Entire function: Difference between revisions

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imported>Dmitrii Kouznetsov
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The [[radius of convergence]] of a [[power series]] is always distance until the nearest [[singularity(mathematics)|singularity]].
The [[radius of convergence]] of a [[power series]] is always distance until the nearest [[singularity(mathematics)|singularity]].
Therefore, it is infinite for entire functions.
Therefore, it is infinite for entire functions.
Every entire function can be represented as a [[power series]] or [[Tailor expansion]] which [[convergence (series)|converges]] everywhere.
 
'''Any entire function can be expanded in every point to the [[Tailor series]] which [[convergence (series)|converges]] everywhere'''.
 
This does not mean that one can always use the [[power series]] for precise [[evaluation]] of an entire function,
This does not mean that one can always use the [[power series]] for precise [[evaluation]] of an entire function,
but helps a lot to [[proof(mathematics)|prove]] the [[theorem]]s.
but helps a lot to [[proof(mathematics)|prove]] the [[theorem]]s.
===Infinitness===
===Infinitness===
[[Liouville's theorem]] establishes an important property of entire functions: '''an entire function which is bounded must be constant''' <ref name="john">
[[Liouville's theorem]] establishes an important property of entire functions: '''an entire function which is bounded must be constant''' <ref name="john">

Revision as of 01:05, 17 May 2008

Definition

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In the mathematical analysis and, in particular, in the theory of functions of complex variable, The entire function is function that is holomorphic in the whole complex plane [1][2].

Examples

Entires

Examples of entire functions are the polynomials and the exponentials. All sums, products and compositions of these functions also are entire functions.

All the derivatives and some of integrals of entired funcitons, for example erf, Si, , also are entired functions.

Non-entires

In general, neither series nor limit of a sequence of entire funcitons needs to be an entire function.

Inverse of an entire function has no need to be entire function. Usually, inverse of a non-trivial function is not entire. (The inverse of the linear function is entire). In particular, inverse of trigonometric functions are not entire.

More non-entire functions: rational function at any complex , , , square root, logarithm, function Gamma, tetration.

In particular, non-analytic functions also should be qualified as non-entire: , , complex conjugation, modulus, argument, Dirichlet function.

Properties

The entire functions have all general properties of other analytic functions, but the infinite range of analyticity enhances the set of the properties, making the entire functions especially beautiful and attractive for applications.

Power series

The radius of convergence of a power series is always distance until the nearest singularity. Therefore, it is infinite for entire functions.

Any entire function can be expanded in every point to the Tailor series which converges everywhere.

This does not mean that one can always use the power series for precise evaluation of an entire function, but helps a lot to prove the theorems.

Infinitness

Liouville's theorem establishes an important property of entire functions: an entire function which is bounded must be constant [1].

Range of values

Picard's little theorem states: a non-constant entire function takes on every complex number as value, except possibly one [2].

For example, the exponential never takes on the value 0.

Cauchi integral

Entire function , at any complex and at any contour C evolving point just once, can be expressed with Cauchi theorem



See also

References

  1. 1.0 1.1 Conway, John B. (1978). Functions of One Complex Variable I, 2nd edition. Springer. ISBN 0-387-90328-3. 
  2. 2.0 2.1 Boas, Ralph P.. Entire Functions. Academic Press. OCLC 847696.  Cite error: Invalid <ref> tag; name "ralph" defined multiple times with different content


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