
CO7.Networking Basics, Classes and Interfaces, INET Address, TCP/IP Client Sockets, Server
Sockets, URL Connection, Java Remote Method Invocation concept, Server side, Client
side.
CO8. Enterprise Java Beans: Introduction and types, The JAR File.
M.Sc. Chemistry – Course Outcomes
Semester - I
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Course Code and Name:- CHIT-1.1: Inorganic Chemistry-I
Students should be able to learn and apply following concepts:
CO1. Types of bonds existing in the nature, theories of bonding and applications
CO2. Study of various compounds of non transition elements –properties, reactions
CO3. Industrial applications of non transition compounds.
CO4. Bonding theories and the geometries of different coordination compounds .
CO5. Structure, properties, classification, synthesis, and binding modes of different Pi acid
metal complexes .
CO6. Various theories which explain the concepts of acids and bases and it’s types.
CO7. Acidic and basic properties of various compounds
CO8. Factors effecting the acid base strength and their applications, HSAB theory
Course Code and Name:- CHOT-1.2: Organic Chemistry - I
Students should be able to learn and apply following concepts:
CO1. Basics of Organic Chemistry like hybridization, electronic effects
CO2. Structure, stability, formation of reactive intermediates
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CO3. Methods of determining the reaction mechanism – Kinetic and non-kinetic methods
CO4. Mechanisms, regioselectivity, stereochemistry and applications of addition of Ionic
reagents to alkene
CO5. The mechanisms, applications of Addition of oxygen, nitrogen and sulfur
nuclephiles to carbonyl group
CO6. Mechanism, regioselectivity, stereochemistry of Elimination (E1, E2, E1cB) reactions
CO7. Mechanism, factors affecting, applications of Substitution reactions.
CO8. Concept of chirality, chiral structures, relative configuration-Fischer’s DL notation
CO9. Threo and erythro nomenclature and 3 absolute configurations-R,S nomenclature
Sawhorse, Newman, Fischer and fly wedge formulae
CO10. Enantiomers, epimers, anomers ,recemic mixtures and resolution
CO11. New methods of asymmetric synthesis and Enantio selective synthesis and
diastereo selective synthesis
CO12. Geometrical isomerism in substituted alkenes, oximes, monocyclic and fused and
bridge ring system.
Course Code and Name:- CHPT-1.3: Physical Chemistry-I
Students should be able to learn and apply:
CO1. Comparative studies between classical and quantum theory
CO2. Application of equation to one dimension box.
CO3. Basic principles of thermodynamics (I and II laws of thermodynamics), concept of free
energy and entropy.
CO4. Electrolytic solutions, strong electrolytes, ionic atmosphere. Relaxation and
electrophoretic effects,
CO5. Fundamentals of batteries, classification of batteries, size of batteries, battery
characteristics,
CO6. Monomers, polymers and degree of polymerization.
Polymer molecular weight: Number average and weight average molecular weights.
CO7. Nano particles. One dimention, two dymention, three dymention and quantum dots.
Synthesis: Chemical vapour transportor (CVT) and sol-gel methods.
Course Code and Name:- CHGT-1.4: Spectroscopy –I
Students should be apple to understand and apply
CO1. Principles of microwave (rotational) spectroscopy
CO2. UV-Vissible spectroscopy – Principles and instrumentation, applications
CO3. Principles and applications of Raman Spectrsocopy
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CO4. Principles, instrumentation, applications of IR (vibrational) spectroscopy.
Course Code and Name:- CHES-1.5 : Analytical Chemistry
Students should be able to understand and apply
CO1. Classifications of analytical methods, types of errors and analysis
CO2. Various techniques of chromatography, principles and applications
CO3. Separations techniques and solvent extraction methods
CO4. Thermoanalytical techniques – types, principles and applications
CO5. Principles and applicationsns of electro analytical techniques
Semester II
-------------------------------------------------------------------------------------------------------------------------------
Course Code and Name:- CHIT-2.1: Inorganic Chemistry-II
Students should be able to understand, define and apply CO1. Symmetry element and symmetry operations in molecules with different types.
CO2. Concepts of group theory ,and its application.
CO3. Reaction kinetics and types of reaction mechanisms in co-ordination complexes.
CO4. Types , properties structural studay of different solids,
CO5. Various Types of imperfections in solids.
CO6. Structural transformations of solids (solid solutions and alloys),applications.
CO7. Basic concepts , Principles, definitions, of nuclear chemistry,
CO8. Types of nuclear reactions, nuclear reactors, applications of nuclear reactions.
CO9. Effects of radiation and interaction of radiations with matter and industrial
applications
Course Code and Name:- CHOT-2.2: Organic Chemistry-II
Students should be able to understand and apply: CO1. Mechanism and applications of named reactions: C-C bond, C-N , C-O and C-Cl bond
forming reactions CO2. Applications of these named reactions in Organic Synthesis
CO3. Properties various oxidising and reducing agents
CO4. Applications of various oxidizing and reducing reagents / reactions in organic synthesis
CO5. Classifications and principles of various rearrangement reactions
CO6. Mechanism, applications of rearrangement reactions with examples
CO7. Physical and chemical properties of 3,4,5,6 and 7 membered Heterocyclic compounds
CO8. Synthesis and reactions of 3,4,5,6 and 7 membered Heterocyclic compounds
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Course Code and Name:- CHPT - 2.3 : Physical Chemistry-II
Students should be able to learn and apply: CO1. Systematic definition of thermodynamic potentials as the general formalism of
thermodynamics.
CO2. Overview of foundations of equilibrium statistical physics as the microscopic theory of
matter and fields
CO3. Application of variation method to hydrogen molecule, ion
CO4. Orbital diagram need for variation methods.
CO5. Perturbation theory, first and second order perturbation theory and its application to
linear harmonic oscillator.
CO6. Analyze experimental data and draw appropriate conclusions from data and
chemistry theories.
CO7. theories for photoinduced electron transfer and excitation energy transfer, and apply
these methods in quantitative calculations.
Course Code and Name:- CHGT - 2.4: Molecular Spectroscopy-II
Students should be able to learn and apply
CO1. Principles and instrumentations of NMR and Mass spectrometry.
CO2. NMR active nucei – principles behind it, Instrumentation: FT-NMR
CO3. Spin-spin coupling, internal reference standard, factors affecting shielding and
shielding
CO4. Magnetic anisotropy effect and NOE effect – applications,
CO5. 13C-NMR-Principles and applications. Distinguish between PMR and CMR
CO6. Principles and Applications of 2D NMR – COSY, NOE etc
CO7. Mass spectroscopy – principles, various instrumentations and methods,
McLafferty rearrangement
CO8. Fragmentation patterns – aldehydes, ketones, alcohols, alkanes, esters, aromatics,
CO9. Structural elucidations of organic compounds using UV, IR, NMR, Mass spectral
data.
