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Mathematical Analysis Volume II

Lee-Peng Teo

Abstract

This is the second volume of a textbook for a two-semester course in mathematical analysis. This second volume is about analysis of multi-variable functions. The topics covered include Euclidean spaces, convergence of sequences, open sets and closed sets, limits and continuity, uniform continuity, connectedness, compactness, intermediate value theorem, extreme value theorem, partial derivatives, differentiability, chain rule, mean value theorem, first and second order approximations, local extrema, inverse function theorem, implicit function theorem, constrained extrema problems and Lagrange multipliers, Riemann integrals of functions of several variables, Jordan measurable sets, iterated integrals, Fubini's theorem, change of variables theorem, Fourier series and its convergence, Fourier transforms.

Mathematical Analysis Volume II

Abstract

This is the second volume of a textbook for a two-semester course in mathematical analysis. This second volume is about analysis of multi-variable functions. The topics covered include Euclidean spaces, convergence of sequences, open sets and closed sets, limits and continuity, uniform continuity, connectedness, compactness, intermediate value theorem, extreme value theorem, partial derivatives, differentiability, chain rule, mean value theorem, first and second order approximations, local extrema, inverse function theorem, implicit function theorem, constrained extrema problems and Lagrange multipliers, Riemann integrals of functions of several variables, Jordan measurable sets, iterated integrals, Fubini's theorem, change of variables theorem, Fourier series and its convergence, Fourier transforms.
Paper Structure (63 sections, 2414 equations, 131 figures)

This paper contains 63 sections, 2414 equations, 131 figures.

Table of Contents

  1. Euclidean Spaces
  2. The Euclidean Space $\pmb{\mathbb{R}^n}$ as a Vector Space
  3. Convergence of Sequences in $\pmb{\mathbb{R}^n}$
  4. Open Sets and Closed Sets
  5. Interior, Exterior, Boundary and Closure
  6. Limit Points and Isolated Points
  7. Limits of Multivariable Functions and Continuity
  8. Multivariable Functions
  9. Polynomials and Rational Functions
  10. Component Functions of a Mapping
  11. Invertible Mappings
  12. Linear Transformations
  13. Quadratic Forms
  14. Limits of Functions
  15. Continuity
  16. ...and 48 more sections

Figures (131)

  • Figure 1. 1: A Line between two points.
  • Figure 1. 2: Distance between two points in $\mathbb{R}^2$.
  • Figure 1. 3: Cosine rule.
  • Figure 1. 4: The projection theorem.
  • Figure 1. 5: The projection functions.
  • ...and 126 more figures