Difference between revisions of "MAT3333"

From Department of Mathematics at UTSA
Jump to navigation Jump to search
(Week 3)
(Added textbook information)
Line 2: Line 2:
 
MAT 3333 Fundamentals of Analysis and Topology.
 
MAT 3333 Fundamentals of Analysis and Topology.
  
'''Catalog entry''':
+
'''Catalog entry:'''
 
MAT 333 Fundamentals of Analysis and Topology.
 
MAT 333 Fundamentals of Analysis and Topology.
 
Prerequisite: MAT 3003 Discrete Mathematics, or consent of instructor.
 
Prerequisite: MAT 3003 Discrete Mathematics, or consent of instructor.
 
Topology of the real line. Introduction to point-set topology.
 
Topology of the real line. Introduction to point-set topology.
  
'''Prerequisites''': MAT 1224 and MAT 3003.  
+
'''Prerequisites:'''
 +
MAT 1224 and MAT 3003.
 +
 
 +
'''Sample textbooks:'''
 +
* John M. Erdman, ''[https://bookstore.ams.org/view?ProductCode=AMSTEXT/32 A Problems Based Course in Advanced Calculus].'' Pure and Applied Undergraduate Texts 32, American Mathematical Society (2018). ISBN: 978-1-4704-4246-0.
 +
* Jyh-Haur Teh, ''[https://leanpub.com/advancedcalculusi-1 Advanced Calculus I].'' ISBN-13: 979-8704582137.
  
'''Sample textbook''': Introduction to Real Analysis by Bartle and Sherbert
 
  
 
==Topics List==
 
==Topics List==
 +
(Section numbers refer to Erdman's book.)
 +
 
{| class="wikitable sortable"
 
{| class="wikitable sortable"
 
! Week !! Sections !! Topics !! Student Learning Outcomes
 
! Week !! Sections !! Topics !! Student Learning Outcomes

Revision as of 13:24, 25 March 2023

Course name

MAT 3333 Fundamentals of Analysis and Topology.

Catalog entry: MAT 333 Fundamentals of Analysis and Topology. Prerequisite: MAT 3003 Discrete Mathematics, or consent of instructor. Topology of the real line. Introduction to point-set topology.

Prerequisites: MAT 1224 and MAT 3003.

Sample textbooks:


Topics List

(Section numbers refer to Erdman's book.)

1 2 3
Week Sections Topics Student Learning Outcomes

1.1-1.2

Basic topological notions in the real line.

  • Intervals of the real line.
  • Distance.
  • Neighborhoods and interior of a set.

2.1–2.2

Elementary topology of the real line.

  • Open subsets of ℝ.
  • Closed subsets of ℝ.

3.1–3.3

Continuous functions on subsets of the real line.

  • Continuity at a point.
  • Continuous functions on ℝ.
  • Continuous functions on subsets of ℝ.