Semester III
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Course Code and Name:- CHIT- 3.1: Inorganic Chemistry- III
Students should be able to understand, define and apply:
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CO1. Microstates, R-S coupling, term symbols for dn ions, spectroscopic ground states,
CO2. Types of electronic spectra, Orgel diagrams, Tanabe-Sugano diagrams–
characteristics.
CO3. charge transfer bands-origin, types, and characteristics and magnetic properties of
transtition metal complexes.
CO4. Chemistry and Classification of organometallic compounds,
CO5. Fluxional behavior of organometallic and catalysis:
CO6. storage and transport of metal ions, Electron transfer proteins
CO7. Structure and function of different bi metals , metallo enzymes, model compounds
CO8. Interaction of transition metal complexes with DNA.
CO9. Chelation theorephy Chlorophyll and photosynthesis.
CO10. Storage,transport of O2 and Synthetic oxygen carriers.
Course Code and Name:- CHOT-3.2 : Organic Chemistry – III
Students should be able to learn and apply:
CO1. Structure, property, applications of various reagents in organic synthesis
CO2. Interaction of radiation with organic molecules, excitation, rate of excited
molecules. Quenching, quantum efficiency, transfer of excitation energy, actinometry.
CO3. experimental methods in photochemistry of carbonyl compounds, and transition,
Norrish type I and Norrish type II reactions Paterno–Buchi reaction,
CO4. Hofmann-Loefler-Freytag reaction, photochemistry of vision
CO5. Photochemistry of many organic reactions
CO6. About Pericyclic Reactions, Electrocyclic reactions, Cycloadditions reactions,
Sigmatropic rearrangements
CO7. Concepts and basics of medicinal chemistry, types of drugs concept of drug receptor,
elementary treatment of drug receptor interactions, theories of drug and
classification
CO8. Introduction, classification, synthesis of Sulphonamides, Antimalarials, Analgesics,
Anti-inflammatory
Course Code and Name:- CHPT-3.3 : Physical Chemistry-III
Students should be able to learn and apply:
CO1. BET isotherm, LB film, membrane equilibrium.
CO2. Micellisation, catalytic activity, surface active agent.
CO3. Fullerens, other Bulkyballs.
CO4. Carbon nano-tubes
CO5. Application of nano materials.
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CO6. Rice-Herzfeld mechanism with example(CH3CHO).
CO7. Mechanism of breaking chain reaction.
CO8. Transition in Polymers
CO9. Thermal behavior of amorphous and crystalline polymers.
CO10. Factors affecting Tg. Plasticizers, properties and their effect on Tg of PVC
Course Code and Name:- CHGT-3.4: Spectroscopy –III
Students should be able to understand and apply
CO1. Infrared spectra of simple molecules and coordination compounds
CO2. Multiplicity in ESR, hyperfine splitting, g-value and factor affecting
CO3. Rules for interaction of spectra, zero field splitting and Krammer’s degeneracy
CO4. Nuclear quadrapolar charge distribution-theory and instrumentation.
CO5. Structural information from NQR spectra.
CO6. Theory and principles, experimental methods of Mossbauer spectroscopy.
CO7. Isomer shift, quadrapole interactions, electron density, magnetic interactions;
time and temperature dependent effect.
CO8. Applications of Mossbauer spectroscopy
Semester – IV
------------------------------------------------------------------------------------------------------------------------------ Course Code and Name:- CHIT-4.1 : Inorganic Chemistry – IV Students should be able to learn and apply:
CO1. Non aqueous solvents, classification and properties ,
CO2. Types of reactions and Chemistry of f-block metals.
CO3. Classification , characterstics analysis, of fuels.
CO4. Metal hydrides and Carbides, silicone polymers.
CO5. Conductors, insulators, semiconductors, Super conductors - electrical
properties
CO6. Ionic conductivity, Solid electrolytes, and applications.
CO7. Magnetic properties and Optical properties.
CO8. New Materials: Organic conducting Polymers, Lquid crystals.
Course Code and Name:- CHOT-4.2 : Organic Chemistry- IV
Students should be able to learn and apply:
CO1. Designing the synthesis based on disconnection approach, functional group inter-
conversions, importance and applications of protecting groups
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CO2. Ring size determination, configuration and conformations of monosaccharides,
synthesis, industrial and biological importance of glycosides and amino sugars
CO3. Structure, properties of Polypeptides and Proteins, Use of blocking agents, Bruce-
Merrifield synthesis of polypeptides.
CO4. Components of nucleic acids, structures and synthesis of nucleosides and
nucleotides,
CO5 Watson-Crick model of DNA, role of DNA and RNAs in protein
synthesis, genetic code-salient features..
CO6. Alkaloids and Terpenoids - Classification, methods of isolation from plants
CO7. Methods of structural elucidation and synthesis of Alkaloids, Terpenoids
CO8. Definition, Classification and biological importance, synthesis of vitamin C
from D(+)-Glucose, synthesis of vitamin A.
CO9. Diels hydrocarbon- its importance, synthesis and structural elucidation of
cholesterol-Blanc’s rule,
CO10. Classification, synthesis and biological importance of PGE, Synthesis.
CO11. Classification, structure, synthesis and importance of Antibiotics.
Course Code and Name:- CHPT- 4.3 : Physical Chemistry-IV
Students should be able to;
CO1. Explain the meanings of the newly defined (emboldened) terms and symbols, and
use them appropriately.
CO2. Distinguish between perfect conduction and perfect diamagnetism, and give a
qualitative description.
CO3. Discuss the nature of magnets, particularly with reference to poles.
CO4. Calculate of energy and entropy changes for changes of state.
CO5. Predict properties of phase equilibria for one and two component systems, such as
the temperature and pressure dependence of vapour pressure and boiling point.
CO6. Recognize, through direct observation, that elements have unique line spectra.
Include: flame tests or gas discharge tubes and spectroscopes or diffraction gratings.
CO7. Describe applications and/or natural occurrences of line spectra. Examples:
astronomy, aurora borealis, fireworks, neon lights.
CO8. Describe the standard hydrogen electrode and state it’s function.
CO9. Apply standard reduction potential data to calculate the standard cell potential for
an electrochemical cell and from the sign of the potential predict if the cell is voltaic
or electrolytic.
CO10. Calculate the cell potential for a nonstandard cell.
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CO11. Identify the differences and similarities of the three types of batteries.
CO12. Know the chemical reactions used in a lead-acid battery.
Course Code and Name:- CHGT-4.4: Spectroscopy –IV
Students should be apple to understand and apply
CO1. Introduction, principles, flames and flame spectra
CO2. Cotton effect curves, application of optical rotation method in the determination of
rate constants
CO3. Applications. ORD in the determination of configuration of cyclic and steroidal
ketones.
CO4. Fluorescence instrumentation-fluorometers and spectrofluorometers. Sensitivity and
selectivity.
CO5. Photoelectron spectra of simple molecules, X-ray photoelectron and Auger electron
spectroscopy, and applications.
