Number of lectures per week: 3
Assessment: Some assignments, which do not contribute to the final grade
End-of-year Examination: One 3-hour end of year examination
Description: Introduction to measures. Definition of Lebesgue integral on the real line. General integration, monotone and dominated convergence theorems, Fubini's Theorem.
Derivative as a linear operator for functions between finite dimensional real vector spaces, partial derivatives in Rn, chain rule, equality of mixed partials, criterion for differentiability.
Inverse function theorem, Cn functions, coordinate systems and partial derivatives, manifold, implicit function theorem, tangent space, differentials and vector fields, push-forward, pull-back, Lagrange multipliers, exterior derivative, closed and exact forms, line integral, change of variable in multiple integral, integration of forms.
Functions of a complex variable, differentiability, contour integration. Cauchy's integral formula, Taylor and Laurent series, conformal property, zeros and poles, residues, evaluation of integrals, analytic continuation, maximum modulus principle.
Oct 11, 2000