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TEACHING AND EXAMINATION SCHEME Semester I Sr. No. Subject Code Subject Name Credit Hours (per week) Theory Practical Lecture(DT) Practical(Lab.) Lecture(DT) Practical(Lab.) CE SEE Total CE SEE Total L TU Total P TW Total L TU Total P TW Total 1 MMAT1CAS Complex Analysis - I 4 1 5 -- -- -- 4 1 5 - -- -- 40 60 100 -- -- -- 2 MMAT1TPL Topology 4 1 5 -- -- -- 4 1 5 - -- -- 40 60 100 -- -- -- 3 MMAT1ALA Advanced Linear Algebra 4 1 5 -- -- -- 4 1 5 - -- -- 40 60 100 -- -- -- 4 MMAT1ODE Ordinary Differential Equations 4 1 5 -- -- -- 4 1 5 - -- -- 40 60 100 -- -- -- MSEL1FSV Functions of Several 5 Variables 4 1 5 -- -- -- 4 1 5 - -- -- 40 60 100 -- -- -- MSEL1CMS Classical Mechanics Total 20 05 25 -- -- -- 20 05 25 - -- -- 200 300 500 -- -- -- Page 1 of 7

Subject code MMAT1CAS Subject Name Complex Analysis - I Properties of Complex numbers, Polar form of complex numbers, Complex valued functions. After successful completion of the course, students should be able to check differentiability and the analyticity of complex valued function, Evaluating contour integrals. 1 Limit, Continuity, Derivatives of functions of complex variables, Cauchy-Riemann equations, C-R equations in polar coordinates and complex form. 2 Analytic functions, Harmonic functions and Harmonic conjugate, Reflection Principle, Elementary functions. 3 Contours, Contour integrals, Anti-derivative, Cauchy-Goursat theorem, simply and multiply connected domains, Cauchy's Integral Formula, Derivatives of an analytic function, Morera's theorem, Cauchy s inequality. 4 Liouville's theorem, Fundamental theorem of Algebra, Gauss mean value theorem, Maximum modulus principle. 1 Complex Variables and Applications, J. W. Brown and R. V. Churchill, McGraw-Hill Publ. Co. 1 Functions of One Complex Variable, J. B. Conway, Narosa Publ. House, New Delhi. 2 Foundations of Complex Analysis, S. Ponnusamy, Narosa Publ. House, New Delhi. 3 Complex Variables: Theory and Applications, H. S. Kasana, Prentice Hall of India. 4 Complex Analysis, I. Stewart and David Tall, Cambridge University Press. Page 2 of 7

Subject code MMAT1TPL Subject Name Topology Fundamental concepts of set theory and logic. After successful completion of the course, students should be able to define topology and its construction, Distinguish open and closed subset, Notions of connectedness and compactness. 1 Topological spaces, Basis and sub-basis for a topology (definitions and examples only), The order topology, The product space (for finitely many topological spaces ). Subspace topology, Closed sets, Limit points. 2 Continuous functions, Homeomorphisms, The pasting lemma, Map into products, The metric topology, The sequence lemma, Uniform limit theorem, The quotient topology. 3 Connected spaces, Path connected spaces, Connected sets in the real line, Components and path-components, Locally connected spaces and path connected spaces. 4 Compact spaces, Compact sets in the real line, Limit-point compactness, Locally compact spaces, One-point compactification. 1 Topology - A first course, J. R. Munkres, Prentice Hall of India. 1 Introduction to Topology and Modern Analysis, G. F. Simmons, McGraw-Hill Co., Tokyo. 2 General Topology, S. Willard, Addison Wesley, 1970. 3 Aspects of Topology, C. O. Christonson and W. I. Voxman, Marcel Dekker Inc. 4 General Topology, J. L. Kelley, D. Van Nostraml, 1950. Page 3 of 7

Subject code MMAT1ALA Subject Name Advanced Linear Algebra Basic properties of Vector Space and Linear Transformation. After successful completion of the course, students should be able to solve problems related to matrices and linear equation, to follow complex logical arguments and develop modest logical arguments 1 Quick review of vector spaces, Subspaces, Linear independence and basis, Dual space. 2 The algebra of linear transformations, Homomorphism, Isomorphism, First isomorphism theorem, Characteristic roots, Matrices. 3 Canonical forms: triangular forms, Canonical forms of a Nilpotent linear transformation, Decomposition of a finite dimensional vector space: Jordan forms. 4 Trace and transpose, Determinants, Classification of quadrics. 1 Topics in algebra, I. N. Herstein, Wiley Eastern Ltd., New Delhi. 1 Linear Algebra: A Geometric Approach, S. Kumaresan, Prentice Hall of India. 2 Linear Algebra, H. Helson, Hindustan Book Agency, TRIM-4. 3 Linear Algebra, J. H. Kwak, S. Hong, Birkhauser. 4 Introduction to Topology and Modern Analysis, G. F. Simmons, McGraw-Hill Co., Tokyo. Page 4 of 7