M.Sc. Physics - Course outcomes
Semester – I
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Course Code and Name:- 16MScPHCT11 & Mathematical Methods of Physics
Students should be able to understand apply following concepts:
CO1. Separate the Helmholtz equation in Cartesian, circular cylindrical and spherical polar
coordinates
CO2. Explain Vector spaces and subspaces
CO3. Know the procedure of Gram-Schmidt orthogonalization
CO4. Find Eigenvalues and eigenvectors of matrices
CO5. Derive Fourier Transform and Green’s function in higher dimension
Course Code and Name:- 16MScPHCT12 & Classical Mechanics
Students should be able to:
CO1. Define constraints and its classification.
CO2. explain the general features of motion.
CO3. Differentiate elastic and inelastic scattering in a central force field
CO4. Derive the equations of motion and first integrals.
CO5. Obtain Hamilton-Jacobi equation by applying Hamilton’s principle.
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Course Code and Name:- 16MScPHCT13 & Nuclear and Particle Physics Students should be able to: CO1. Understand the nuclear matter radius and charge radius. CO2. Explain the concept of neutron scattering. CO3. Solve the problems on Binding energy and Separation energy. CO4. Discuss the concept different types of nuclear reactions. CO5. Recognise the condition for chain reaction. CO6. Derive the four factor formula.
Course Code and Name:- 16MScPHCT41 & Condensed Matter Physics Students should be able to:
CO1. Understand the basic concept of crystal structure.
CO2. Illustrate Born-Mayer Model.
CO3. Evaluate Madelung Constant.
CO4. Describe theories of Einstein and Debye models.
CO5. Compare the properties of magnetic materials.
CO6. Give complete idea about defects in solids.
CO7. Solve problems on electrical conductivity and mobility.
Course Code and Name:- 16MScPHCT51 & Instrumentation
Students should be able to:
CO1. Structural and composition of sample by using XRD, AFM, STM, EELS, TEM and SEM.
CO2. Optical spectroscopic and Raman spectroscopy with instrumentation like FTIR, IR and
fundamentals of SERS.
CO3. Electrical and thermal measurements like AC and DC electrical conductivity
measurements as function of temp. and frequency.
CO4. Basic structural and instrumentation of TGA and DSC.
CO5. Nuclear detectors NaI(Tl) like gamma ray spectroscopy
Semester - II
------------------------------------------------------------------------------------------------------------------------------ Course Code and Name:- 16MScPHCT21 & Quantum Mechanics Students should be able to:
CO1. Understand about the operators and operators operation on the wave function.
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CO2. Understand the Hydrogen atom in quantum level.
CO3. Find out the Eigen values and Eigen functions as well as energy of Hydrogen atom and
hydrogen like particles.
CO4. Know the phase analysis and significance of partial waves and phase shipts.
CO5. Understand the Born approximation and derive the equation for scattering cross
section.
Course Code and Name:- 16MScPHCT22 & Atomic and Molecular Optical Physics Students should be able to:
CO1. Understand and apply LS and JJ coupling.
CO2. Write the spectral terms for equivalent and nonequivalent electron atom.
CO3. Illustrate hyperfine structure of hydrogen atom.
CO4. Analyze alkali type spectra..
CO5. Illustrate Einstein coefficients.
CO6. Know properties of Laser beam
CO7. List the applications of laser.
Course Code and Name:- 16MScPHCT23 & Electronics
Students should be able to : CO1. Understand the meaning of depletion region, junction potential and capacitance CO2. Develop pn junction and study their characteristics CO3. Know the FET characteristics which act as an amplifier CO4. Understand the basic structure and operation of JFET and MOSFET. CO5. Use the basic troubleshooting rules of digital systems.
CO6. Deduce from observed results the faults of malfunctioning combinational circuits.
CO7. Describe the fundamental idea of programmable logic devices (PLDs).
Course Code and Name:- 16MScPHCT24 & Material Science
Students should be able to: CO1. Understand the meaning of materials, levels of structure. CO2. Classify the materials on the basis of their structure and properties. CO3. Obtain the structure-property relationship in materials. CO4. Know the different types of materials. CO5. Get the advancement of crystal growth CO6. Elaborate different kind of techniques/methods to be used to make crystal growth. CO7. Demonstrate the graphical representation of solid, liquid and vapour phase. Semester - III
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Course Code and Name:- 16MScPHCT31 & Statistical Mechanics
Students should be able to:
CO1. Discuss random walk problems and probability
CO2. Explain statistical formulation
CO3. Explain calculation of thermodynamic quantities
CO4. Understand ensemble representation
CO5. Illustrate heat reservoir
CO6. Discuss application of canonical distribution
CO7. Derive Gibb’s paradox
Course Code and Name:- 16MScPHCT32 & Classical Electrodynamics
Students should be able to:
CO1. Get the knowledge of basic laws of electrostatics and those in the vector notation. CO2. Solve the problems on potential by using basic laws of electrostatics. CO3. Solve the problems on energy and potential by using method of images. CO4. Understand the dipole-dipole interaction mechanism. CO5. Find the potential by using multipole expansion phenomenon. CO6. See the changes in the basic laws of electrostatics after introducing dielectric material. CO7. Understand the phenomenon of polarization, electric displacement, Molecular
Polarizability - modes and electric susceptibility. Course Code and Name:- 16MScPHCT33 & Nuclear Physics-I
Students should be able to: CO1. Charge distribution in nuclei and nucleons by electron scattering experiment. CO2. Derive the expression for axial quadrapole moment of spheroidal nucleus. CO3. Discuss the Gell-Mann and Nishijima formula..
CO4. Classify the Different types of quarks CO5. Discuss the quark model. CO6. Explain quark dynamics. CO7. Discuss the GUT theory.
Course Code and Name:- 16MScPHCP33a & Condensed Matter Physics – I
Students should be able to:
CO1. Understand the periodic structure of crystal, reciprocal lattice and its properties. CO2. Find out the number of states in the band. CO3. Get the knowledge of Bloch theorem, Brillourin zone. CO4. Derive Boltzman-Transport equation.
CO5. Illustrate Thermoelectric effects
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CO6. Calculate relaxation time.
CO7. Explain scattering by impurities in lattice vibrations.
Semester - IV
------------------------------------------------------------------------------------------------------------------------------
Course Code and Name:- 16MScPHCT41 & Quantum Mechanics
Students should be be able to:
CO1. Understand the concept of Vectors in Hilbert space, dual Hilbert space
CO2. Discuss bra and ket vectors
CO3. Derive Orthogonality and normalization condition of vectors
CO4. Illustrate Hermitian operators and reality of Eigen values
CO5. Discuss the variational method
CO6. Summarize ideas about the ground state of helium atom.
CO7. Derive The Klein – Gordon equation.
Course Code and Name:- 16MScPHCT42 & Advanced Mathematical Methods in Physics
Students should be able to:
CO1. Know the basic concepts of linear algebra
CO2. Solve the Eigen values of a symmetric tridiagonal matrix
CO3. Solve the Eigen values and Eigen vectors problems which are appeared in NET and K-
SET exams
CO4. Understand basic of matrices
CO5. Explain Vector spaces and subspaces
CO6. Know the procedure of Gram-Schmidt orthogonalization
CO7. Find Eigenvalues and eigenvectors of matrice
Course Code and Name:- 16MScPHST43 & Condensed Matter Physics – II
Students should be able to:
CO1. Get the knowledge of real band structure of pure semiconductors.
