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complex equation |
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| Jan2-13, 01:53 PM | #1 |
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complex equation
Hi, I need a little help
 I need to find solution for this equations: [itex]\frac{Z-a}{Z-b}[/itex]=K[itex]e^{ąjθ}[/itex] The Z is unknown and it is the complex number. The a and b is known and they are also complex numbers. K is the real number. I know that for [itex]-90^{°}[/itex]<θ<[itex]90^{°}[/itex] the graph in the complex plane is circle, for [itex]-45^{°}[/itex]<θ<[itex]45^{°}[/itex] the graph in the complex plane is in shape of "tomato" and for [itex]-135^{°}[/itex]<θ<[itex]135^{°}[/itex] is shape of "lens", but I don't know how to solve it. Sorry if my post is in wrong area. Thanks for help. |
| Jan2-13, 03:04 PM | #2 |
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Leaving it to you the conditions of existence:
[itex]Z=\frac{a-b.K.\textrm{e}^{ \pm j \theta }}{1-K.\textrm{e}^{ \pm j \theta }}[/itex] |
| Jan2-13, 04:06 PM | #3 |
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In that way I got only the one solution, where are the other?
For example, let's put b=0, K=1, theta=45°, with above formula we got only the one solution, but there is more than one solution... |
| Jan12-13, 04:02 PM | #4 |
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complex equation
How do you only get one solution when there's clearly a [itex]\pm[/itex] in his answer?
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