Complex Plane
As in the real case, the exponential function can be defined on the complex plane in several equivalent forms. One such definition parallels the power series definition for real numbers, where the real variable is replaced by a complex one:
The exponential function is periodic with imaginary period and can be written as
where a and b are real values and on the right the real functions must be used if used as a definition (see also Euler's formula). This formula connects the exponential function with the trigonometric functions and to the hyperbolic functions.
When considered as a function defined on the complex plane, the exponential function retains the properties
for all z and w.
The exponential function is an entire function as it is holomorphic over the whole complex plane. It takes on every complex number excepting 0 as value. This is an example of Picard's little theorem that any non-constant entire function takes on every complex number as value with at most one value excepted.
Extending the natural logarithm to complex arguments yields the complex logarithm log z, which is a multi-valued function.
We can then define a more general exponentiation:
for all complex numbers z and w. This is also a multi-valued function, even when z is real. This distinction is problematic, as the multi-valued functions log z and zw are easily confused with their single-valued equivalents when substituting a real number for z. The rule about multiplying exponents for the case of positive real numbers must be modified in a multi-valued context:
- , but rather multivalued over integers n
See failure of power and logarithm identities for more about problems with combining powers.
The exponential function maps any line in the complex plane to a logarithmic spiral in the complex plane with the center at the origin. Two special cases might be noted: when the original line is parallel to the real axis, the resulting spiral never closes in on itself; when the original line is parallel to the imaginary axis, the resulting spiral is a circle of some radius.
- Plots of the exponential function on the complex plane
-
z = Re(ex+iy)
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z = Im(ex+iy)
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z = |ex+iy|
Read more about this topic: Exponential Function
Famous quotes containing the words complex and/or plane:
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