Difference between revisions of "Exponential form"

Revision as of 22:06, 5 September 2006

Every complex number z is the sum of a real and an imaginary component, z=a+bi. If you consider complex numbers to be coordinates in the complex plane with the x-axis consisting of real numbers and the y-axis pure imaginary numbers, then every point z=a+bi can be graphed as (x,y)=(a,b). We can convert z into polar form and re-write it as $z=r(\cos\theta+i\sin\theta)=r cis\theta$ , where r=|z|. By Euler's formula, which states that $e^{i\theta}=\cos\theta+i\sin\theta$ , we can conveniently (yes, again!) rewrite z as $z=re^{i\theta}$ , which is the general exponential form of a complex number.

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 ==See also==
 * [[Trigonometry]]
-*  [[Trigonometric identities]]
+* [[Trigonometric identities]]
+{{stub}}

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Difference between revisions of "Exponential form"

Revision as of 22:06, 5 September 2006

See also