Exponential function: Difference between revisions

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imported>Dmitrii Kouznetsov
imported>Dmitrii Kouznetsov
Line 59: Line 59:
:<math>F(z+1)=\exp_b(F(z))</math>
:<math>F(z+1)=\exp_b(F(z))</math>
:<math>F(0)=1</math>
:<math>F(0)=1</math>
:<math>F(z)~ \mathrm{ ~is~ holomorphic~ and~ bounded~ in~ the~ range}~ \Im(z)<1</math>
:<math>F(z)~ \mathrm{ ~is~ holomorphic~ and~ bounded~ in~ the~ range}~ |\Re(z)}<1</math>


The inverse function is defined with condition
The inverse function is defined with condition

Revision as of 00:19, 29 October 2008

Exponential function or exp, can be defined as solution of differential equaiton

with additional condition

Exponential function is believed to be invented by Leonarf Euler some centuries ago. Since that time, it is widely used in technology and science; in particular, the exponential growth is described with such function.

Properties

exp is entire function.

For any comples and , the basic property holds:

The definition allows to calculate all the derrivatives at zero; so, the Tailor expansion has form

where means the set of complez numbers. The series converges for and complex . In particular, the series converge for any real value of the argument.

Inverse function

Inverse function of the exponential is logarithm; for any complex , the relation holds:

Exponential also can be considered as inverse of logarithm, while the imaginary part of the argument is smaller than :

While lofarithm has cut at the negative part of the real axis, exp can be considered

Number e

is widely used in applications; this notation is commonly accepted. Its approximate value is

Failed to parse (syntax error): {\displaystyle {\rm e}=\exp(1) \approx 2.71828 18284 59045 23536}

Relation with sin and cos functions

Generalization of exponential

Notation is used for the exponential with modified argument;

Notation is used for the iterated exponential:

For non-integer values of , the iterated exponential can be defined as

where is function satisfuing conditions

Failed to parse (syntax error): {\displaystyle F(z)~ \mathrm{ ~is~ holomorphic~ and~ bounded~ in~ the~ range}~ |\Re(z)}<1}

The inverse function is defined with condition

and, within some range of values of