x

# Advanced Complex Analysis Part 1

IIT Madras, , Prof. T.E. Venkata Balaji

Updated On 02 Feb, 19

##### Overview

Theorems of Rouche and Hurwitz:Fundamental Theorems Connected with Zeros of Analytic Functions - The Argument (Counting) Principle, Rouche's Theorem and The Fundamental Theorem of Algebra - Morera's Theorem and Normal Limits of Analytic Functions - Hurwitz's Theorem and Normal Limits of Univalent Functions;Open Mapping Theorem:Local Constancy of Multiplicities of Assumed Values - The Open Mapping Theorem;Inverse Function Theorem:Introduction to the Inverse Function Theorem - Completion of the Proof of the Inverse Function Theorem: The Integral Inversion Formula for the Inverse Function - Univalent Analytic Functions have never-zero Derivatives and are Analytic Isomorphisms;Implicit Function Theorem:Introduction to the Implicit Function Theorem - Proof of the Implicit Function Theorem: Topological Preliminaries - Proof of the

Implicit Function Theorem: The Integral Formula for & Analyticity of the Explicit Function
Riemann Surfaces for Multi-Valued Functions:Doing Complex Analysis on a Real Surface: The Idea of a Riemann Surface - F(z,w)=0 is naturally a Riemann Surface - Constructing the Riemann Surface for the Complex Logarithm - Constructing the Riemann Surface for the m-th root function - The Riemann Surface for the functional inverse of an analytic mapping at a critical point - The Algebraic nature of the functional inverses of an analytic mapping at a critical point;Analytic Continuation:The Idea of a Direct Analytic Continuation or an Analytic Extension - General or Indirect Analytic Continuation and the Lipschitz Nature of the Radius of Convergence - Analytic Continuation Along Paths via Power Series - Continuity of Coefficients occurring in Families of Power Series defining Analytic Continuations along Paths

## Lecture 12: Proof of the Implicit Function Theorem The Integral Formula for & Analyticity

4.1 ( 11 )

###### Lecture Details

Advanced Complex Analysis - Part 1 by Dr. T.E. Venkata Balaji,Department of Mathematics,IIT Madras.For more details on NPTEL visit httpnptel.ac.in

#### 0

0 Ratings
55%
30%
10%
3%
2%

Sam

Excellent course helped me understand topic that i couldn't while attendinfg my college.

Dembe

Great course. Thank you very much.