Advanced Calculus

From David's Wiki
Revision as of 05:01, 10 November 2019 by David (talk | contribs) (→‎Compact)
\( \newcommand{\P}[]{\unicode{xB6}} \newcommand{\AA}[]{\unicode{x212B}} \newcommand{\empty}[]{\emptyset} \newcommand{\O}[]{\emptyset} \newcommand{\Alpha}[]{Α} \newcommand{\Beta}[]{Β} \newcommand{\Epsilon}[]{Ε} \newcommand{\Iota}[]{Ι} \newcommand{\Kappa}[]{Κ} \newcommand{\Rho}[]{Ρ} \newcommand{\Tau}[]{Τ} \newcommand{\Zeta}[]{Ζ} \newcommand{\Mu}[]{\unicode{x039C}} \newcommand{\Chi}[]{Χ} \newcommand{\Eta}[]{\unicode{x0397}} \newcommand{\Nu}[]{\unicode{x039D}} \newcommand{\Omicron}[]{\unicode{x039F}} \DeclareMathOperator{\sgn}{sgn} \def\oiint{\mathop{\vcenter{\mathchoice{\huge\unicode{x222F}\,}{\unicode{x222F}}{\unicode{x222F}}{\unicode{x222F}}}\,}\nolimits} \def\oiiint{\mathop{\vcenter{\mathchoice{\huge\unicode{x2230}\,}{\unicode{x2230}}{\unicode{x2230}}{\unicode{x2230}}}\,}\nolimits} \)

Advanced Calculus as taught in Fitzpatrick's book.


Sequences

Topology

Closed

The folllowing definitions of Closed Sets are equivalent.

  • (Order)
  • (Sequences) A set \(\displaystyle S\) is clsoed if it contains all its limit points. That is \(\displaystyle \forall \{x_i\} \subseteq S\), \(\displaystyle \{x_i\} \rightarrow x_0 \implies x_0 \in S\).
  • (Topology)


Union of infinitely many closed sets can be open. Intersection of infinitely many open sets can be closed.

Compact

Compactness is a generalization of closed and bounded.

Definitions
  • (Sequence) A set is sequentially compact if for every sequence from the set, there exists a subsequence which converges to a point in the set.
  • (Topology) A set is compact if for every covering by infinitely many open sets, there exists a covering by a finite subset of the open sets.
Notes
  • A set is sequentially compact iff it is closed and bounded

Metric Space

Continuity

Definitions of Continuity

The following definitions of Continuity are equivalent.

  • (Order) A function \(\displaystyle f\) is continuous at \(\displaystyle x_0\) if for all \(\displaystyle \epsilon\) there exists \(\displaystyle \delta\) such that \(\displaystyle |x - x_0| \leq \delta \implies |f(x) - f(x_0)| \leq \epsilon\)
  • (Sequences) A function \(\displaystyle f\) is continuous at \(\displaystyle x_0\) if \(\displaystyle \{x_n\} \rightarrow x_0 \implies \{f(x_n)\} \rightarrow f(x_0)\)
  • (Topology) A function \(\displaystyle f\) is continuous at \(\displaystyle x_0\) if for all open sets \(\displaystyle V\) s.t. \(\displaystyle f(x_0) \in V\), \(\displaystyle f^{-1}(V)\) is an open set.
    • The preimage of an open set is open.
    • Continuous functions map compact sets to compact sets.

Differentiation

Integration

Approximation

Series

Inverse Function Theorem

Implicit Function Theorem

Line and Surface Integrals