MAT4223

Uniform Convergence of Sequences of Functions

• Convergence of sequences of numbers, Cauchy criterion
• Limits of functions, continuity, differentiability, Riemann integrability

• Understand the difference between pointwise convergence and uniform convergence

• Understand how the continuity, diferrentiablity and integrability behave under uniform convergence

Uniform Convergence of Series of Functions

• Convergence of series of numbers

• Learn the term-by-term differentiation (resp. integration) theorem
• Weierstrass M-test

Power Series and Analytic Functions

• Tests for convergence of series of numbers
• Taylor expansion formula

• Determine the set of convergence for a power series

• Apply the results of the previous sections to power series.
• Apply the results to the elementary functions

Weierstrass Example

• Uniform Convergence of Sequences of Functions

• Learn to construct a continuous function everywhere which is not differentiable anywhere

Euclidean Spaces: Algebraic Structure and Inner Product

• Vectors and operations with vectors, the dot product.
• Basic knowledge of trigonometry

• Norms in the Euclidean space, comparison
• Cauchy-Schwartz inequality, triangle inequality

Linear Tranformations

• Basic linear algebra concepts: matrices, linear transformations

• The matrix of a linear transformation
• The norm of a linear transformation
• Write equations of hyperplanes in the Euclidean space

The Topology of Higher Dimensions: interior, closure and boundary

• Basic notions of topology on the real line

• Learn basic notions of topology in the Euclidean space

Limits of Sequences in the Euclidean space and Bolzano-Weierstrass Theorem

• Limits of sequences of numbers

• Convergence theorems
• Bolzano-Weierstrass Theorem

The Heine-Borel Theorem

• Bolzano-Weierstrass Theorem

• Understand the structure of compact sets
• Applications

Limits of Functions

• Limits of real-valued functions

• Limit theorems, sequential criterion
• Iterated limits
• Commutation of iterated limits

Continuous Functions

• Continuous real-valued functions

• Characterizations of continuity
• Properties of continuous functions
• Extreme value theorem

Partial Derivatives and Integrals

• Basic results from Real Analysis I

• Commutation of partial derivatives
• Commutation of the limit with the the integral
• Differentiating under the integral sign

Differentiation of vector-valued functions

• Differentiation of real-valued functions and geometric interpretation

• Necessary and sufficient conditions for differentiation
• The total derivative of a differentiable function
• Determine whether a function if differentiable or not

Rules for Differentiation and tangent planes

• Rules for Differentiation of real-valued functions

• Basic rules for differentiation and applications
• Tangent hyperplanes to surfaces
• Chain rule

Mean-Value Theorems

• Mean-value theorems for real-valued functions

• Mean-value theorems for vector-valued functions
• Lipschitz functions

Taylor's Formula in several variables

Taylor's formula for real-valued functions

• Taylor's Formula in several variables, applications

The Inverse Function Theorem

• The inverse function theorem for real-valued functions

• The inverse function theorem for vector-valued functions and applications

Lebesque theorem for Riemann Integrability on the Real Line

Integration in Higher Dimensions: Jordan regions and Volume

Riemann Integration on Jordan Regions in Higher Dimensions

Iterated Integrals and Fubini's Theorem