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| align="right" style="padding-right: 1em;" | conjugate of a complex number || if <math>z=a+jb</math>, for <math>a,b\in {\mathbb R}</math>, then <math> \bar{z}=a-jb </math> | | align="right" style="padding-right: 1em;" | conjugate of a complex number || if <math>z=a+jb</math>, for <math>a,b\in {\mathbb R}</math>, then <math> \bar{z}=a-jb </math> | ||
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− | | align="right" style="padding-right: 1em;" | magnitude of a complex number || <math>\| z \| = z \bar{z} </math> | + | | align="right" style="padding-right: 1em;" | [[more_on_complex_magnitude|(more)]] magnitude of a complex number || <math>\| z \| = z \bar{z} </math> |
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− | | align="right" style="padding-right: 1em;" | magnitude of a complex number || <math> \| z \| = \sqrt{\left(Re(z)\right)^2+\left(Im(z)\right)^2}</math> | + | | align="right" style="padding-right: 1em;" | [[more_on_complex_magnitude|(more)]] magnitude of a complex number || <math> \| z \| = \sqrt{\left(Re(z)\right)^2+\left(Im(z)\right)^2}</math> |
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− | | align="right" style="padding-right: 1em;" | magnitude of a complex number || <math>\| a+jb \| = \sqrt{a^2+b^2} </math>, for <math>a,b\in {\mathbb R}</math> | + | | align="right" style="padding-right: 1em;" | [[more_on_complex_magnitude|(more)]] magnitude of a complex number || <math>\| a+jb \| = \sqrt{a^2+b^2} </math>, for <math>a,b\in {\mathbb R}</math> |
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− | | align="right" style="padding-right: 1em;" | magnitude of a complex number || <math>\| r e^{j \theta} \| = r </math>, for <math>r,\theta\in {\mathbb R}</math> | + | | align="right" style="padding-right: 1em;" | [[more_on_complex_magnitude|(more)]] magnitude of a complex number || <math>\| r e^{j \theta} \| = r </math>, for <math>r,\theta\in {\mathbb R}</math> |
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! colspan="2" style="background: #eee;" | Euler's Formula and Related Equalities | ! colspan="2" style="background: #eee;" | Euler's Formula and Related Equalities |
Revision as of 08:53, 30 October 2009
Complex Number Identities and Formulas | |
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Basic Definitions | |
imaginary number | $ i=\sqrt{-1} \ $ |
electrical engineers imaginary number | $ j=\sqrt{-1}\ $ |
conjugate of a complex number | if $ z=a+jb $, for $ a,b\in {\mathbb R} $, then $ \bar{z}=a-jb $ |
(more) magnitude of a complex number | $ \| z \| = z \bar{z} $ |
(more) magnitude of a complex number | $ \| z \| = \sqrt{\left(Re(z)\right)^2+\left(Im(z)\right)^2} $ |
(more) magnitude of a complex number | $ \| a+jb \| = \sqrt{a^2+b^2} $, for $ a,b\in {\mathbb R} $ |
(more) magnitude of a complex number | $ \| r e^{j \theta} \| = r $, for $ r,\theta\in {\mathbb R} $ |
Euler's Formula and Related Equalities | |
Euler's formula | $ e^{jw_0t}=\cos w_0t+j\sin w_0t \ $ |
A really cute formula | $ e^{j\pi}=-1 \ $ |
Cosine function in terms of complex exponentials | $ \cos\theta=\frac{e^{j\theta}+e^{-j\theta}}{2} $ |
Sine function in terms of complex exponentials | $ \sin\theta=\frac{e^{j\theta}-e^{-j\theta}}{2j} $ |