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401-0373-00L 4 Credits BSC D-CHAB
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Mathematics III: Partial Differential Equations

Mathematik III: Partielle Differentialgleichungen

Lecturers & Examiners: Dr. Laura Kobel-Keller
VVZ CR n/a

Last Updated: 2026-06-01 11:30:49

Abstract

Examples of partial differential equations. Linear partial differential equations. Separation of variables. Fourier series, Fourier transform, Laplace transform. Applications to solving commonly encountered linear partial differential equations (Laplace's Equation, Heat Equation, Wave Equation).

Objective

Classical tools to solve the most common linear partial differential equations.

Content

1) Examples of partial differential equations - Classification of PDEs - Superposition principle 2) One-dimensional wave equation - D'Alembert's formula - Duhamel's principle 3) Fourier series - Representation of piecewise continuous functions via Fourier series - Examples and applications 4) Separation of variables - Solution of wave and heat equation - Homogeneous and inhomogeneous boundary conditions - Dirichlet and Neumann boundary conditions 5) Laplace equation - Solution of Laplace's equation on the rectangle, disk and annulus - Poisson formula - Mean value theorem and maximum principle 6) Fourier transform - Derivation and definition - Inverse Fourier transformation and inversion formula - Interpretation and properties of the Fourier transform - Solution of the heat equation 7) Laplace transform (if time allows) - Definition, motivation and properties - Inverse Laplace transform of rational functions - Application to ordinary differential equations

Resources

Literature

1) S.J. Farlow, Partial Differential Equations for Scientists and Engineers, Dover Books on Mathematics, NY. 2) N. Hungerbühler, Einführung in partielle Differentialgleichungen für Ingenieure, Chemiker und Naturwissenschaftler, vdf Hochschulverlag, 1997. Additional books: 3) T. Westermann: Partielle Differentialgleichungen, Mathematik für Ingenieure mit Maple, Band 2, Springer-Lehrbuch, 1997 (chapters XIII,XIV,XV,XII) 4) E. Kreyszig, Advanced Engineering Mathematics, John Wiley & Sons (chapters 1,2,11,12,6)

Learning Materials (Links)

General Information

Language
German
Levels
BSC
Frequency
Yearly recurring

Examination

Type
session examination
Mode
written 120 minutes
Aids
20 A4-Seiten eigene Notizen.Kein Taschenrechner.
Digital
The examination takes place on your own device. Installation of SEB required.

Course Components

Type Title Time & Place Hours
lecture Mathematik III: Partielle Differentialgleichungen
  • Thu 09:45-11:30 (HCI J 7)
2 h weekly
exercise Mathematik III: Partielle Differentialgleichungen
Groups are selected in myStudies.
  • Thu 11:45-12:30 (HCI H 8.1)
  • Thu 11:45-12:30 (HCP E 47.2)
  • Thu 11:45-12:30 (HIL E 10.1)
  • Thu 11:45-12:30 (HIL E 8)
  • Thu 17:45-18:30 (HCI H 2.1)
1 h weekly

Offered In