Elements of Discrete Mathematics

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Code Completion Credits Range Language
BI-ZDM Z,ZK 5 2P+2C Czech
The course cannot be taken simultaneously with:
Discrete Mathematics and Logic (BI-DML.21)
Garant předmětu:
Josef Kolář, Jan Legerský
Jan Legerský, Jiřina Scholtzová
Jan Legerský, Jiřina Scholtzová
Department of Applied Mathematics

Students get both a mathematical sound background, but also practical calculation skills in the area of combinatorics, value estimation and formula approximation, tools for solving recurrent equations, and basics of graph theory.


Students should have an adequate knowledge of basic notions of mathematics and mathematical logic as presented in previous subjects BI-ZMA, BI-MLO and BI-LIN.

Syllabus of lectures:

1. Sets, cardinality, countable sets, power set of a finite set and its cardinality.

2. Power set of the set of natural numbers - uncountable set.

3. Exclusion and inclusion, its use to determine cardinality.

4. „Pigeon-hole principle“, number of structures, i.e., number of maps, relations, trees (on finite structures).

5. Function estimates (factorial, binomial coefficients, ...).

6. Relation, equivalence relation (examples of equivalence of connected/strongly connected components).

7. Relation matrix, relational databases.

8. Mathematical induction as a tool for determining the number of finite objects.

9. Mathematical induction as a tool for proving algorithm correctness.

10. Mathematical induction as a tool for solving recursive problems.

11. Structural induction.

12. Runtime complexity of recursive algorithms - solving recursive equations with constant coefficients, homogeneous equations.

13. Solving non-homogeneous recursive equations with constant coefficients.

Syllabus of tutorials:

1. Cardinality calculations.

2. Countability, uncountability.

3. Inclusion and exclusion principle.

4. Numbers of structures over finite sets.

5. Asymptotic function behavior.

6. Relations and directed graphs.

7. Basic proofs by induction.

8. Application of proofs by induction in combinatorics.

9. Application of proofs by induction in programming.

10. Induction and recursive algorithms.

11. Uses of induction in formal language theory.

12. Runtime complexity calculations.

13. Solving linear recurrent equations.

Study Objective:
Study materials:

1. Johnsonbaugh, R. Discrete Mathematics (4th Edition). Prentice Hall, 1998. ISBN 0130805505.

Further information:
Time-table for winter semester 2023/2024:
Time-table is not available yet
Time-table for summer semester 2023/2024:
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The course is a part of the following study plans:
Data valid to 2023-06-07
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