document.write( "Question 593661: My question is really hard and not enrolled in a standard curriculum.
\n" ); document.write( "Given a triangle on a complex plane which contains three vertizes $\"x\"$ , $\"y\"$ and $\"z\"$ . Find a number which is equal to incenter (a centre of inscribed circle) of triangle.\r
\n" ); document.write( "\n" ); document.write( "Well, I won't describe long computations but I was succesful to find the formula of the center of circumscribed circle, it is here: http://www.part.lt/img/56a97dbe7b0b5039eda438ab99b5f6cb97.jpg\r
\n" ); document.write( "\n" ); document.write( "Is there a source with similar expression of incenter? \n" ); document.write( "

Algebra.Com's Answer #376423 by richard1234(7193) $\"\"$ $\"About$

You can put this solution on YOUR website!
Refer to (2) on the following website:\r
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\n" ); document.write( "\n" ); document.write( "http://mathworld.wolfram.com/Incenter.html\r
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\n" ); document.write( "\n" ); document.write( "Since complex numbers function like Cartesian vertices, you can use that formula for points in the complex plane. \n" ); document.write( "

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