CO2. Find the direct and indirect band gap.
CO3. Find the electrical conductivity and mobility equations with temperature dependence
and scattering mechanism.
CO4. Find out the diffusion equation and diffusion lenghth equation.
CO5. Understand the Hall effect in metals,semiconductors.
CO6. Get the knowledge about the GMR,CMR.
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Course Code and Name:-. 16MScPHST44 & Condensed Matter Physics – III Students should be able to:
CO1. Recognize the space charge region in p-n junction in equilibrium
CO2. Understand the barrier potential of p-n junction
CO3. Solve the problem on barrier thickness, contact field and junction capacitance
CO4. Differentiate the Recombination current and Generation current
CO5. Discuss current voltage relation, saturation current and continuity equation
CO6. Explain semiconductor diodes
CO7. Able to construct and design the MOSFET
Course Code and Name:- 16MScPHST43 & Nuclear and Particle Physics – II Students should be able to:
CO1. Understand the properties and evidences of nuclear shell model.
CO2. Calculate the energy eigen values for the shell model, using the infinite square well
potential.
CO3. Arrive at the energy levels of a nucleus based on the shell model by assuming that the
nucleon moves in a simple harmonic oscillator potential.
CO4. Calculate the Spin and parity for odd A nuclei using nordheim’s rule.
CO5. Understand the concept of nucleons outside the core O18 spectrum for two particles in
d5/2orbit in the d5/2-s1/20 orbits.
CO6. Discuss the concept on configuration mixing.
Course Code and Name:- 16MScPHST44 & Nuclear and Particle Physics-III Students should be able to:
CO1. Understand the process of Nuclear fission and fusion reactions
CO2. Explain the nuclear shell model on the basis of liquid drop model.
CO3. Demonstrate Strutinsky’s procedure for the shell correction
CO4. Explain the properties of fast and slow neutrons
CO5. Know how to slow down fast neutrons to thermal neutrons
CO6. Demonstrate the polarizability of gamma radiation
CO7. Explain the classification of Scintillator
M.Sc. Computer Science
M.Sc. Computer Science - Course Outcomes
Semester I
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Course Code and Name:- 16MScCS11 & Discrete Mathematics
Students should be able to: CO1. Understand the Sets and Logic: Conditional propositions and logical equivalence
CO2. Understand the proofs of mathematical systems, direct proofs ,mathematical
induction. CO3. Identify the relational database, partially ordered sets.
CO4. Define the functions of algebra.
CO5. Understand the problems on Number theory,divisors
CO6. Define the Euclidean algorithm.
CO7. Understand the problems on Counting Methods and the Pigeonhole Principle
CO8. Understand the problems on permutations and combinations, algorithms for
generating permutations and combinations
CO9. Define the concept of The Pigeonhole Principle
CO10. Define the Graphs concept like Paths and Cycles, Hamiltonian Cycles and the
CO11. Traveling Salesperson problem, a shortest-path algorithm, representations of
graphs, isomorphisms of graphs CO12. Define the semigroups and groups, product and quotients of semi groups
Course Code and Name:- 16MScCS12 & Digital Logic and computer Design
Students should be able to understand apply following concepts: CO1. How system is designed with logic gates .
CO2. Logically system perform specific operation.
CO3. Digital System converts signals from one system to another systems.
CO4. Digital system is designed in modular fashion.
CO5. Computation of information is varying speed depend on system .
CO6. Which takes inputs form various external inputs and logic gates process inputs
and produces outputs . CO7. In digital system the Memory does some operation on data.
CO8. Which combines circuits to transfer of information .
CO9. It organizes peripheral devices for communication.
CO10. Architecture of system is reliable and efficiency.
Course Code and Name:- 16MScCS13 & C-Programming
Students will be able to understand and apply the following concepts. CO1. Identifiers, variables, expressions
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CO2. Keywords, data types, constants,
CO3. Scope and life of variables
CO4. Storage Class specifier – Auto, Extern, Static
CO5. Register. Single and multidimensional arrays
CO6. Array declaration and Initialization
CO7. Array as function arguments
CO8. Pointers, pointers V/s arrays
CO9. Pointer to functions, function returning pointers
Course Code and Name:- 16MScCS14 & System Software
Students will be able to understand and apply the following concepts.
CO1. Machine architecture and simplified instructional set computers.
CO2. Assembler designing and their Functions.
CO3. Loader designing Functions and features. Along with Machine-Independent Loader
Features
CO4. Apprehends about Basic Macro Processor Functions, Machine-Independent Macro
Processor Features and Macro Processor Design Options.
CO5. Makes complete understanding of Basic Compiler Functions, Machine-Dependent
Compiler Features, Machine-Independent Compiler Features, Compiler Design Options
Course Code and Name:- 16MScCS15 & Data Structures
Students will be able to understand and apply the following concepts. CO1. Students develop knowledge of basic data structures for storage and retrieval of
ordered or unordered data.
CO2. Data structures include: arrays, linked lists, binary trees, heaps, and hash tables.
CO3. Students develop knowledge of applications of data structures including the
ability to implement algorithms for the creation, insertion, deletion, searching, and
sorting of each data structure.
CO4. Students learn to analyze and compare algorithms for efficiency using Big-O
notation.
CO5. Students implement prorammes requiring the implementation of the above data
structures.
CO6. Efficient storage mechanisms of data for an easy access.
CO7. Design and implementation of various basic and advanced data structures.
CO8. Introduction of various techniques for representation of the data in the real
world.
CO9. Developing application using data structures.
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CO10. Concept of protection and management of data.
Semester - II
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Course Code and Name:- 16MScCS21 & C++ Programming
Students will be able to understand and apply the following concepts. CO1. Object Oriented Programming concepts, advantages, C++ program
development environment, the C++ language standards. CO2. References & Dynamic Allocation Operators: array of objects, pointers to
object, type checking C++ pointers, the this pointer, pointer to derived types,
pointer to class members, reference parameter
CO3. Overloading as polymorphism: function & operator overloading, operator
overloading restrictions, operator overloading using friend function.
CO4. Templates and Exception Handling: Exception handling in C++, try, throw,
catch sequence, multiple catch blocks, uncaught exceptions,
CO5. Overview of the Standard Template Library: The Standard Template Library,
Design goals, Header files, STL components.
CO6. Vectors, lists, maps, set. Containers-Vector, Deque, List, Associative
Containers, Set, Multiset, Map, Multimap.
CO7. Input iterators, Output iterators, Forward iterators, and backward iterators
Course Code and Name:- 16MScCS22 & Data Base Management System
Students will be able to learn and apply the following concepts. CO1. Basic concepts and appreciate the applications of database systems.
CO2. Basics of SQL and construct queries using SQL.
