MTH-483 Mathematical Methods of Physics MSc Mathematics COMSATSInstituteofInformationTechnology Islamabad,Pakistan Instructor DR SALEEM AHMED Assistant Professor COMSATS Institute of Information Technology, Islamabad Since December 2011 Education PhD - State University of New York, USA MPhil - Quaid-i-Azam University, Islamabad MSc - Quaid-i-Azam University, Islamabad Motivation The course introduces variety of mathematical methods essential for technical proficiency in advanced courses of mathematics, theoretical physics and engineering. The class will focus on developing both an understanding of basic techniques and skill in their application. The objective of this course is to provide an introductory overview of linear integral and Partial differential equations and the integral transforms as they apply in engineering and physics problems. Basic physical laws are reviewed and applied to the derivation and interpretation of initial- and boundary-value problems. To introduce the methods that permits the determination of maximal and minimal values of functionals To show students how to formulate physical problems in terms of partial differential equations To provide students with a basic knowledge of Fourier series and separation of variables and integral transforms. Objectives This course has the following four objectives: To provide students with basic knowledge of integral equations To show students how to formulate physical problems in terms of partial differential equations To provide students with a basic knowledge of Fourier series and separation of variables and integral transforms. Objectives This course has the following four objectives: To provide students with basic knowledge of integral equations To introduce the methods that permits the determination of maximal and minimal values of functionals To provide students with a basic knowledge of Fourier series and separation of variables and integral transforms. Objectives This course has the following four objectives: To provide students with basic knowledge of integral equations To introduce the methods that permits the determination of maximal and minimal values of functionals To show students how to formulate physical problems in terms of partial differential equations Objectives This course has the following four objectives: To provide students with basic knowledge of integral equations To introduce the methods that permits the determination of maximal and minimal values of functionals To show students how to formulate physical problems in terms of partial differential equations To provide students with a basic knowledge of Fourier series and separation of variables and integral transforms. Objectives This course has the following four objectives: To provide students with basic knowledge of integral equations To introduce the methods that permits the determination of maximal and minimal values of functionals To show students how to formulate physical problems in terms of partial differential equations To provide students with a basic knowledge of Fourier series and separation of variables and integral transforms. Integral equations of Volterra and Fredholm types Introduction to calculus of variation of one variable: Euler Lagrange equation Solution of differential equations by Green functions Boundary value problems Solution of partial differential equations by separation of variables Fourier series Laplace and Fourier integral transformations and their applications to solve ODEs and PDEs Orthogonal functions and solution of Strum-Lioville system of equations Series solution methods of ODEs Bessel functions, Legendre, Hermite polynomials etc. Course Contents Linear operators Introduction to calculus of variation of one variable: Euler Lagrange equation Solution of differential equations by Green functions Boundary value problems Solution of partial differential equations by separation of variables Fourier series Laplace and Fourier integral transformations and their applications to solve ODEs and PDEs Orthogonal functions and solution of Strum-Lioville system of equations Series solution methods of ODEs Bessel functions, Legendre, Hermite polynomials etc. Course Contents Linear operators Integral equations of Volterra and Fredholm types