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<math> \frac{(a + bi)}{(c + di)} = \left({ac + bd \over c^2 + d^2}\right) + \left( {bc - ad \over c^2 + d^2} \right)i\ </math> | <math> \frac{(a + bi)}{(c + di)} = \left({ac + bd \over c^2 + d^2}\right) + \left( {bc - ad \over c^2 + d^2} \right)i\ </math> | ||
+ | |||
+ | === Notation of the polar form === | ||
+ | |||
+ | The notation of the polar form as | ||
+ | :<math> z = r\,(\cos \varphi + i\sin \varphi )\,</math> | ||
+ | is called ''trigonometric form''. The notation cis φ is sometimes used as an abbreviation for cos ''φ'' + ''i'' sin ''φ''. | ||
+ | Using [[Euler's formula_ECE301Fall2008mboutin]] it can also be written as | ||
+ | :<math> z = r\,\mathrm{e}^{i \varphi}\,</math> | ||
+ | which is called ''exponential form''. |
Revision as of 11:16, 5 September 2008
Notation
$ a+bi $ where a and b are real numbers, and i is the imaginary unit, which has the property $ i^2 = -1 $. The real number a is called the real part of the complex number, and the real number b is the imaginary part.
Complex Arithmetic
Addition and Subtraction
$ (a + bi) + (c + di) = (a + c) + (b + d)i $
$ (a + bi) - (c + di) = (a - c) + (b - d)i $
Multiplication
$ (a + bi) * (c + di) = (ac - bd) + (ad + bc)i $
Division
$ \frac{(a + bi)}{(c + di)} = \left({ac + bd \over c^2 + d^2}\right) + \left( {bc - ad \over c^2 + d^2} \right)i\ $
Notation of the polar form
The notation of the polar form as
- $ z = r\,(\cos \varphi + i\sin \varphi )\, $
is called trigonometric form. The notation cis φ is sometimes used as an abbreviation for cos φ + i sin φ. Using Euler's formula_ECE301Fall2008mboutin it can also be written as
- $ z = r\,\mathrm{e}^{i \varphi}\, $
which is called exponential form.