CO3. Commercial relational database system (Oracle) by writing SQL using the system.
CO4. Relational database theory, and be able to write relational algebra expressions for
queries. CO5. Sound design principles for logical design of databases, including the E‐R method
and normalization approach. CO6. Basic database storage structures and access techniques: file and page
organizations, indexing methods including B‐tree, and hashing. CO7. Basics of query evaluation techniques and and query optimization.
CO8. Basic issues of transaction processing and concurrency control.
CO9. (optional) Master working successfully on a team by design and development of
data base system CO10. Concept of Transaction and Query processing.
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Course Code and Name:- 16MScCS23 & Operating System
Students will be able to understand and apply the following concepts. CO1. Operating system which analysis of operating system.
CO2. Operating system is dealt with user and system perspective.
CO3. Concurrently operation of system and synchronization of critical section problem.
CO4. Operating system provides a time sharing for several users.
CO5. Operating system is partitioned the memory for usage in structure .
CO6. Swapping of user programs from physical memory to logical memory.
CO7. It manages the files system during the process.
CO8. CPU utilization is more using multiple of threads .
CO9. Managing the files for creation, deletion , opening and truncating .
CO10. Using algorithms which makes the scheduling of jobs to the CPU.
CO11. Multiprocessor, distributing and multitasking and batch operating system.
Course Code and Name:- 16MScCS24 & Data Communication Networks
Students will be able to learn and understand the following concepts. CO1. Data Communications analog-to-analog conversion.
CO2. Multiplexing Spread spectrum.
CO3. Transmission media – Guided media and unguided media.
CO4. Networks, the internet, protocols and standards
CO5. OSI model, TCP/IP protocol suite
CO6. Addressing Periodic analog signals
CO7. Transmission impairment, data rate limits, performance
CO8. Digital transmission: Digital to digital conversion, analog-to-digital conversion,
transmission modes
Semester – III
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Course Code and Name:- 16MScCS31 & Software Engineering
Students will be able to learn and apply the following concepts. CO1. Using models software is designed.
CO2. Software connects a different system to compute data .
CO3. Using sub system the software which designs and controls the system.
CO4. Software is a frame work for activities of system to make a function.
CO5. Software must be reliable and efficiency .
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CO6. Software is developed by software engineers during period .
CO7. Software are developed on their requirements of end user.
CO8. Using new technology the software is updated .
CO9. Software is checked using verification and validation .
CO10. Software must ensure the quality assurance and quality test are applied .
CO11. Software is developed on cost estimation and cost analysis.
CO12. Coding, designing and testing are the phases applies during the development
of process .
Course Code and Name:- 16MScCS32 & Computer Networks
Students will be able to:. CO1. Understand the OSI Reference Models and Layers .
CO2. Analyze the requirements for a given organizational structure and select the most
appropriate networking architecture and technologies;
CO3. Understand and apply - cryptography and network security;
CO4. Specify and identify deficiencies in existing protocols, and then go onto formulate new
and better protocols;
CO5. Understand the issues surrounding Mobile and Wireless Networks.
CO6. Understand and apply datagram and internet socket programming
CO7. Describe, analyse and compare a number of datalink, network, and transport layer
protocols.
CO8. Design and implement datalink or network layer protocols within a simulated
networking environment.
CO9. Describe and analyse various related technical, administrative and social aspects of
specific computer network protocols from standards documents and other primary
materials found through research.
CO10. Identify and apply basic theorems and formulae for the information-theoretic
basis of communication and the performance of physical, datalink and network
protocols
Course Code and Name:- 16MScCS33 & Java Programming
Students will be able to understand and apply the following concepts. CO1. Java concepts Review - Data abstraction, encapsulation, inheritance, benefits of
inheritance, polymorphism, classes and objects, Procedural and object oriented
programming paradigms.
CO2. variables, constants, scope and life time of variables, operators, operator hierarchy,
expressions, type conversion and casting
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CO3. Inheritance - Inheritance hierarchies super and sub classes, Member access rules,
super keyword, and preventing inheritance: final classes and methods, the Object class
and its methods.
CO4. Packages - Defining, Creating and Accessing a Package, importing packages.
CO5. Exception handling - Dealing with errors, benefits of execution handling, the
classification of exceptions- exception hierarchy, checked exceptions and unchecked
exceptions.
CO6. Collection Framework in Java - Introduction to Java Collections, Overview of Java
Collection frame work, Generics
CO7. GUI Programming with Java - The AWT class hierarchy, Introduction to Swing, Swing vs
AWT, Hierarchy for Swing components.
Course Code and Name:- 16MScCS34 & Web Programming
Students will be able to understand and apply the following concepts. CO1. Java Script-Object, names, literals
CO2. Operators and expressions-statements and features-events- windows–documents
frames - data types - built-in functions- Browser object model –Verifying forms.
CO3. HTML5- CSS3- HTML 5 canvas. XML: DTD, Namespaces
CO4. XML schemas, displaying raw XML documents
CO5. Displaying XML documents with CSS, XSLT style sheets
CO6. XML processors
CO7. Server-side web scripting, Installing PHP,
CO8. Adding PHP to HTML, Syntax and Variables,
CO9. Passing information between pages, Strings, Arrays and Array Functions, Numbers.
Course Code and Name:- CE 3.5.d: UNIX System Program
Students will be able to learn and understand the following concepts. CO1. Identify the differences between ANSI C Standard & K & RC
CO2. Understand the POSIX API and API Common characteristics.
CO3. Learn the File types and FILE API’s,Relationship of C Stream pointers and File
Descriptors.
CO4. Identify the difference between fork() and vfork() system call
CO5. Learn the exec()family
CO6. Understand the Process Identifiers
CO7. Define the process relationship
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CO8. Identify how the kernel supports for file system in Unix.
CO9. Define Inter Process Communication, Coprocess, Shared Memory
Semester – IV
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Course Code and Name:- 16MScCS4.1 & Optimization Techniques
Students will be able to understand and the following concepts. CO1. Identify the steps to solving the Operations research model
CO2. Understand the Operations research model.
CO3. Learn the Formulation of a LP model, graphical solution to LPP.
CO4. Define the dual problem , dual primal relationships.
CO5. Perform more problems on dual primal relationships
CO6. Define the transportation model-network model least cost model assignment model.
CO7. Understand the minimal spanning tree algorithm
CO8. Identify the relationship between CPM and PERT and the differences of those.
CO9. Define the game theory: Decision making under certainity, Decision making under risk
Decision making under uncertainity.
CO10. Understand the optimal solution of two person zero sum games, solution of
mixed strategy games.
Course Code and Name:- 16MScCS4.2 & Data Mining
Students will be able to understand and apply the following concepts.
CO1. Data mining is a knowledge discovery form data.
CO2. Using classification which describes pattern.
CO3. Using set of frequent item sets for which mines the data .
CO4. Using data mining tools which explores the data .
CO5. Data preprocessing techniques provides data cleaning and data transformation.
CO6. Weka tool is the software which explorers the information.
