Inhalt
[ 201ADMASP1U20 ] UE Special Topics algebra and discrete mathematics
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| Es ist eine neuere Version 2023W dieser LV im Curriculum Master's programme Computational Mathematics 2023W vorhanden. |
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| Workload |
Education level |
Study areas |
Responsible person |
Hours per week |
Coordinating university |
| 1,5 ECTS |
B3 - Bachelor's programme 3. year |
Mathematics |
Günter Pilz |
1 hpw |
Johannes Kepler University Linz |
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| Detailed information |
| Original study plan |
Bachelor's programme Technical Mathematics 2020W |
| Objectives |
In this course (partial) answers to questions like „What is a set“? or „Is there a set which has more elements than the set of natural numbers, but less elements than the set of real numbers?“ are given. After an introduction to model theory we introduce the ZFC (Zermelo-Fraenkel+Choice) axioms of Set Theory. If these axioms are consistent (do not imply a contradiction), then there exists a model of Set Theory, in which all axioms of ZFC are true. Then we develop the method of forcing and prove Cohen’s result, that if there exists a well-founded model of ZFC, then there exists another model of ZFC, in which the Continuum Hypotheses is false.
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| Subject |
- Ordinal and Cardinal numbers
- Model Theory
- The ZFC axioms
- Boolean-Valued Models of ZFC
- The Forcing Theorem and the Generic Model Theorem
- Proof of the consistency and independence of the Continuum Hypotheses
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| Criteria for evaluation |
In the exercise sessions homework problems will be discussed.
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| Language |
Spanish (and English) |
| Study material |
- C.C. Chang, H. Jerome Keisler, Model Theory, third edition, Dover Publications, Inc., Mineola, New York, (2012)
- T.Jech, Set Theory, The Third Millennium Edition, Springer Monographs in Mathematics, (2002)
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| Changing subject? |
Yes |
| Further information |
Until term 2020S known as: 201ADMASP1U12 UE Special Topics algebra and discrete mathematics
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| Earlier variants |
They also cover the requirements of the curriculum (from - to)
201ADMASP1U12: UE Special Topics algebra and discrete mathematics (2012W-2020S)
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| On-site course |
| Maximum number of participants |
25 |
| Assignment procedure |
Direct assignment |
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