Difference between revisions of "ComplexNumberFormulas" - Rhea

Revision as of 17:18, 2 November 2009

Complex Number Identities and Formulas (info)
Basic Definitions
imaginary number	$i=\sqrt{-1} \$
electrical engineers' imaginary number	$j=\sqrt{-1}\$
(info) conjugate of a complex number	if $$ z=a+ib $$ , for $a,b\in {\mathbb R}$ , then $\bar{z}=a-ib$
(info) magnitude of a complex number	$\\| z \\| = z \bar{z}$
(info) magnitude of a complex number	$\\| z \\| = \sqrt{\left(Re(z)\right)^2+\left(Im(z)\right)^2}$
(info) magnitude of a complex number	$\\| a+ib \\| = \sqrt{a^2+b^2}$ , for $a,b\in {\mathbb R}$
(info) magnitude of a complex number	$\\| r e^{i \theta} \\| = r$ , for $r,\theta\in {\mathbb R}$
Euler's Formula and Related Equalities (info)
(info) Euler's formula	$e^{iw_0t}=\cos w_0t+i\sin w_0t \$
A really cute formula	$e^{i\pi}=-1 \$
Cosine function in terms of complex exponentials	$\cos\theta=\frac{e^{i\theta}+e^{-i\theta}}{2}$
Sine function in terms of complex exponentials	$\sin\theta=\frac{e^{i\theta}-e^{-i\theta}}{2i}$
Other Formulas
De Moivre's theorem	$\left(\cos x+i\sin x\right)^n=\cos\left(nx\right)+i\sin\left(nx\right).\,$

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 | align="right" style="padding-right: 1em;" | Sine function in terms of complex exponentials||<math>\sin\theta=\frac{e^{i\theta}-e^{-i\theta}}{2i}</math>
+|-
+! colspan="2" style="background: #eee;" | Other Formulas
+|-
+| align="right" style="padding-right: 1em;" | De Moivre's theorem ||<math>\left(\cos x+i\sin x\right)^n=\cos\left(nx\right)+i\sin\left(nx\right).\,</math>
 |-
 |}
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 [[Category:Formulas]]