CO7. Aprior algorithm is the algorithm which resolves the data on priority.
CO8. Discrimination is the process which compares the data .
CO9. Mutitier Architecture is used provide the report or result which displays in pattern
analysis.
CO10. Visualization tools are the tools used for visualizing the pictures or images .
Course Code and Name:- 16MScCS4.3 & Digital Image Processing
Students will be able to understand and apply the following concepts CO1. Describe basic image related concepts.
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CO2. Explain various image enhancement and restoration techniques.
CO3. Describe colour image processing, image compression, image segmentation and
representation.
CO4. Describe wavelet transforms.
CO5. Fundamental concepts of a digital image processing system and review.
CO6. Analyze images in the frequency domain using various transforms.
CO7. Evaluate the techniques for image enhancement and image restoration.
CO8. Categorize various compression techniques.
CO9. Interpret Image compression standards.
Course Code and Name:- 16MScCS4.4 & Computer Graphics
Students will be able to learn and apply the following concepts. CO1. Application areas of Computer Graphics, overview of graphics systems, video-display
devices, and raster-scan systems, random scan systems, graphics monitors, work
stations and input devices.
CO2. 2-D Geometrical transforms: Translation, scaling, rotation, reflection and shear
transformations
CO3. 3-D Object representation: Polygon surfaces, quadric surfaces, spline
representation
CO4. Visible surface detection methods: Classification, back-face detection, depth-
buffer, scan-line, depth sorting, BSP-tree methods, area sub-division and octree
methods.
CO5. Computer animation: Design of animation sequence, general computer animation
functions, raster animation, computer animation languages, key frame systems,
motion specifications.
CO6. 3-D viewing: Viewing pipeline, viewing coordinates, view volume and general
projection transforms and clipping.
Course Code and Name:- 16MScCS4.5 & Object Oriented Analysis and Design
Students will be able to understand and apply the following concepts. CO1. Basic expression of classes
CO2. Attributes, and operations, Class diagrams
CO3. Generalization and association constructs composition and aggregation.
CO4. Use case diagrams, Object interaction diagrams
CO5. Collaboration diagrams, sequence diagrams, asynchronous messages and
concurrent execution. CO6. State diagrams: basic state diagrams, nested states, concurrent states and
synchronization, transient states. Activity diagrams
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CO7. Class cohesion and support of states and behavior
CO8. Components and objects, design of a component
CO9. Light weight and heavy weight components,
CO10. Advantages and disadvantages of using components.
M.Sc. Mathematics - Course Outcomes
Semester – I
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Course Code and Name:- 1.1 & Algebra-I
Students will learn and able to apply following aspects.
CO1. The concepts of division algorithm and its properties and how these properties are
useful in proving the theorem.
CO2. Understand Chinese remainder theorem.
CO3. Working knowledge of a group, order of a group and order of a element.
CO4. Different types of subgroups such as cyclic subgroup, normal subgroup and
understand the structure and characteristics of subgroups.
CO5. A special correspondence between the members of two algebraic systems such as
two groups called homomorphism.
CO6. The rigorous proof of Lagrange’s theorem.
CO7. About Eulers and Fermats theorem which is a consequence or applications of
Lagrange’s theorem.
CO8. The idea of action group and orbit of an element.
CO9. The Cauchy theorem, Sylow theorem and their applications.
CO10. The proof of Jordan Holders theorem, About solvable group.
Course Code and Name:- - 1.2. & Topology
Students will learn and able to apply following aspects.
CO1. The new stream of Mathematics known as Topology.
CO2. Identify the properties like continuity and open and closed maps by comparing with
usual topological spaces.
CO3. Understand connected spaces and compact spaces.
CO4. Using open sets and closed sets they can easily learn first countability, second
countability spaces in topological spaces.
CO5. The actual mechanisms of properties like compactness, connectedness, first axioms,
second countability and lindelof spaces.
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CO6. The interpretation of T0-space, T1-space, T2-space, regular space and normal spaces.
CO7. The new concept Metric space also its topology concept.
CO8. Product between two topological spaces, Hausdorff space and Lindelof space.
CO9. Direct applications of regular and normal spaces in topological spaces.
CO10. The completely regular and Tychonoff’s theorems, Urysohn’s lemma in metrizability.
Course Code and Name:- 1.3. & Real Analysis
Students will learn and able to apply following aspects.
CO1. Real number set as complete order field, consequences of Archimedean Property.
CO2. as cartition product of , norms on , norm gives metric on , topology on .
CO3. Terms with topologically Limit point, Adherent Points, Closed Sets.
CO4. Concept of covers of set topologically for compactness.
CO5. Heine Borel Theorem has identification on compact sets.
CO6. Norm become Metric , metric induces topology.
CO7. Concept Cauchy complete metric space.
CO8. Difference between continuity and Uniform continuity.
CO9. Cain rule and application of derivative.
CO10. Mean value theorems, Intermediate- value and Taylor’s formula.
Course Code and Name:- 1.4 & Linear Algebra
Students will learn and able to apply following aspects.
CO1. The Definition, examples of vector spaces, subspaces, Sum and direct sum of
subspaces.
CO2. Linear span , Linear dependence, independence and their basic properties.
CO3. Finite dimensional vector space, Dimension subspaces. Quotient space and its
dimension.
CO4. Linear transformations and their representation as matrices. Rank nullity theorem.
Change of basis.
CO5. Dual space, Bidual space, natural isomorphism and Adjoint of linear transformation.
CO6. Eigen values and eigenvectors of a linear transformation, Diagonalization and
Annihilator of a subspace.
CO7. Bilinear, Quadratic and Hermitian forms.
CO8. Solutions of homogeneous systems of linear equations.
CO9. Nilpotent transformations, Index of nilpotency Inner product spaces.
CO10. Invariants of a linear transformation, Primary decomposition theorem and Jorden
blocks.
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Course code and Name - 1.5 & Ordinary Differential Equations
Students will learn and able to apply following aspects.
CO1. Concept of differential equation linear, nonlinear, partial and ordinary differential
equations.
CO2. Classifies the differential equations with respect to their order and linearity. The
fundamental sets of solutions.
CO3. Determine Wronskian for linear dependence and independent solutions.
CO4. Adjoint, Self-adjoint linear operator and solve the problems by applying them.
CO5. Adjoint equations to Derive the Greens formula and Prove fundamental existence
and uniqueness theorem..
CO6. Explain the concept of Eigen value problems. Sturm-Liouville’s problem.
CO7. The orthogonality of Eigen functions.
CO8. Classifies the ordinary, Singular, regular singular and irregular singular points of the
given DE. Derive the series solution for Bessel’s and Legendre DE.
CO9. Obtain the series solution for Hermite, Lagrange, Chebyshev and Gauss Hyper
geometric equations. general solution and its generating functions of given DE.
CO10. Derive the Recurrence relations for all above said DEs. Rodrigues formula for all
above said DEs.
Course code and Name - 1.6 & Discrete Mathematical Structures
Students will learn and able to apply following aspects.
