Partial Differential Equations (ILV)
BackSpecialization Area | Embedded Systems |
Course number | M2.05282.21.171 |
Course code | |
Curriculum | 2016 |
Semester of degree program | Semester 2 |
Mode of delivery | Presencecourse |
SPPW | 2,0 |
ECTS credits | 2,5 |
Language of instruction | English |
Students will be able to understand the basics of pde to understand the numerical methods and to use the pde-MATLAB Toolbox other appropriate tool. They understand and can handle easy numerical methods, important for engineering, using appropriate tools.
Students should be familiar with the theory of static electrical and magnetic fields. They should be able to both analyze and calculate simple and complex fields. Finally it is essential to verify this knowledge by simulation and /or measuring.
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Partial Differential Equations 1. order
Linear and quasilinear pde 2. order
methods: separation of variables, Laplace and Fourier-Transform, Green-Function
Introduction of Laplace equation, Heat Equation, Wave equation
Meyberg, Vachenauer, Höhere Mathematik 2, Springer, 1995
Harman, Dabney, Richert, Advanced Engineering mathematics, Thomson Publishing Company, 2nd ed. 2000
Chapra, Canale, Numerical Methods for Engineers, McGraw-Hill, 1998
Strassacker/Süße: Rotation, Divergenz und Gradient. Eine Einführung in die elektromagnetische Feldtheorie, Teubner Verlag 2006
Küpfmüller, Mathis, Reibiger: Theoretische Elektrotechnik. Eine Einführung, Springer Verlag Berlin 2005
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