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Mathematics III - Foundations of Analysis - Summer 24
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Summer courses ST24
MM5021 ST24
2. Metric spaces and compact sets
Interior points and Open sets
Interior points and Open sets
Definition of Interior points and open sets
Click
https://youtu.be/jFslPnnarkU
link to open resource.
◄ Open Balls of a metric space
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Getting to Grips with LaTeX
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Topics Oral Exam
ST24 Homework-1-DUE:June 29th
ST23 Homework-2-DUE: 14/07 23:59 AM
ST23 Homework-3-DUE: 28/07
Old Exams
Lecture 1
Some comments on sets
Quiz: Week 1
Lecture Slides
Lecture 2
Quiz: Week 2
Metric Spaces
Open Balls of a metric space
Open covers and compact sets: Definition
Lecture SLides 2
Lecture SLides 1
Lecture 3
Quiz: Week 3
Theorem: Every compact set is closed and bounded
Theorem: Infinite sets of compact sets have limit points
Lecture Slides
Lecture 4
Quiz: Week 4
The Cauchy construction of the real numbers
An old lecture on sequences
Notes of the video on Sequences
Lecture 5
Quiz: Week 5
Lecture 6
Quiz: Week 6
Some video-lectures on differentability for real valued functions
Rudin Chpt 6 pages 120-134
Lecture 7
Quiz: Week 7
Lecture 8
Quiz 8
Lecture 9
Quiz 9
Statement of The implicit function Theorem
An interpretation of the Implicit Function Theorem
Statement of the Inverse Function Theorem
Proof of the Inverse Function Theorem from the Implicit Function Theorem
Proof of the Implicit Function Theorem (Step 1/5)
Proof of the Implicit Function Theorem (Step 2/5)
Proof of the Implicit Function Theorem (Step 3/5)
Proof of the Implicit Function Theorem (Step 4/5)
Proof of the Implicit Function Theorem (Step 5/5)
Lecture 10
Open covers and compact sets: Definition ►