Function complex-differentiable at a point: Difference between revisions

Latest revision as of 19:12, 18 May 2008

This article defines a property that can be evaluated for a function on a (particular kind of) set, and a point in that set. A function satisfying the property at every point, it is termed a holomorphic function
View other properties of functions at points

Definition

In one dimension

Let $U$ be a domain in $\mathbb {C}$ and $f:U\to \mathbb {C}$ be a function. Let $z_{0}\in U$ . We say that $f$ is complex-differentiable at $z_{0}$ if the complex differential of $f$ at $z_{0}$ is well-defined.

In several dimensions

Relation with other properties

Stronger properties

Function holomorphic at a point

Weaker properties

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+{{at-point function property|holomorphic function}}
 ==Definition==
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 ===In several dimensions===
+==Relation with other properties==
+===Stronger properties===
+* [[Function holomorphic at a point]]
+===Weaker properties===
+* [[Function real-differentiable at a point]]
+* [[Function satisfying Cauchy-Riemann differential equations at a point]]
+* [[Function continuous at a point]]