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Difference between revisions of "Henstock-Kurzweil integral"

(New page: The Henstock-Kurzweil integral (also known as the '''Generalized Reimann integral''') is one of the most widely applicable generalizations of the Reimann integral, but it also...)
 
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The Henstock-Kurzweil integral (also known as the '''Generalized Reimann integral''') is one of the most widely applicable generalizations of the [[Integral|Reimann integral]], but it also uses a strikingly simple and elegant idea. It was developed independantly by [[Ralph Henstock]] and [[Jaroslav Kurzweil]]
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The '''Henstock-Kurzweil integral''' (also known as the '''Generalized Reimann integral''') is one of the most widely applicable generalizations of the [[Integral|Reimann integral]], but it also uses a strikingly simple and elegant idea. It was developed independantly by [[Ralph Henstock]] and [[Jaroslav Kurzweil]]
  
 
==Definition==
 
==Definition==
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if <math>\mathcal{\dot{P}}</math> is a <math>\delta</math>-fine [[Partition of an interval|tagged partition]] on <math>[a,b]</math>, then <math>|L-S(f,\mathcal{\dot{P}})|<\epsilon</math>
 
if <math>\mathcal{\dot{P}}</math> is a <math>\delta</math>-fine [[Partition of an interval|tagged partition]] on <math>[a,b]</math>, then <math>|L-S(f,\mathcal{\dot{P}})|<\epsilon</math>
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 +
Here, <math>S(f,\mathcal{\dotP}})</math> is the [[Reimann sum]] of <math>f</math> on <math>[a,b]</math> with respect to <math>\mathcal{\dot{P}}</math>
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The elegance of this integral lies in in the ability of a [[gauge]] to 'measure' a partition more accurately than its [[Partition of an interval|norm]].
 
The elegance of this integral lies in in the ability of a [[gauge]] to 'measure' a partition more accurately than its [[Partition of an interval|norm]].

Revision as of 09:24, 16 February 2008

The Henstock-Kurzweil integral (also known as the Generalized Reimann integral) is one of the most widely applicable generalizations of the Reimann integral, but it also uses a strikingly simple and elegant idea. It was developed independantly by Ralph Henstock and Jaroslav Kurzweil

Definition

Let $f:[a,b]\rightarrow\mathbb{R}$

Let $L\in\mathbb{R}$

We say that $f$ is Generalised Reimann Integrable on $[a,b]$ if and only if, $\forall\epsilon>0$, there exists a gauge $\delta:[a,b]\rightarrow\mathbb{R}^+$ such that,

if $\mathcal{\dot{P}}$ is a $\delta$-fine tagged partition on $[a,b]$, then $|L-S(f,\mathcal{\dot{P}})|<\epsilon$

Here, $S(f,\mathcal{\dotP}})$ (Error compiling LaTeX. Unknown error_msg) is the Reimann sum of $f$ on $[a,b]$ with respect to $\mathcal{\dot{P}}$


The elegance of this integral lies in in the ability of a gauge to 'measure' a partition more accurately than its norm.

See Also

This article is a stub. Help us out by expanding it.

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