Mathematics-Online lexicon: Potential Functions, Gradient Fields and Line Integrals

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	Mathematics-Online lexicon:
	Potential Functions, Gradient Fields and Line Integrals

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overview

Let $\Phi$ be a vector field and let

be a differentiable scalar function defined on a region

Suppose that

$\displaystyle \Phi = \operatorname{grad} u \, .$

Then $\Phi$ is called a gradient field and

is called a potential function of $\Phi .$ The vector field $\Phi$ is conservative, i.e. each line integral of $\Phi$ in

is independent of the path.

More precisely let and be points in Let $\sigma: [a,b] \longrightarrow D$ be a parametrization of a curve in beginning in $\sigma (a) = A$ and ending with $\sigma (b) = B .$ Then

$\displaystyle \int\limits_{C} \Phi dx \ = \ u(B)-u(A) \ \,,$

i.e. the line integral is just the difference between the potentials at and

In particular for any closed path in

$\displaystyle \int\limits_{C}\Phi \cdot dx \ = \ 0 .$

()

Examples:

Beispiel: Potential eines Gradientenfeldes (german)
Potential eins radialen Feldes (german)

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automatically generated 6/15/2005