CO1. Prove a number of useful basic theorems from given Boolean axioms.
CO2. Simplify and complement Boolean expressions. Define the fundamental logic
operations AND, OR, Invert.
CO3. Use truth tables and laws of identity, distributive, commutative, and domination.
CO4. Convert Boolean expressions to logic gates and vice-versa.
CO5. Solve linear recurrence relations by recognizing homogeneity, linearity, constant
coefficients, degree, and characteristic equation.
CO6. Fundamental algorithmic design strategies.
CO7. Write precise and accurate mathematical definitions of objects in graph theory.
CO8. Mathematical definitions to identify and construct examples and to distinguish
examples from non-examples.
CO9. Use a combination of theoretical knowledge and independent mathematical thinking
in creative investigation of questions in graph theory.
CO10. Write about graph theory in a coherent and technically accurate manner.
Semester-II
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Course Code and Name:- 2.1 & Algebra-II
Students will learn and able to apply following aspects.
CO1. Definition of rings sub ring, ideals factoring with example.
CO2. Embedding of integral domain to field, Prime ideal and maximal ideal.
CO3. Polynomial ring, principal ideal domain, Euclidian domain, Gaussian integers.
CO4. Fermat’s theorem factorization theorem, Homomorphism of rings.
CO5. Primitive polynomials which generates all elements of and extension field from base
field.
CO6. Analyzing Einstein criterion of irreducibility for a polynomials over a unique
factorization domain.
CO7. Field characteristic of finite field, Field extension, Algebraic extension.
CO8. Transitivity theorem Simple extension, Roots of polynomials and F(x) as unique
factorization domain for field.
CO9. Splitting a field of polynomials, Existence and uniqueness theorems.
CO10. Existence of a field with prime powers.
Course Code and Name:- 2.2 & Complex Analysis
Students will learn and able to apply following aspects.
CO1. Complex number in Cartesian form, complex conjugates and module. Represent
complex numbers and their mathematical operations geometrically.
CO2. Complex number in polar form, Euler’s Equation.
CO3. Continuity of a function using limits. Cauchy-Riemann Equations to derivative of a
function.
CO4. The harmonic conjugate of a harmonic function. Contour integral directly using the
parameterization of the contour.
CO5. Simply/multiply connected domains and the admissibility of continuous deformation
between two contours. Know the Cauchy’s integral theorem.
CO6. The Liouville’s theorem, the maximum modulus principle.
CO7. Be able to recognize the Hadamard three circle theorem and their consequences.
CO8. Classifications singularities. Residue at finite point and at infinite point.
CO9. Identify the isolated singularities of a function and determine whether they are
removable, poles or essential.
CO10. Compute innermost Laurent series at an isolated singularity and determine the
residue.
Course Code and Name:- 2.3. & Partial Differential Equations
Students will learn and able to apply following aspects.
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CO1. Know the concept of partial differential equations. Classify the first order partial
differential equations.
CO2. Lagrange’s method, charpits method, Jacobi method for some PDE and method for
semi-linear PDE , quasi-linear PDE.
CO3. Monge’s method, Monge cone method and used this for solving PDE problems.
CO4. Second order PDE and its classification, Wave equation in Physics problems, solutions
through D’Alemberts.
CO5. Proof of the existence and uniqueness of solutions using Riemann’s method.
CO6. Define boundary value problems and solution of Laplace equation.
CO7. Neumann problem and its concepts, greens function for Laplace equation.
CO8. Classify this heat equation which is going to be fall in parabolic PDE.
CO9. Obtain the solution for heat conduction problem for finite as well as infinite rod.
CO10. Derive the Kelvins inversion theorem and theory behind Equi-potential surfaces.
Course Code and Name:- 2.4 & Functions Of Several Variables
Students will learn and able to apply following aspects.
CO1. Concept of Rieman-Stieltjes integral and Linear properties Change of Variables.
CO2. Know the Necessary conditions for existence of Riemann- Stieltjes’s integrals.
CO3. Understand Mean value theorems of integral calculus. Sequences and series of
functions, Uniform convergence, and uniform convergence.
CO4. Relationship between Uniform convergence and differentiation, Stone- Weierstnass
theorem.
CO5. Function of Several Variables and topology of , Difference between one variable
derivative and multivariable derivative.
CO6. Directional derivative and continuity total derivative total derivative.
CO7. Illustrate the relationship between total derivatives expressed in terms of partial
derivatives.
CO8. Derivative as a linear transarmation. Jacobean matrix, Chain role, mean value
Theorems.
CO9. Mixed partial derivatives by usual examples and What Tagloi’s theorem is.
CO10. Importance of Inverse function Theorem, Implicit function Theorem.
Course Code and Name:- 2.5 & Classical Mechanics
Students will learn and able to apply following aspects.
CO1. Coordinate transformations, Cartesian tensors, Symmetric and Skew tensors,
Isotropic tensors.
CO2. Deviatoric Tensors, Gradient, Divergence, Curl in Tensor Calculus, Integral Theorems.
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CO3. Continuum Hypothesis, Configuration of a continuum
CO4. Mass and density, Description of motion, Material and spatial coordinates,
Translation, Rotation, Deformation of a surface element.
CO5. Deformation of a volume element, Isochoric deformation.
CO6. Material and Local time derivatives Strain, rate tensor, Transport formulas, Vorticity
and Circulation, Stress components and Stress tensors, Normal and shear stresses,
Principal stresses.
CO7. Basic physical laws, Law of conservation of mass. Principles of linear and angular
momentum, Equations of linear elasticity Hooke’s law Physical meanings of elastic
moduli. Navier’s equation.
CO8. Viscous and non-viscous fluids, Stress tensor for a non-viscous fluid.
CO9. Euler’s equations of motion, Equation of motion of an elastic fluid.
CO10. Stress tensor for a viscous fluid, Navier-Stokes equation.
Semester – III
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Course Code and Name:- 3.1 & Measure Theory
Students will learn and able to apply following aspects.
CO1. Construct outer measure and measures.
CO2. Main invariance properties of Lebesgue measure.
CO3. Lebesgue measure is a Borel measure. In particular all open and closed sets are
measurable.
CO4. All countable union and intersection of open and closed sets are measurable.
CO5. Lebesgue measurable functions. Able to understand definition of Sigma Algebra and
algebra of measurable functions.
CO6. Egroff’s thorem, bounded function and Lusin result for a set of finite measure.
CO7. Bounded converges theorem, Fatous Lemma, Labesgue monotone convergence
theorem.
CO8. Lebesgue general convergence theorem, Difference of an integral Lp Space,
Completeness of Lp Space.
CO9. Product measure Fubini theorem, Radon-Nikodym theorem.
Course Code and Name:- 3.3 & Differential Geometry
Students will learn and able to apply following aspects.
CO1. Euclidean spaces, tangent vectors to them, vector fields.
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CO2. Curves in ,1-Forms,differential forms, Euclidean spaces, derivative map.
CO3. Dot product in and frame fields.
