Difference between revisions of "MAT5423"
Jose.iovino (talk | contribs) |
Jose.iovino (talk | contribs) |
||
| Line 74: | Line 74: | ||
* Inverse of a relation and composition of relations | * Inverse of a relation and composition of relations | ||
* Beyond binary relations | * Beyond binary relations | ||
| − | + | || | |
|- | |- | ||
| 8 | | 8 | ||
| Line 84: | Line 84: | ||
* Injectivity | * Injectivity | ||
* Functionality | * Functionality | ||
| + | || | ||
|- | |- | ||
| 9-10 | | 9-10 | ||
| Line 92: | Line 93: | ||
* Semigroups | * Semigroups | ||
* groups | * groups | ||
| + | || | ||
|- | |- | ||
| 11-13 | | 11-13 | ||
| Line 100: | Line 102: | ||
* Program semantics | * Program semantics | ||
* Uncomputability | * Uncomputability | ||
| + | || | ||
|} | |} | ||
Revision as of 16:16, 24 March 2023
Introduction to basic discrete structures.
Sample textbooks:
[1] Gordon Pace, Mathematics of Discrete Structures foe Computer Science, Springer, 2012
[2] Vladlen Koltun, Discrete Structures Lecture Notes, Stanford University, 2008. Freely available here.
Catalog entry
Prerequisite: Algebra and Number Systems (MAT 1313), or Discrete Mathematical Structures (CS 2233/2231), or instructor consent.
Contents: (1) Propositional logic: Axioms and Rules of Inference. Limitations of propositional logic: Informal introduction to quantifiers and syllogisms. (2) Predicate Logic: Existential and universal quantification, free variables and substitutions. Discussion of the various axiomatic systems for first-order logic (including axioms and rules of inference). The power and the limitations of axiomatic systems for logic: Informal discussion of the completeness and incompleteness theorems. (3) Sets and boolean algebras: Operations on sets. Correspondence between finitary set operations and propositional logic. Correspondence between infinitary operations and quantifiers. The power and limitations of the language of set theory: Informal discussion of the set-theoretic paradoxes and the need for axiomatic systems for set theory. (4) Relations: Special relations: Equivalence relations, partially ordered sets, maximum/minimum, maximal/minimal elements, least upper bounds and greatest lower bounds, totally ordered sets. (5) Functions: Operations of functions, direct image and inverse image. (6) Well-ordered sets: Correspondence between well-ordering relations and induction. Correspondence between well-ordering relations and choice functions. (7) Introduction to computability. Classical models of computation (recursive functions, and Turing models). Limitations of computation (the Halting Problem, fast-growing functions). Contemporary models of computation.
Topics List
| Week | Topic | Sections from Pace's book | Sections from Pace's book | Prerequisites. | |
|---|---|---|---|---|---|
| 1 | Propositional logic | 2.1-2.4 |
|
MAT1313 or CS2233/2231, or equivalent. | |
| 2 | Completeness and soundness | 2.5 | Completeness and soundness of propositional logic | ||
| 5-6 | Predicate calculus | 3.1-3.5 |
|
||
| 5 | Sets and boolean algebras | 4.1-4.5 |
|
||
| 6 | Sets and boolean algebras | 4.6 | Boolean algebras and boolean rings. | ||
| 7 | Relations | 5.1-5.7 |
|
||
| 8 | Classifying Relations | 6.1-6.3 |
|
||
| 9-10 | Discrete structures | 7.1-8.4 |
|
||
| 11-13 | Reasoning about programs | 10.1-10.4 |
|
