MATH 5111: Real Analysis
Description: Abstract integration: Lebesgue integration theory, outer measures and Caratheodory's theorem, Fatou's lemma, monotone and dominated convergence theorems. Measure theory: positive Borel measures, Riesz representation theorem for positive linear functionals on C(K), complex measures, Hahn-Jordan and Lebesgue decompositions, Radon-Nykodim theorem and differentiation of measures, Riemann-Stieltjes integral, the Lebesgue measure on Rd. Lp spaces: Cauchy-Bunyakovsky-Schwarz, Hoelder, Minkowski and Jensen inequalities, L2 and Lp spaces as Hilbert and Banach spaces, Riesz representation theorem for bounded functionals on Lp. Integration on product spaces, Fubini's and Tonelli's theorems, Fourier transform and Plancherel theorem. For prelim preparation, see the prelim study guide.
Prerequisites: MATH 5110.
MATH 5111 - Section 1: Measure and Integration
Description: Prelim exam course. Instructor: Matthew Badger
Sections: Spring 2018 on Storrs Campus
|02383||5111||001||Lecture||MWF 10:10:00 AM-11:00:00 AM||Badger, Matthew|