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Introduction to the mathematics of discrete structures with emphasis on structures for computer science.
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<strong>UTSA Department of Mathematics</strong>
  
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To edit tables in each course below, you can use [https://tableconvert.com/mediawiki-to-excel MediaWiki-to-Excel converter] and/or the [https://tableconvert.com/excel-to-mediawiki Excel-to-MediaWiki converter]
  
'''Catalog entry'''
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== Undergraduate Studies ==
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===STEM Core===
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* [[MAT1073]] College Algebra for Scientists and Engineers
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* [[MAT1093]] Precalculus
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* [[MAT1193]] Calculus for Biosciences
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* [[MAT1214]] Calculus I (4 credit hours)
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* [[MAT1224]] Calculus II (4 credit hours)
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* [[MAT2214]] Calculus III (4 credit hours)
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* [[MAT2233]] Linear Algebra
  
''Prerequisite'': Algebra and Number Systems (MAT 1313), or Discrete Mathematical Structures (CS 2233/2231), or instructor consent.
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===Minor in Mathematics===
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To receive a minor, students must complete at least 18 semester credit hours, including 6 hours at the upper-division level at UTSA, and must achieve a grade point average of at least 2.0 (on a 4.0 scale) on all work used to satisfy the requirements of a minor. See [https://catalog.utsa.edu/undergraduate/bachelorsdegreeregulations/minors/  UTSA's Undergraduate Catalog]
  
''Contents'':
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The Minor in Mathematics requires the Calculus series plus linear algebra, and upper division courses in either the Math Major or the Data & Applied Science Core
(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.
 
  
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===Data & Applied Science Core===
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==== Lower Division ====
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* [[MDC1213]] Sociocultural Foundations of Mathematics, Data Science, and Computing
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* [[MAT1213]] Calculus I (3 credit hours)
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* [[MAT1223]] Calculus II (3 credit hours)
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* [[MAT2213]] Calculus III (3 credit hours)
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* [[MAT2253]] Applied Linear Algebra (3 credit hours)
  
'''Sample textbooks''':
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==== Upper Division ====
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* [[MAT4133]]/[[MAT5133]] Mathematical Biology
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* [[MAT4143]]/[[MAT5143]] Mathematical Physics
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* [[MAT4373]]/[[MAT5373]] Mathematical Foundations of Statistics I (discrete & continuous PDFs)
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* [[MAT4383]]/[[MAT5383]] Mathematical Foundations of Statistics II (statistical inference)
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* [[MDC4153]]/[[MDC5153]] Mathematical Foundations of Data Analytics
  
[1] Gordon Pace, ''Mathematics of Discrete Structures foe Computer Science'', Springer, 2012
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===Math Major===
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==== Lower Division ====
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* [[MAT1313]] Algebra and Number Systems
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* [[MAT2313]] Combinatorics and Probability
  
[2] Vladlen Koltun, ''Discrete Structures Lecture Notes, Stanford University'', 2008. Freely available [https://web.stanford.edu/class/cs103x/cs103x-notes.pdf here.]
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==== Upper Division ====
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* [[MAT3003]] Discrete Mathematics
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* <del>[[MAT3013]] Foundations of Mathematics</del> Course transitioning to be replaced by [[MAT3003]] Discrete Mathematics (below).
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* [[MAT3203]] Abstract Linear Algebra
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* <del>[[MAT3213]] Foundations of Analysis</del> Course transitioning to be replaced by [[MAT3333]] Fundamentals of Analysis and Topology (below).
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* [[MAT3333]] Fundamentals of Analysis and Topology
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* [[MAT3233]] Modern Algebra
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* [[MAT3333]] Fundamentals of Analysis and Topology
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* [[MAT3313]] Logic and Computability
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* [[MAT3613]] Differential Equations I
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* [[MAT3623]] Differential Equations II
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* [[MAT3633]] Numerical Analysis
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* [[MAT3223]] Complex Variables
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* [[MAT4033]] Abstract Linear Algebra II
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* [[MAT4213]] Real Analysis I
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* [[MAT4223]] Real Analysis II
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* [[MAT4233]] Modern Abstract Algebra
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* [[MAT4273]] Topology
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* [[MAT4283]] Computing for Mathematics
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* [[MAT4323]] Applied Graph Theory
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* [[MAT4373]] Mathematical Statistics I
  
