Relation between a circle and line in complex plane

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TL;DR
Distance of line from center
I was reading a book on complex numbers where I stumbled upon this article.

I was following it when I found some error.

1000066627.jpg


The distance between the center of circle and line should be mod(z star - z1) right?
Z0 is just any random pt on line.

They have continued this fallacy in example 3.10 also.


Am I correct?


I have added zoomed in images too
1000066628.jpg
1000067072.jpg
1000067067.jpg
 
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PeroK said:
The attachments are too small to read.
I've added more zoomed in versions sir
 
PeroK said:
PS if ##\bar z## is the complex conjugate, then the whole thing looks wrong.
Yes and eta is the complex slope
 
Darshit Sharma said:
Yes and eta is the complex slope
The equation ##z = \bar z + 3i## reduces to ##y = \frac 3 2##, where ##z = x + yi##.

And, the equation ##|z + 4 - 2i| = 3## is the circle radius ##3##, centred on ##-4 + 2i##.

Clearly, that line intersects the circle at two points, as it passes the centre at a distance of ##\frac 1 2##.

PS using this geometric approach, you can see that the point on the line closest to the centre of the circle is ##-4 + \frac 3 2 i##.

The book's conclusion is truly bizarre!
 
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Yes sir....they have used their previously derived eqns using z0 as the center of the circle lol.......Thanks sir I just wanted to verify. And sir can you suggest some books on complex numbers please
 
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Darshit Sharma said:
Yes sir....they have used their previously derived eqns using z0 as the center of the circle lol.......Thanks sir I just wanted to verify. And sir can you suggest some books on complex numbers please
I don't have a book on complex numbers.
 
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It's probably just a typo. For instance, its conclusion would have worked for the line ##z=\bar{z} -3i##. Or the center of the circle could be shifted.
Proof reading a book is an endless, thankless job. You might inform the author of the mistake.
 
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Darshit Sharma said:
can you suggest some books on complex numbers please
I have never seen a book like that on complex numbers. There are a multitude of books on complex analysis but without nearly that much detail on the geometry of complex numbers.
 
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FactChecker said:
It's probably just a typo. For instance, its conclusion would have worked for the line ##z=\bar{z} -3i##. Or the center of the circle could be shifted.
Proof reading a book is an endless, thankless job. You might inform the author of the mistake.
The authors used ##z_1## for the centre of the circle, but when it came to calculate the distance to the centre of the circle, they used ##z_0##.

That's an easy mistake to make. But, if they had checked the answer to example 3.10, they would have spotted the error in that and the formulas in the next section.
 
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Darshit Sharma said:
TL;DR Summary: Distance of line from center

I was reading a book on complex numbers where I stumbled upon this article.

I was following it when I found some error.

View attachment 355154

The distance between the center of circle and line should be mod(z star - z1) right?
Z0 is just any random pt on line.

They have continued this fallacy in example 3.10 also.


Am I correct?


I have added zoomed in images tooView attachment 355155View attachment 355157View attachment 355158
I assume this refers to the _shortest_ distance between the two. So you consider a line from the center of the circle that is perpendicular to the line, then find the distance between the center of the circle and point of intersection with the line given. Have you tried this?
 
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WWGD said:
I assume this refers to the _shortest_ distance between the two. So you consider a line from the center of the circle that is perpendicular to the line, then find the distance between the center of the circle and point of intersection with the line given. Have you tried this?
Yup the perpendicular dist of line from center.....which they have done wrong in the book.
 
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FactChecker said:
It's probably just a typo. For instance, its conclusion would have worked for the line ##z=\bar{z} -3i##. Or the center of the circle could be shifted.
Proof reading a book is an endless, thankless job. You might inform the author of the mistake.
Sure sir
 
Darshit Sharma said:
Yes sir....they have used their previously derived eqns using z0 as the center of the circle lol.......Thanks sir I just wanted to verify. And sir can you suggest some books on complex numbers please
One of the easiest books to learn from, is Churchill and Brown.

A similar book is the one by Zill. I own a copy of Zill, never read it, but someone I mentored was taking Complex Analysis [undergrad], and I let them borrow 5 books.

They chose Zill.

For a more advance treatment. There is the book by Lang.

Are you doing pure math or more for physics/engineering. What level of mathematics are you at.