Subject code MMAT1ODE Subject Name Ordinary Differential Equations Definition of Differential equation, Types of solution, Analytic function. After successful completion of the course, students should be able to classify nature of point for the second order linear differential equation, Existence of solution of differential equation. 1 Classification of singularities, Series solution near an ordinary point, Frobenius method : series solution near regular singular point, Point at infinity. 2 Legendre equation, Legendre polynomial and its properties, Rodrigue s formula, Generating function for Legendre polynomial, Recurrence relations for 3 Bessel s equation, Bessel s function of first and second kind and their properties, Generating function for Bessel s function, Recurrence relations for. 4 Gauss hypergeometric equation, Gauss hypergeometric function and its properties, Existence and uniqueness of solutions: the method of successive approximations, Picard s method of successive approximations, Systems of equations. 1 Differential equations with applications and historical notes, G. F. Simmons, McGrawHill International Editions. 1 Introduction to Ordinary Differential Equations, A. L. Rabenstein, Academic Press. 2 Advanced Differential Equations, M. D. Raisinghania, S. Chand & Co. 3 Higher Engineering Mathematics, B. S. Grewal and J. S. Grewal, Khanna Publ., New Delhi. 4 Advanced Engineering Mathematics E. Kreyszig, Narosa Publ. House, New Delhi. Page 5 of 7

Subject code MSEL1FSV Subject Name Functions of Several Variables Properties of Norm structure and Inner product on R, Derivative of real valued functions. After successful completion of the course, students should be able to differentiate function of several variable using Jacobian matrix, Properties of Tensor algebra. 1 Euclidian Space and its basic properties, Functions from, Limits and continuity, Oscillation, Relation between linear transformation and matrices. 2 Differentiations, Basic properties of differentiation, Chain rule and Jacobian matrix. 3 Partial derivatives and its relation with Jacobian matrix, Partial derivative of higher order, Directional derivatives and its relation with derivative, Partial derivative and continuity. 4 Tensor algebra on finite dimensional vector space, Alternating and symmetric tensors, Wedge product and relation among them. Vector fields and forms, their basic properties. 1 Calculus on Manifolds, M. Spivak, W. E. Benjamin Inc. 1 Principles of Mathematical Analysis, W. Rudin, Tata McGraw-Hill Publ. Co., New Delhi. 2 Functions of Several Variables, W. Fleming, Springer Verlag, New York. 3 A course in multivariable calculus and analysis, S. R. Ghorpade and B. V. Limaye, Springer, New York. 4 Calculus of Several Variables, Casper Goffmann, Harper and Row. Page 6 of 7

Subject code MSEL1CMS Subject Name Classical Mechanics The basic concept of Physics such as moments of inertia, length, force and time. In addition, mathematical concept of algebra, trigonometry, calculus etc. After successful completion of the course, students should be able to solve the mechanics problem using Lagrangian formulation and Hamiltonian formulation. 1 Lagrangian formulation: D'almbert's principle, Principle of virtual work, Classification of constraints, Lagrange's equation for holonomic systems and illustrations. 2 Euler-Lagrange equation, Hamilton's variational principle, Derivation of Lagrange's equation from Hamilton's variational principle, Generalized momentum, Mechanics in configuration space, General conservation theorem and illustration. 3 Hamilton's canonical equation of motion, Relation with Lagrange's equation, Conservation theorems, Variational principle approach to Hamilton's equation of motion, Variational principle and Hamilton's equation and examples. 4 Canonical transformations, Generating functions, Symplectic conditions, Infintesimal canonical transformations and examples. Poisson bracket formulation, General equation of motion and its formal solution, Constants of motion, Symmetry group. 1 Classical Mechanics, H. Goldstein, C. Poole and J. Safko, Pearson Education, Inc. 1 Classical Mechanics with Introduction to Nonlinear Oscillations and Chaos, Bhatia, Narosa Publ. 2 Classical Mechanics, C. R. Mondal, Prentice Hall of India Pvt. Ltd. 3 Classical Mechanics, Tai L. Chow, John Wiley and Sons Inc. 4 Classical Mechanics-System of Particles and Hamiltonian Dynamics, Walter greiner, Springer. Page 7 of 7

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