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===Business===
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* [[MAT1053]] Algebra for Business
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* [[MAT1133]] Calculus for Business
  
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===Math for Liberal Arts===
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* [[MAT1043]] Introduction to Mathematics
  
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=== Elementary Education ===
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* [[MAT1023]] College Algebra
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* [[MAT1153]] Essential Elements in Mathematics I
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* [[MAT1163]] Essential Elements in Mathematics II
  
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=== General Math Studies===
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* [[MAT3233]] Modern Algebra
  
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== Graduate Studies ==
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=== Core M.Sc. Studies ===
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Core courses, common across all M.Sc. tracks, must be at least 50% of the credit 30 hours needed to obtain a M.Sc. degree. The following courses add up to 15 credit hours.
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* Two courses in the Analysis & Algebra sequences in the following combinations:
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** [[MAT5173]] Algebra  I & [[MAT5183]] Algebra II.
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** [[MAT5173]] Algebra  I & [[MAT5243]] General Topology I.
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** [[MAT5243]] General Topology I & [[MAT5253]] General Topology II.
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** [[MAT5203]] Analysis I  & [[MAT5213]] Analysis II
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** [[MAT5173]] Algebra I &  [[MAT5203]] Analysis I.
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** [[MAT5173]] Algebra  I & [[MAT5123]] Cryptography I.
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** [[MAT5123]] Cryptography I &  [[MAT5323]] Cryptography II.
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* Two course in discrete mathematics among the following:
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** [[MAT5423]] Discrete Mathematics I
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** [[MAT5433]] Discrete Mathematics II
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* One course in computation among the following:
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** [[MAT5373]] Mathematical Statistics I
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** [[MDC5153]] Data Analytics
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* [[MAT5283]] Linear Algebra
  
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=== Qualifying Examination Tracks  ===
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* [[MAT5183]] Algebra II (Pure, Applied tracks)
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* [[MAT5123]] Cryptography (Pure, Applied tracks)
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* [[MAT5323]] Cryptography II (Pure, Applied tracks))
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* [[MAT5213]] Analysis II (Pure track)
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* [[MAT5113]] Computing for Mathematics  (Pure, Applied tracks)
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* [[MAT5433]] Discrete Mathematics II  (Pure, Applied tracks)
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* [[MAT5383]] Mathematical Statistics II  (Applied tracks)
  
==Topics List==
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=== M.Sc. Track in Pure Mathematics  ===
{| class="wikitable sortable"
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* [[MAT5443]] Logic and Computability
! Week !! Topic !! Sections from Pace's book !! !! Sections from Pace's book !! Prerequisites.
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* [[MAT5243]] General Topology
|-
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* [[MAT5253]] General Topology II
|  1 
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* [[MAT5323]] Cryptography II
|| [[Propositional logic]]
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* [[MAT5183]] Algebra II
|| 2.1-2.4
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* [[MAT5223]] Theory of Functions of a Complex Variable
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* [[MAT5343]] Differential Geometry
* Proofs
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* boolean models
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=== M.Sc. Track in Applied & Industrial Mathematics ===
* connections between boolean models and proofs
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* [[MDC5153]] Data Analytics
|| MAT1313 or CS2233/2231, or equivalent.
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* [[AIM 5113]] Introduction to Industrial Mathematics
|-
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* [[MAT 5113]] Computing for Mathematics
|  2 
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* [[MAT 5653]] Differential Equations I
|| [[Completeness and soundness]]
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* [[MAT 5673]] Partial Differential Equations
|| 2.5
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=== M.Sc. in Mathematics Education ===
* Completeness and soundness of propositional logic
 
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|-
 
|  5-6 
 
|| [[Predicate calculus]]
 
|| 3.1-3.5
 
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* Limits of propositional logic
 
* free variables and substitution.
 
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|-
 
|  7 
 
|| [[Sets and boolean algebras]]
 
|| 4.1-4.5
 
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* Set comprehension.
 
* Finitary and general operations on sets.
 
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|-
 
|  8 
 
|| [[Sets and boolean algebras]]
 
|| 4.6
 
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* Boolean algebras and boolean rings.
 