CO4. Cross product of tangent vectors, arc length, frenet formulas.
CO5. Curvature, torsion and bitorsion of unit speed curve.
CO6. Arbitrary speed curves, Frenet formulas for arbitrary speed curves.
CO7. Covariant derivatives, Frame field in , Cartons structural equations. Monge patch
and examples.
CO8. Calculus on surface, co-ordinate patch, Proper patch, surfaces in .
CO9. Shape operators, Normal curvature, Gaussian curvature.
CO10. Computational techniques of curves in surfaces.
Course Code and Name:- 3.4 & Numerical Analysis
Students will learn and able to apply following aspects.
CO1. Explain why we require Numerical methods system of equations and its solution.
CO2. Classifies as Direct methods and indirect methods for solving linear system of
equations (LSEs).
CO3. Gauss elimination, Gauss-Jordan, LU- factorization for solving LSEs.
CO4. Jacobi’s, Gauss – Seidel, SOR methods for solving LSEs and its convergence criteria.
CO5. Apply Picard’s method, Euler’s methods, Modified Euler’s method, Rung-Kutta 2nd
order method, Runge – Kutta 4th order method for solving ODEs.
CO6. Define Partial differential equations and its applications in real world problems.
CO7. Derive the Thomas algorithm, Gauss- Siedel iterative scheme and SOR for Crank-
Nicolson method.
CO8. Solve parabolic equation with derivative boundary conditions, ADI method and is
used to solve parabolic PDEs.
CO9. Derive the Parabolic equation in cylindrical & spherical co-ordinates. Solve elliptic
equation with derivative boundary Derive the Explicit and implicit finite difference
schemes for hyperbolic PDEs.
CO10. Apply Explicit and implicit finite difference schemes for solving hyperbolic PDEs.
Discuss about the stability analysis of explicit finite difference method.
Course Code and Name:- 3.5 & Algebraic Topology
Students will learn and able to apply following aspects.
CO1. Concept of basic Topology, Basis for topology. Standard topological space,
Homeomorphic Space.
CO2. Paths and loops in X, Path are compact and connected sub spaces.
CO3. Homotopy and its property. Know the contractible space and deformation retracts.
CO4. Constructional method of cylinder and cone, mapping cylinders, suspension.
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CO5. Cells structure in usual space. Cell complexes, sub complexes, CW pairs.
CO6. Fundamental groups of a topological space. Covering spaces, lifting properties, deck
transformations.
CO7. Fundamental group of the circle. Applications of covering map in Fundamental
Theorem of Algebra.
CO8. Brouwer Fixed Point Theorem, No retraction theorem, Borsuk-Ulam Theorem. Van
Kampen's Theorem.
CO9. Simplicial complexes, barycentric subdivision, stars and links, simplicial
approximation.
CO10. Simplicial Homology, Singular Homology. Mayer-Vietoris Sequences.
Semester – IV
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Course Code and Name:- 4.1 & Functional Analysis
Students will learn and able to apply following aspects.
CO1. Able to understand the Functional Analysis Norm on a linear space over F
(either R or C).
CO2. Continuous Linear Transformation of normed linear space.
CO3. Banach space B(N,N’) for Banach spaces , N, N’. Norm on Quotient space.
CO4. Equivalence of norms, Dual space of C[a,b].
CO5. Isometric isomorphism.
CO6. Hahn-Banach theorem, Seperable normed linear space.
CO7. Canonical embedding of N into N**.Orthonormal basis, Gram-Schimdt process of
orthonormalisation, Besel’s inequality, Riesz Fisher Theorem.
CO8. Adjoint of an operator Selfadjoint, normaloperators.
CO9. Unitary and projection operators.
Course Code and Name:- 4.2 & Probability Theory
Students will learn and able to apply following aspects.
CO1. The deterministic experiment and random experiment with examples.
CO2. Concept of sample space. Meaning of sets, events and algebra of these concepts.
CO3. Independent event, random variables.
CO4. Probability and moment generating functions.
CO5. Binomial, Poisson and normal distributions.
CO6. Correlation and regression, Scatter diagram.
CO7. Probable error, standard error and rank correlation.
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CO8. Two line regression , regression coefficient and standard error. Discrete and
continuous random variables
CO9. Limiting distribution of some function of random variables Bivariate, conditional and
marginal distributions.
CO10. Expectation and variance, frequency curve, bivariate data, Fitting of distributions.
Course Code and Name:- 4.3 & Differentiable Manifolds
Students will learn and able to apply following aspects.
CO1. Basis of Topology, Standard topological space including Hausdroff space.
CO2. Know the Charts and atlases, Topological manifold and Differentiable manifold.
CO3. Tangent vectors and tangent spaces, differential of a map and Tangent bundle.
CO4. Lie bracket. Cotangent space cotangent bundle.
CO5. One parameter group and vector-field, Lie derivatives of vector fields.
CO6. Differential 1-forms.Tensor product of finite dimensional vector spaces.
CO7. Contraction, Lie derivative of tensor fields. Know the concept of Connections, parallel
translation.
CO8. Torsion and curvature tensors. Consequences of curvature. Bianchi identities.
CO9. Vector Bundles and cotangent bundle.
Course Code and Name:- 4.4 & Mathematical Physics
Students will learn and able to apply following aspects.
CO1. Laplace transform of standard functions both from the definition and by using tables.
CO2. Theorems in finding Laplace and inverse Laplace transforms.
CO3. Laplace transform techniques to solve ordinary differential equations involving the
Dirac delta (or unit impulse).
CO4. Laplace transform techniques to solve partial differential equations which can be
easily solved.
CO5. Define Fourier, Hankel, Mellin transforms in solving difficult problems, Integral
equations and its applications, Volterra and Fredholm integral equations.
CO6. Neumann series resolvent kernel, Fredholm and Volterra integral equations.
CO7. IVPs and BVPs to integral equations, reduction of Eigenvalue problems.
CO8. Hilbert Schmidt theorem, Rayleigh Ritz method to solve integral equations.
Perturbation problems.
CO9. Singular perturbation problem, Duffings equation, Vanderpol oscillator equation.
CO10. Classify the singular, regular and irregular singular points. Solution about irregular
singular points.
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Course Code and Name:- 4.5 & Graph Theory
Students will learn and able to apply following aspects.
CO1. Factorizations in graph theory.
CO2. Graph decompositions, Factorization concept in graph which emphasizes the concept
of degree of graphs.
CO3. Vertex, edge covering numbers, Covering and matching concepts with an example.
CO4. Matching polynomials in graph,Planarity ,networking
CO5. Planar and outer planar graphs with examples. Kuratowski’s two non planar graphs.
CO6. Euler’s formula for planarity of graph vertices and edges of planar graphs.
CO7. Line graphs and total graphs using the planarity of graphs.
CO8. Vertex coloring and edge coloring concepts in graph theory,Chromatic number.
CO9. Conversion of graph into matrix. spectra via Eigen values of graph matrix.
CO10. Operation graphs, dominations in graph theory.