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# Course Information

 Course Name Turkish Elekt.Müh.Sonlu Eleman Yönt. English Finite Element Method for Electrical Engineers Course Code ELK 510 Credit Lecture (hour/week) Recitation (hour/week) Laboratory (hour/week) Semester 2 3 3 - - Course Language Turkish Course Coordinator Özcan Kalenderli Course Objectives The aim of this course is 1. To teach a numerical method such as finite element method for computer aided design and analysis works, 2. To create an environment for using and developing of mathematical, electromagnetic fields, basic electrical engineering, and computer knowledge, 3. To teach analogies and differences among the analytical, analogue and numerical methods, 4. To use due to develop the finite element method and their studies. Course Description Classification of electromagnetic field problems, types of second order linear partial differential equations, types of boundary conditions, initial and boundary value problems, methods for electromagnetic field analysis and Finite Element Method. Variational methods, Rayleigh-Ritz and Galerkin methods, computations of Laplace and Poisson types electrical and magnetic field problems using finite element method, axially symmetrical problems, time dependent problems, numerical solution of finite element equations. Course Outcomes 1. Design, analysis and evaluation of any electrical device and equipment point of view electromagnetic field approximation, 2. Numerical modelling and description for the electrical and non-electrical problems, 3. Analysis by using variational methods; substructure and algorithm of the numerical methods, 4. Design and analysis of 1D, 2D and 3D symmetrical and non-symmetrical problems, 5. Design and analysis of linear or non-linear, static or time dependent problems. Pre-requisite(s) Required Facilities Other Textbook 1. S. S. Rao, The Finite Element Method in Engineering, Elsevier Butterworth – Heinemann, Boston, USA, 2005, Fourth Ed. 2010. 2. G. Meunier, The Finite Element Methodfor Electromagnetic Modeling , Wiley, New Jersey, 2008. 3. K. H. Huebner, The Finite Element Method for Engineers, Wiley, New York, 2001. 4. Y. W. Kwon, H. Bang, The Finite Element Method using MATLAB, CRC Press, Boca Raton, 2000. 5. P. P. Silvester, R. L. Ferrari, Finite Elements for Electrical Engineers, Cambridge University Press, Cambridge, 3rd Ed. 1996. Other References web.itu.edu.tr/kalenderli sayfasına bakınız.