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This entry is from Winter semester 2016/17 and might be obsolete. No current equivalent could be found.
LAaG Mathematics — Specialization Modules
In this area of study, modules totaling 18 LP must be completed. In addition to the modules Subject-Specific Specialization in Mathematics, Mathematics-Didactic Specialization Module I and Mathematics-Didactic Specialization Module II, either the Subject-Specific Specialization Module in Pure Mathematics or the Subject-Specific Specialization Module in Applied Mathematics must be completed.
For each of these two elective modules, a number of alternative modules will be recognized. Modules that can be taken for the specialization module in Pure Mathematics or the specialization module in Applied Mathematics are marked with an "R" or an "A".
Please note that only one of the elective modules in applied mathematics can be selected in the advanced and in the specialization area.
List of modules in this area of study:
Sorted: alphabetical, by classification, by level and CP
- Advanced Mathematics Module (Specialization module, 9 CP, R)
- Advanced Module in Applied Mathematics (Specialization module, 9 CP, A)
- Advanced Module in Mathematics (Specialization module, 3 CP)
- Algebraic Equations and Varieties (Specialization module, 9 CP, R)
- Algebraic Geometry: Advanced Methods (Specialization module, 9 CP, R)
- Algebraic Geometry: Projective Varieties (Specialization module, 9 CP, R)
- Algebraic Lie Theory (Specialization module, 9 CP, R)
- Algebraic Topology (Specialization module, 9 CP, R)
- Analytic Number Theory (Specialization module, 9 CP, R)
- Applied Functional Analysis (Specialization module, 9 CP, A)
- Approximation Theory (Specialization module, 9 CP, A)
- Combinatorics (Large Specialization Module) (Specialization module, 9 CP, R)
- Commutative Algebra (Large Specialization Module) (Specialization module, 9 CP, R)
- Differential Geometry I (Specialization module, 9 CP, R)
- Differential Geometry II (Specialization module, 9 CP, R)
- Galois Theory (Specialization module, 9 CP, R)
- Holomorphic Functions and Abelian Varieties (Specialization module, 9 CP, R)
- Introduction to Complex Geometry (Specialization module, 9 CP, R)
- Mathematical Statistics (Specialization module, 9 CP, A)
- Mathematics Education – Advanced Module I (Specialization module, 3 CP)
- Mathematics Education – Advanced Module II (Specialization module, 3 CP)
- Noncommutative Algebra (Specialization module, 9 CP, R)
- Nonlinear Optimization (Specialization module, 9 CP, A)
- Numerical Solution Methods for Differential Equations (Specialization module, 9 CP, A)
- Numerical Solution Methods for Finite Dimensional Problems (Specialization module, 9 CP, A)
- Partial Differential Equations (Specialization module, 9 CP, R)
- Probability Theory (Specialization module, 9 CP, A)
- Spectral and Scattering Theory (Specialization module, 9 CP, R)
- Stochastical Analysis (Specialization module, 9 CP, A)
Please note:
This page applies to the most current examination regulations in Winter semester 2016/17. If you are studying according to an earlier or later examination regulation other provisions may apply:
- Winter 2016/17
- Summer 2018 (no corresponding element)
- Winter 2018/19 (no corresponding element)
- Winter 2019/20 (no corresponding element)
- Winter 2020/21 (no corresponding element)
- Summer 2021 (no corresponding element)
- Winter 2021/22 (no corresponding element)
- Winter 2022/23 (no corresponding element)
- Winter 2023/24 (no corresponding element)
The information in this online module guide was created automatically. Legally binding is only the information in the examination regulations (Prüfungsordnung). If you notice any discrepancies or errors, we would be grateful for any advice.