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|-
 
|  9 
 
|| [[Relations]]  
 
|| 5.1-5.7
 
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* Relations and sets
 
* Inverse of a relation and composition of relations
 
* Beyond binary relations
 
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|-
 
|  10 
 
|| [[Classifying Relations]]  
 
|| 6.1-6.3
 
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* Totality
 
* Surjectivity
 
* Injectivity
 
* Functionality
 
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|-
 
|  11-12 
 
|| [[Discrete structures]]  
 
|| 7.1-8.4
 
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* Graphs
 
* Semigroups
 
* groups
 
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|-
 
|  13-14 
 
|| [[Reasoning about programs]]  
 
|| 10.1-10.4
 
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* Algorithms
 
* Program semantics
 
* Uncomputability
 
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|}
 

Latest revision as of 10:51, 12 June 2023

UTSA Department of Mathematics

To edit tables in each course below, you can use MediaWiki-to-Excel converter and/or the Excel-to-MediaWiki converter

Undergraduate Studies

STEM Core

Minor in Mathematics

To receive a minor, students must complete at least 18 semester credit hours, including 6 hours at the upper-division level at UTSA, and must achieve a grade point average of at least 2.0 (on a 4.0 scale) on all work used to satisfy the requirements of a minor. See UTSA's Undergraduate Catalog

The Minor in Mathematics requires the Calculus series plus linear algebra, and upper division courses in either the Math Major or the Data & Applied Science Core

Data & Applied Science Core

Lower Division

  • MDC1213 Sociocultural Foundations of Mathematics, Data Science, and Computing
  • MAT1213 Calculus I (3 credit hours)
  • MAT1223 Calculus II (3 credit hours)
  • MAT2213 Calculus III (3 credit hours)
  • MAT2253 Applied Linear Algebra (3 credit hours)

Upper Division

Math Major

Lower Division

  • MAT1313 Algebra and Number Systems
  • MAT2313 Combinatorics and Probability

Upper Division

  • MAT3003 Discrete Mathematics
  • MAT3013 Foundations of Mathematics Course transitioning to be replaced by MAT3003 Discrete Mathematics (below).
  • MAT3203 Abstract Linear Algebra
  • MAT3213 Foundations of Analysis Course transitioning to be replaced by MAT3333 Fundamentals of Analysis and Topology (below).
  • MAT3333 Fundamentals of Analysis and Topology
  • MAT3233 Modern Algebra
  • MAT3333 Fundamentals of Analysis and Topology
  • MAT3313 Logic and Computability
  • MAT3613 Differential Equations I
  • MAT3623 Differential Equations II
  • MAT3633 Numerical Analysis
  • MAT3223 Complex Variables
  • MAT4033 Abstract Linear Algebra II
  • MAT4213 Real Analysis I
  • MAT4223 Real Analysis II
  • MAT4233 Modern Abstract Algebra
  • MAT4273 Topology
  • MAT4283 Computing for Mathematics
  • MAT4323 Applied Graph Theory
  • MAT4373 Mathematical Statistics I

Business

Math for Liberal Arts

  • MAT1043 Introduction to Mathematics

Elementary Education

  • MAT1023 College Algebra
  • MAT1153 Essential Elements in Mathematics I
  • MAT1163 Essential Elements in Mathematics II

General Math Studies

Graduate Studies

Core M.Sc. Studies

Core courses, common across all M.Sc. tracks, must be at least 50% of the credit 30 hours needed to obtain a M.Sc. degree. The following courses add up to 15 credit hours.

Qualifying Examination Tracks

  • MAT5183 Algebra II (Pure, Applied tracks)
  • MAT5123 Cryptography (Pure, Applied tracks)
  • MAT5323 Cryptography II (Pure, Applied tracks))
  • MAT5213 Analysis II (Pure track)
  • MAT5113 Computing for Mathematics (Pure, Applied tracks)
  • MAT5433 Discrete Mathematics II (Pure, Applied tracks)
  • MAT5383 Mathematical Statistics II (Applied tracks)

M.Sc. Track in Pure Mathematics

M.Sc. Track in Applied & Industrial Mathematics

M.Sc. in Mathematics Education