separable  extensions,  automorphism  group  and  fixed  fields  fundamental  theorems  of
                       Galois theory and algebra.

               THEORY (45 Hours)


               UNIT I Field Extensions                                                            (15 Hours)
               Irreducible  polynomials  and  Eisenstein  criterion,  Adjunction  of  roots,  Algebraic  extensions,
               algebraically closed fields, Splitting fields, Normal extensions, Multiple roots.
               UNIT II Finite Fields                                                              (15 Hours)

               Prime  Fields,  Finite  fields,  Roots  of  Irreducible  Polynomials,  Roots  of  unity  and  cyclotomic
               polynomials,  Representation  of  Elements  of  Finite  Fields,  Order  of  Polynomials  and  Primitive
               Polynomials, Irreducible Polynomials.

               UNIT III Galois Theory and its Applications                                        (15 Hours)
               Separable  extensions,  Automorphism  groups  and  fixed  fields,  Fundamental  theorem  of  Galois
               theory, Fundamental theorem of algebra.

               *TUTORIAL (15 Hours (1 Hour per week))

               SUGGESTED READING:

                   1.  P.B. Bhattacharya, S.K. Jain & S.R. Nagpaul, ‗Basic Abstract Algebra‘, Second Edition,
                       Cambridge University Press.
                   2.  Rudolf Lidl & Harald Niederreiter, ―Finite Fields‖, Cambridge University Press.

               Math.422                   Partial Differential Equations                                3+1*

               LEARNING OBJECTIVES:


               The primary objective of this course is to introduce:
                     The  Basic  concepts  related  to  partial  Differential  equations  of  first  order  and  various
                       methods to solve these equations.
                     The classification of second order partial differential equations, their canonical forms and
                       concept  of  adjoint  operators.  Derivation  of  Laplace  equation/Poisson  equation/  heat
                       equation/wave equations from basic concepts and their basic properties.
                     The  Laplace  equation  (elliptic  equation),  Heat  equation  (Parabolic  equation)  and  Wave
                       equation  (hyperbolic  equation)  by  variable  separable  method  and  solve  some  boundary
                       value problems by some standard methods.
                     The  Laplace,  heat  and  Wave  equations  in  various  coordinate  systems  and  solve  them.
                       Learn the use of theory and solutions/tools in solving the dynamical problems arising in
                       engineering and physical sciences

               LEARNING OUTCOMES:


               After the completion of the course, students will be able to
                     Understand the Basic concepts related to partial Differential equations of first order and
                       various methods to solve these equations.
                     Understand the classification of second order partial differential equations, their canonical
                       forms and concept of adjoint operators.
                     Derivation of Laplace equation/Poisson equation/ heat equation/wave equations from basic
                       concepts and their basic properties.




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