Geometric meaning of \(\displaystyle{\left|{\left|{z}-{z}_{{1}}\right|}-\right|}{z}-{z}_{{2}}{\mid}{\mid}={a}\), where \(\displaystyle{z},{z}_{{1}},{z}_{{2}}\in{\mathbb{{C}}}\)

Oxinailelpels3t14

Oxinailelpels3t14

Answered question

2022-03-24

Geometric meaning of ||zz1||zz2=a, where z,z1,z2C

Answer & Explanation

disolutoxz61

disolutoxz61

Beginner2022-03-25Added 12 answers

One way to define a hyperbola is
a set of points, such that for any point P of the set, the absolute difference of the distances PF1,PF2 to two fixed points F1,F2 (the foci) is constant
or, using the complex-plane notation from your question,
a set of points, such that for any point z of the set, the absolute difference c of the distances |zz1|,|zz2| to two fixed points z1,z2 (the foci) is constant
So yes, the locus is a hyperbola.
The mistake you're making when you try to “bring the equation to canonical form” x2a2y2b2=1 is that that form assumes that the two foci are on the x-axis and equidistant from the origin, whereas an arbitrary hyperbola can have its foci anywhere.
If you need an explicit equation, it may be helpful to break each complex value into its real (x) and imaginary (y) components.
||zz2||zz1=c
||(x+iy)(x2+iy2)||(x+iy)(x1+iy1)=c
||(xx2)+i(yy2)||(xx1)+i(yy1)=c
|(xx2)2+(yy2)2(xx1)2+(yy1)2|=c
(xx2)2+(yy2)2(xx1)2+(yy1)2=±c
Now, if you have an equation of the form uv=w, then doing some algebra gives you (w2uv)2=4uv, eliminating the inconvenient √ signs.
(c2(xx2)2(yy2)2(xx1)2(yy1)2)2=4((xx2)2+(yy2)2)((xx1)2+(yy1)2)

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