Mastering Complex Calculus: From Derivatives to Residues

Complex Calculus: derivatives of complex variables, contour integration, Laurent series, Fourier series, and residues

4.90 (48 reviews)

Udemy

platform

English

language

Math

What you will learn

How to derive the most important theorems and concepts related to Complex Calculus

Cauchy's integral theorem

Cauchy's integral formula

Laurent Series

How to derive the Fourier Series from the Laurent Series

How to derive the Taylor Series from the Laurent Series

Residues

Contour integration

Why take this course?

Complex Calculus is an essential course that provides students with a foundation in complex functions, derivatives of complex variables, contour integration, Laurent series, Fourier series, and residues. In this course, you will learn the key concepts of Complex Calculus, and the process of reasoning by using mathematics, rather than rote memorization of formulas and exercises. Here's what you need to know about this course:

Introduction to Complex Functions: The course begins by focusing on the concept of complex functions.
Derivatives of Complex Variables: Next, the concept of derivative is extended to functions of a complex variable.
Contour Integration: You will learn about contour integration, and the following theorems will be derived: Cauchy's integral theorem and Cauchy's integral formula.
Laurent Series: The Laurent series will be mathematically derived. From Laurent, the Fourier and Taylor series are also derived.
Residues: You will be introduced to residues and how to use them to do contour integration.
Prerequisites: To take this course, you should have completed single variable Calculus, especially derivatives and integrals, and multivariable Calculus, especially line integrals and Stokes' theorem.
Original Material: This course is based on the instructor's notes on Complex Calculus, and the presentation of the results is therefore original.
Focusing on Understanding: The explanations are given by focusing on understanding and mathematically deriving the key concepts, rather than learning formulas and exercises by rote.
Benefits: Some of the results presented in this course constitute the foundations of many branches of science, including Quantum Mechanics, Quantum Field Theory, and Engineering (in the Control theory of dynamical systems, for instance). By mastering the contents of this course, you will be able to tackle the most interesting mathematical and engineering problems.
Who this course is for: This course is suitable for anyone interested in expanding their knowledge of mathematics, including students of mathematics, physics, engineering, and related fields, as well as professionals who wish to develop their understanding of Complex Calculus.

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Reviews

Shravan

June 16, 2023

i think this course is really good in explaining these concepts. The only thing is that he sometimes does a few steps that can confuse some people. All in all, it’s a great course still and I recommend it

Aldemar

December 31, 2022

Great course, very detailed step by step explanations, plenty of interesting exercises to practice along with the instructor.

Gabriel

October 28, 2022

It's a super curse! I just wanted to learn Complex Analisis an I learned some Quantum Ecuations as well, the professor is very kind an He responses all your questions. The demostraions are very clear. I loved it.

Michael

September 28, 2021

Was a good introduction to integration in the complex plane and helped me to prepare for the Complex Analysis section of Kreyzig's book "Advanced Engineering Mathematics".

Alex

June 20, 2021

excellent revision :-) Only thing which is freaking me out is that his "n"s look like my "m"s so if i am not paying attention i keep wondering what simh is :-) but good stuff ok - halfway through...i will have to go back over the laurent series stuff, it gets pretty confusing - starts with function of z then changes to w with a z0... :-) but its good - i am going to skip ahead to the residue as this looks interesting...fourier and taylor is not so interesting as i know that...So having pretty much finished the course i think it is excellent - you really need to have a firm grasp of calculus and multi variate calculus, and familiarity with power series ideas before starting, he doesnt hold your hand when changing from dz to dtheta for instance - i found the pace good, i did have to repeat some of the laurent series derivation stuff. I have no idea what it could be used for, which would have been cool to know maybe some uses in physics but i expect i will see that in his other courses. It does not do massive rigorous proofs, but to get a fast idea of complex calculus it is a great starting place...i might like an "applied complex calculus to physics problems course" hint hint

Mattheus

February 25, 2021

The instructor did a great job! I appreciated his method of explanation very much, because he explains and motivates every step most detailed. For sure, it's advanced math so corresponding one's previous knowledge and grasp, one has to watch some of the videos twice or three times due to the density of the subject matter. Highly recommanded!

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