What is the image of the quarter disc Q under the mapping f(z)=z^2?

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Homework Help Overview

The discussion revolves around the image of a quarter disc under the mapping f(z)=z^2. The quarter disc is defined in the complex plane, specifically for points where the real part and imaginary part are both positive and the modulus is less than 1.

Discussion Character

  • Exploratory, Mathematical reasoning, Problem interpretation

Approaches and Questions Raised

  • Participants explore the mapping by considering specific points and using polar representation to analyze the transformation. There is a focus on how the modulus and argument change under the mapping.

Discussion Status

Some participants have provided insights into the transformation process and have suggested that the image may be a semicircle in the upper half-plane. However, there is no explicit consensus on the final characterization of the image.

Contextual Notes

Participants note the challenge of dealing with this mapping as it is not a Möbius transformation, which may affect their approach to finding the image.

latentcorpse
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Let [itex]Q:=\{ z: Re(z)>0, Im(z)>0, |z|<1 \}[/itex] i.e. the quarter disc.

what is the image of Q by the mapping [itex]f(z)=z^2[/itex]

by trial and error with various points, my answer is that it takes Q to the semicircle [itex]\{ z: Re(z)>0, |z|<1 \}[/itex]

but can't how this explicitly as it's not a mobius transformation with which I am used to dealing with.
 
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latentcorpse said:
Let [itex]Q:=\{ z: Re(z)>0, Im(z)>0, |z|<1 \}[/itex] i.e. the quarter disc.

what is the image of Q by the mapping [itex]f(z)=z^2[/itex]

The best way to find the image of mappings like this is to let [itex]z=re^{i\theta}[/itex] and then look at what your mapping does to this polar representation of all z in your region Q.
 
ok so the modulus will square but that's just 1 again and the argument doubles.

our original angle was from 0 to pi/2
so now we go from 0 to pi
so it will be a semicircle in the upper half plane of radius 1?
 
latentcorpse said:
so it will be a semicircle in the upper half plane of radius 1?

Looks good to me.
 

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