Instructor: Dr. Tamás KELETI
Text: W. Rudin, Real and Complex Analysis (3rd edition)
Prerequisite: calculus or rather an introductory analysis course;
some elementary knowledge of topology and linear algebra is desirable,
but a short introduction will be offered to make the course self contained.
(please consult the syllabus of the ANT course; if most of the material
it covers is unfamiliar for you, take that instead of the RFM course)
Course description: This course provides an introduction into the Lebesgue theory of real functions and measures.
Topics:
Topological and measurable spaces. The abstract theory of measurable
sets and functions, integration.
Borel measures, linear functionals, the Riesz theorem.
Bounded variation and absolute continuity. The Lebesgue-Radon--Nikodym
theorem.
The maximal theorem. Differentiation of measures and functions. Density.
(if
time permits)