Complex Derivative of Im(z): Find f'(z)

  • Thread starter Thread starter BUConsul
  • Start date Start date
  • Tags Tags
    Derivative
BUConsul
Messages
4
Reaction score
0
So, Iv'e been doing a little bit of prestudying for the Complex Variables/Analysis calss that I'm taking in the Spring and Iv'e just finished learning about complex derivatives. So, the Caughy-Riemann equations harmonivs functions and the like. I also learned about diffrentiability (in the Complex Plane) and holomorphicity. So I was doing the HW in the back of the chapter and I wasn't able to do one of the problems.

Find if f'(z) exists, and if it does state at which points is it differntiable and where is it holomorphic and find f'(z)
I. f(z)=Im(z )

I. f(z)=Im(z)=f(x,y)=Im(x+iy)=y, fx= 0, fy=1 By Cuachy-Reimann we have that f'(z) exists for all points that satisfy fx=-ify Subbing in: 0 = -i(1) -> Since there exists no x,y in R that satisfies the given equations f(z) is nowhere differentiable. But the solution in the back of the book says: "di differentiable at 0 with derivative 0, nowhere holomorphic". I'm a bit confused here, and I would greatly appreciate any help, I noticed that f:C -> R and was wondering if that had anything to do with the solution.
 
Physics news on Phys.org
Well if you calculate the derivative at z=0 you get:

Im z / z = y/(x+iy)=y(x-iy)/(x^2+y^2)

if you first calculate x->0 and afterwards y->0 you get -i.
If first y->0 and then x->0 you get 0.

So no there isn't a limit in z=0.
 
Yeah, mathematicalphysicist is correct. The book is wrong I think...
Can you tell us what book you are using?
 
I'm not using any book, perse. Instead I'm lecture notes as found here: http://www.math.binghamton.edu/sabalka/teaching/09Spring375/complex.pdf . Thanks for the help, MathematicalPhysicist and MicroMass, glad to know I'm not completely mis understanding the concept. By the way, does anyone know of a better text for complex variables?
 
Last edited by a moderator:
Judging by a quick perusal, that set of lecture notes is not bad, and it's pretty generous for the authors to give problems and solutions, even if there was apparently an oversight. I don't see any problem with continuing to work through it. Also wikipedia is good for complex analysis topics, and I completely forgot about looking there when I took complex analysis this past quarter (my teacher had good lecture notes, but wikipedia's articles have some neat applications pulled from various sources).

If you want a textbook, I recommend Ahlfors Complex Analysis, especially if you prefer a geometric point of view.
 

Thread 'Finding the nth roots of a complex number'

There are two things I don't understand about this problem. First, when finding the nth root of a number, there should in theory be n solutions. However, the formula produces n+1 roots. Here is how. The first root is simply ##\left(r\right)^{\left(\frac{1}{n}\right)}##. Then you multiply this first root by n additional expressions given by the formula, as you go through k=0,1,...n-1. So you end up with n+1 roots, which cannot be correct. Let me illustrate what I mean. For this...
View full post »

Similar threads

Is f(z) =(1+z)/(1-z) a real function?
Replies
17
Views
3K
Find the constrained maxima and minima of ##f(x,y,z)=x+y^2+2z##
Replies
2
Views
1K
Where is ##(z+1)Ln(z)## differentiable?
Replies
5
Views
2K
Calculus ## G(y, z)=z\frac{\partial}{\partial z}F(y, z)-F(y, z) ##?
Replies
6
Views
2K
Where is f(z) = e-xe-iy differentiable and holomorphic?
Replies
6
Views
2K
Taking the derivative of complex functions
Replies
5
Views
2K
Lagrange multipliers understanding
Replies
8
Views
2K
Prove that this function is holomorphic
Replies
16
Views
2K
Show that the real part of a certain complex function is harmonic
Replies
7
Views
2K
Condition for f(x,y,z) = f(x,y,z(x,y)) being extremized
Replies
15
Views
2K

Hot Threads

Recent Insights

Back
Top