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Online course materials for MATH63051Model theory
Unit code: | MATH63051 |
Credit Rating: | 15 |
Unit level: | Level 6 |
Teaching period(s): | Semester 1 |
Offered by | School of Mathematics |
Available as a free choice unit?: | N |
Requisites
NoneAdditional Requirements
Students are not permitted to take, for credit, MATH43051 in an undergraduate programme and then MATH63051 in a postgraduate programme at the University of Manchester, as the courses are identical.
Aims
- To present the basic notions and results of model theory.
- To illustrate these in a variety of types of examples.
- To show some applications of the ultraproduct construction.
- To show some applications of realising types in elementary extensions..
Overview
Model theory deals with those properties of mathematical structures which can be expressed using formulae of a formal predicate language. One theme is the investigation of the class of those structures which are the models of a set of sentences from predicate logic. Another theme is the analysis of definability in individual structures and the use of elementary extensions to produce non-standard elements. An example of the latter is producing infinitesimals in extensions of the set of real numbers, an infinitesimal being an element x satisfying x>0 and x<1/n for every positive integer n. The Compactness Theorem says that, since this (infinite) set of conditions is finitely satisfied in the field of real numbers, there is an elementary (=nice) extension of the reals which contains such an element.
We will introduce and use the ultraproduct construction, which is a way of producing, from a family of structures, an “average” structure (and it can be used to give a neat proof of the Compactness Theorem). Back-and-forth is an inductive method for building up maps between structures. We’ll use it to investigate the Random Graph (a countably infinite graph which contains a copy of every countable graph).
Types are descriptions, using the formal language, of elements and potential elements. We will see how these can be used to try to classify the models of a theory. A particularly nice case is when a theory is countably categorical, meaning that it has just one countable model up to isomorphism; we will characterise these theories in various ways (one being that the automorphism group of a countable model has only finitely many orbits on n-tuples). Compactness of the space of types is a key ingredient in the proof of these characterisations.
Learning outcomes
On successful completion of this course unit students will be able to
- understand the relation between structure and syntax, definable sets and types, in the context of algebraic and relational structures;
- understand the ultraproduct construction and how to use it;
- be able to analyse examples from a model-theoretic perspective;
- understand the fundamental results on the class of models of a theory in predicate logic;
- be able to use the technique of realising types.
Future topics requiring this course unit
None.
Assessment methods
- Other - 20%
- Written exam - 80%
Assessment Further Information
- Mid-semester coursework: two take home tests weighting 20%
- End of semester examination: three hours weighting 80%
Syllabus
1. Review of predicate logic and examples of structures. [3 lectures]
2. Back-and-Forth technique; the Random Graph; 0/1 laws. [3 lectures]
3. Ultraproducts and Los’ Theorem; definable sets. [4 lectures]
4. The space of types; saturated structures. [5 lectures]
5. Countable categoricity. [3 lectures]
6. The models of a theory; examples. [4 lectures]
Recommended reading
I will provide full course notes but there are quite a few texts on model theory around. For example, those below, but they are aimed at graduate students so don’t expect to move quickly when reading them. There are also sets of lecture notes on the web. So you can browse around and see what you like/what’s helpful.
- David Marker, Model theory. An introduction. Graduate Texts in Mathematics, 217. Springer-Verlag, New York, 2002. viii+342 pp.
- C.C.Chang and H.J.Keisler, Model Theory, various editions (though it goes overboard on ultraproducts).
- Wilfrid Hodges, Model theory. Encyclopedia of Mathematics and its Applications, 42. Cambridge University Press, Cambridge, 1993. xiv+772 pp. “A Shorter Model Theory” is the cut-down, student, version
Feedback methods
Feedback tutorials will provide an opportunity for students' work to be discussed and provide feedback on their understanding. Coursework also provides an opportunity for students to receive feedback. Students can also get feedback on their understanding directly from the lecturer, for example during the lecturer's office hour.
Study hours
- Lectures - 22 hours
- Tutorials - 11 hours
- Independent study hours - 117 hours
Teaching staff
Mike Prest - Unit coordinator