Integrating the Complex conjugate of z with respect to z

[Deevise]

Im doing a bit of contour integration, and a question came up with a term in it am unsure of how to do: in its simplest form it would be

$$\int$$$$\bar{z}$$dz

where z is a complex number and $$\bar{z}$$ is it's conjugate. Hmm i can't get the formatting to work out properly.. :S

 

[Dick]

If you are integrating over a circular contour of radius R then zz*=R^2, so z*=R^2/z. Otherwise you just have to take the contour and write it as z=(x(t)+iy(t)), so z*=(x(t)-iy(t)).

 

[Deevise]

Well now i feel kind of stupid... its line intergration, not contour integration :P the question reads:

Evaluate the integral:

$$\int$$( $$\bar{z}$$ +1 ) dz
L

Where L is the line segment from -i to 1+i.

normally i would just integrate and sub in start and end point, but i have totaly drawn a blank on what to do with the conjugate in this case...

 

[Dick]

Just treat it as a complex line integral. You can only 'sub in' endpoints if the function you are integrating is analytic and has an antiderivative. (z*+1) doesn't. Parametrize L as a function of t and integrate dt. Like I said, if you have z=(x(t)+iy(t)) then z*=(x(t)-iy(t)).

 

[squidsoft]

See the thread below and how I solved it. Then apply the principles to your problem.

https://www.physicsforums.com/showthread.php?t=310902&page=2

 

[Deevise]

I think it's time i went to sleep... Yeh now that you mention the lack of anti-derivative i knew that. I think a good nights sleep will prepare me better for this exam than grinding my head into non-exsistant problems...

sorry to waste your time with inane questions lol... Thanks for the prompt responces.