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complex_number [2014/01/29 19:02] nikolaj |
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| | @#FFBB00: $ \mathbb C \equiv \mathbb R^2 $ | | | @#FFBB00: $ \mathbb C \equiv \mathbb R^2 $ | | ||
| ==== Discussion ==== | ==== Discussion ==== | ||
| - | We write the complex numbers as $a+ib\equiv\langle a,b\rangle$. We can more formally set up the complex numbers as a [[field]] with $i^2=-1$, see [[arithmetic structure of complex numbers]]. They are defined to extend the real numbers $\mathbb R$, identified within $\mathbb C$ as $=\langle a,0\rangle=a+i0=a$. | + | We write the complex numbers as $a+ib\equiv\langle a,b\rangle$, where $a,b\in\mathbb R$. The complex numbers are then set up as a [[field]] with $i^2=-1$, see [[arithmetic structure of complex numbers]]. That structure of $\mathbb C$ is defined to extend the real numbers and these are identified as in $\mathbb C$ as $=\langle a,0\rangle=a+i0=a$. |
| === Reference === | === Reference === | ||
| Wikipedia: [[http://en.wikipedia.org/wiki/Complex_number|Complex number]] | Wikipedia: [[http://en.wikipedia.org/wiki/Complex_number|Complex number]] | ||
