Help with Describing Image of |z-1| ≤ 1 in Complex Plane

AI Thread Summary
The discussion focuses on describing the image of the inequality |z - 1| ≤ 1 in the complex plane under the transformation w = 1/z. The initial claim was that Re(w) ≤ 1/2, but it was corrected to Re(w) ≥ 1/2 after considering the mapping of specific points. The transformation involves expressing z as x + iy and deriving the real part of w, leading to the conclusion that if |z - 1| ≤ 1, then x^2 + y^2 ≤ 2x implies Re(w) ≥ 1/2. The participants confirm the correctness of this conclusion.
simick1712
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Hi everyone - I'm sure there's somebody here who can help with such a trivial question.

It's not a homework question before that's assumed - it's from a past exam paper, which I'm using for revision, sans answers.

It asks to describe, in the complex plane, the image of:

|z - 1| \leq 1

under the transformation

w = \frac{1}{z}

Now, I found the answer to be:

Re(w) \leq \frac{1}{2}

Is this correct?

Thanks for any help,

Simon.
 
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Are you sure about the direction of that inequality? z= 1 itself satisfies |z-1|=0< 1 and z= 1 is mapped into w= 1 which has real part 1> 1/2.
 
Oops - no, I'm not sure of that at all - what I actually meant (of course!) was

Re(w) \geq \frac{1}{2}
 
Yep. If z= x+ iy, then w= \frac{1}{z}= \frac{1}{x+iy}\frac{x-iy}{x-iy}= \frac{x-iy}{x^2+y^2} which has real part \frac{x}{x^2+ y^2}.

If z satisfies |z-1|\le 1 then |z-1|= \sqrt{(x-1)^2+ y^2}\le 1 so (x-1)^2+ y^2= x^2+ y^2- 2x+ 1\le 1.
That is, x^2+ y^2\le 2x and therefore \frac{x}{x^2+ y^2}\ge \frac{1}{2}.
 
Excellent - thanks very much for your help.

Simon.
 

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