MA270 Analysis 3
Lecturer: Jose Rodrigo
Term(s): Term 1
Status for Mathematics students: Core for Maths
Commitment: 30 one-hour lectures plus assignments
Assessment: 85% by 2-hour examination, 15% coursework
Formal registration prerequisites: None
Assumed knowledge: Notions of convergence, and basic results for sequences, series, differentiation and integration from introductory analysis modules like MA141 Analysis 1 and MA139 Analysis 2; knowledge of vector spaces from MA150 Algebra 2
Useful background: Basic results about curves, surfaces and vector fields from MA144 Methods of Mathematical Modelling 2
Synergies: MA250 Introduction to Partial Differential Equations
Leads to: The following modules have this module listed as assumed knowledge or useful background:
- MA260 Norms, Metrics and Topologies
- MA263 Mutivariable Analysis
- MA269 Asymptotics and Integral Transforms
- MA3K8 Variational Principles, Symmetry and Conservation Laws
- MA3H0 Numerical Analysis and PDEs
- MA3D9 Geometry of Curves and Surfaces
- MA3B8 Complex Analysis
- MA3H7 Control Theory
- MA3G1 Theory of Partial Differential Equations
- MA3K0 High Dimensional Probability
- MA3G7 Functional Analysis I
- MA359 Measure Theory
- MA4L6 Analytic Number Theory
Content:
- Continuous Vector-Valued Functions
- Some Linear Algebra
- Differentiable Functions
- Uniform convergence and applications
- Convergence of sequences and series of functions
- Introduction to complex valued functions
Objectives: By the end of the module the students should be able to:
- Understand uniform and pointwise convergence of functions together with properties of the limit function
- Study the continuity, differentiability and integral of the limit of a uniformly convergent sequence of functions
- Study complex differentiability (Cauchy-Riemann equations) and complex power series
- Study contour integrals: Cauchy's integral formulas and applications.
Books: There is no recommended textbook for the course. A complete set of lecture notes will be provided.