Complex numbers
can be identified with the points
of the real plane. Their absolute value corresponds to their
distance from the origin, while their real and imaginary parts are their projections onto the real and imaginary axes
respectively.
The complex conjugate of a complex number is obtained
by reflection with respect to the real axis.
In polar coordinates, the Euler-Moivre-formula yields the
representation
with .
The angle is determined only up to
multiples of ;
it is called the argument of :
It is common practice to use
as the standard interval
(principal value).
Moreover,
i.e., the argument
can
be determined from the quotient .
However, one has to select the correct branch.
If
,
or must be added
to the inverse function's value.
In the table below some complex numbers are given in polar
coordinates.
(Authors: Höllig/Kopf/Abele)
see also:
|
automatically generated
6/11/2007 |