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In complex analysis, an essential singularity of a function is a "severe" singularity near which the function exhibits extreme behavior.

The category essential singularity is a "left-over" or default group of singularities that are especially unmanageable: by definition they fit into neither of the other two categories of singularity that may be dealt with in some manner – removable singularities and poles.

Formal description

Consider an open subset U of the complex plane C. Let a be an element of U, and f : U \ {a} → C a meromorphic function. The point a is called an essential singularity of the function f if the singularity is neither a pole nor a removable singularity.

For example, the function f(z) = e^1/z has an essential singularity at z = 0.

Alternate descriptions

Let a be a complex number, assume that f(z) is not defined at a but is analytic in some region U of the complex plane, and that every open neighbourhood of a has non-empty intersection with U.

If both

\lim _{z\to a}f(z)

and

\lim _{z\to a}{\frac {1}{f(z)}}

exist, then a is a removable singularity of both f and 1/f.

If

\lim _{z\to a}f(z)

exists but

\lim _{z\to a}{\frac {1}{f(z)}}

does not exist, then a is a zero of f and a pole of 1/f.

Similarly, if

\lim _{z\to a}f(z)

does not exist but

\lim _{z\to a}{\frac {1}{f(z)}}

exist, then a is a pole of f and a zero of 1/f.

If neither

\lim _{z\to a}f(z)

nor

\lim _{z\to a}{\frac {1}{f(z)}}

exists, then a is an essential singularity of both f and 1/f.

Another way to characterize an essential singularity is that the Laurent series of f at the point a has infinitely many negative degree terms (i.e., the principal part of the Laurent series is an infinite sum).

The behavior of holomorphic functions near their essential singularities is described by the Casorati–Weierstrass theorem and by the considerably stronger Picard's great theorem. The latter says that in every neighborhood of an essential singularity a, the function f takes on every complex value, except possibly one, infinitely many times.

References

Template:Refbegin

Template:Citeweb
Lars V. Ahlfors; Complex Analysis, McGraw-Hill, 1979
Rajendra Kumar Jain, S. R. K. Iyengar; Advanced Engineering Mathematics. Page 920. Alpha Science International, Limited, 2004. ISBN 1-84265-185-4

Template:Refend

External links

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+{{For|essential singularities of real valued functions|Classification of discontinuities}}
+[[File:Essential singularity.png|right|220px|thumb|Plot of the function exp(1/''z''), centered on the essential singularity at ''z''=0. The hue represents the [[Arg (mathematics)|complex argument]], the luminance represents the [[absolute value]]. This plot shows how approaching the essential singularity from different directions yields different behaviors (as opposed to a pole, which, approached from any direction, would be uniformly white).]]
+[[File:Modell des Graphen von 6w=eˆ(1-6z) -Schilling XIV, 6 - 312- (2).jpg|thumb|Model illustrating essential singularity of a complex function 6w=exp(1/(6z))]]
+In [[complex analysis]], an '''essential singularity''' of a function is a "severe" [[singularity (mathematics)|singularity]] near which the function exhibits extreme behavior.
+The category ''essential singularity'' is a "left-over" or default group of singularities that are especially unmanageable: by definition they fit into neither of the other two categories of singularity that may be dealt with in some manner &ndash; [[removable singularity|removable singularities]] and [[pole (complex analysis)|pole]]s.
+==Formal description==
+Consider an [[open set|open subset]] ''U'' of the [[complex plane]] '''C'''. Let ''a'' be an element of ''U'', and ''f''&nbsp;:&nbsp;''U''&nbsp;\&nbsp;{''a''}&nbsp;→&nbsp;'''C''' a [[meromorphic function]]. The point ''a'' is called an ''essential singularity'' of the function ''f'' if the singularity is neither a [[pole (complex analysis)|pole]] nor a [[removable singularity]].
+For example, the function ''f''(''z'') = ''e''<sup>1/''z''</sup> has an essential singularity at ''z'' = 0.
+==Alternate descriptions==
+Let ''a'' be a complex number, assume that ''f''(''z'') is not defined at ''a'' but is [[Analytic function|analytic]] in some region ''U'' of the complex plane, and that every [[Open set|open]] [[neighbourhood (mathematics)|neighbourhood]] of ''a'' has non-empty intersection with ''U''.
+If both
+:<math>\lim_{z \to a}f(z)</math> &nbsp; and &nbsp; <math>\lim_{z \to a}\frac{1}{f(z)}</math> &nbsp; exist, then ''a'' is a [[removable singularity]] of both ''f'' and 1/''f''.
+If
+:<math>\lim_{z \to a}f(z)</math> &nbsp; exists but &nbsp; <math>\lim_{z \to a}\frac{1}{f(z)}</math> &nbsp; does not exist, then ''a'' is a [[zero (complex analysis)|zero]] of ''f'' and a [[pole (complex analysis)|pole]]  of 1/''f''.
+Similarly, if
+:<math>\lim_{z \to a}f(z)</math> &nbsp; does not exist but &nbsp; <math>\lim_{z \to a}\frac{1}{f(z)}</math> &nbsp; exist, then ''a'' is a pole of ''f'' and a zero of 1/''f''.
+If neither
+:<math>\lim_{z \to a}f(z)</math> &nbsp;  nor &nbsp; <math>\lim_{z \to a}\frac{1}{f(z)}</math> &nbsp; exists, then ''a'' is an essential singularity of both ''f'' and 1/''f''.
+Another way to characterize an essential singularity is that the [[Laurent series]] of ''f'' at the point ''a'' has infinitely many negative degree terms (i.e., the [[principal part]] of the Laurent series is an infinite sum).
+The behavior of holomorphic functions near their essential singularities is described by the [[Casorati–Weierstrass theorem]] and by the considerably stronger [[Picard's great theorem]]. The latter says that in every neighborhood of an essential singularity ''a'', the function ''f'' takes on ''every'' complex value, except possibly one, infinitely many times.
+==References==
+{{refbegin}}
+*{{citeweb|url=http://mathworld.wolfram.com/EssentialSingularity.html|title=Essential Singularity at Mathworld|accessdate=18 February 2008}}
+*Lars V. Ahlfors; ''Complex Analysis'', McGraw-Hill, 1979
+*Rajendra Kumar Jain, S. R. K. Iyengar; ''Advanced Engineering Mathematics''. Page 920. Alpha Science International, Limited, 2004. ISBN 1-84265-185-4
+{{refend}}
+== External links ==
+* '' [http://demonstrations.wolfram.com/AnEssentialSingularity/ An Essential Singularity]'' by [[Stephen Wolfram]], [[Wolfram Demonstrations Project]].
+* [http://planetmath.org/encyclopedia/EssentialSingularity.html Essential Singularity on Planet Math]
+*[http://www.encyclopediaofmath.org/index.php/Essential_singular_point Essential singularity] at [http://www.encyclopediaofmath.org/ Encyclopedia of Mathematics]
+[[Category:Complex analysis]]

Free fall: Difference between revisions

Revision as of 09:26, 9 January 2014

Contents

Formal description

Alternate descriptions

References

External links

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Free fall: Difference between revisions

Revision as of 09:26, 9 January 2014

Formal description

Alternate descriptions

References

External links

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