Analysis II: Measure, Integration and Banach Spaces
Math 114 / 10-11:30 Tu Th / Science Center 507 (?)
Harvard University -- Fall 2014
Instructor:
Curtis T McMullen
Texts
- Required: Royden and Fitzpatrick,
Real Analysis, 4rd ed.
Pearson, 2010.
- Recommended: Stein and Shakarchi,
Fourier Analysis.
Princeton University Press, 2003.
- Also useful: Oxtoby,
Measure and Category.
Springer-Verlag, 1980.
Prerequisites:
Mathematics 23, 25, 55 or 112.
Analysis I: Complex Function Theory (Math 113) recommended.
Topics.
This course will provide a rigorous introduction to
measurable functions, Lebesgue integration, Banach spaces
and duality.
Possible topics include:
-
Measure and Integration
-
Real numbers; open sets; Borel sets.
-
Measurable functions. Littlewood's 3 principles.
-
Lebesgue integration
-
Monotonicity, bounded variation, absolute continuity.
-
Differentiable and convex functions.
-
Banach spaces
-
The classical Banach spaces.
-
Hilbert spaces and Fourier analysis.
-
Topological spaces; Tietze and Urysohn; C(X).
-
Compactness; Arzela-Ascoli.
-
Functional Analysis
-
Hahn-Banach theorem.
-
Baire category.
-
Open mapping theorem, closed graph theorem, uniform boundedness principle.
-
Weak topologies, Alaoglu's theorem.
-
Measures as the dual of C(X).
Reading and Lectures.
Students are responsible for all topics covered in
the readings and lectures.
Assigned material should be read before
coming to class. Lectures may go beyond the
reading, and not every topic in the reading will be
covered in class.
Grades.
Grades will be based on homework (40%), an in-class midterm (20%) and a
take-home final (40%).
Homework.
Homework will be assigned every week.
Late homework will not be accepted.
Collaboration between students is allowed, but you must write your own solutions, understand them and give credit to your collaborators.
Please use only the texts and your course notes for homework.
Final.
There will be a take-home final exam, to be completed
during reading period.
Calendar 2014.
- Tu, 2 Sep. First class
- Th-F, 27-28 Nov. Thanksgiving
- Tu, 3 Dec. Last class
- Th-W, 5-11 Dec. Reading period
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