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Mathematics-Online lexicon:

Distance of Two Lines


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The distance between two lines $ g$ and $ h$ which are not parallel and with parametric equations

$\displaystyle g : \vec{p} + t\vec{u} , t \in \mathbb{R} $

and

$\displaystyle h : \vec{q} + s\vec{v} , s \in \mathbb{R} $

is given by

$\displaystyle d = \frac{\vert(\vec{q} - \vec{p}) \cdot (\vec{u} \times \vec{v})\vert}
{\vert\vec{u} \times \vec{v}\vert}\,
.
$

This follows from the geometric properties of the dot and the cross product because the distance coincides with the distance of $ h$ from the plane containing $ g$ and the by $ p-q$ translated line $ h .$

Using the parallelepidial product the distance may be expressed as

$\displaystyle d = \frac{\vert[\overrightarrow{PQ},\vec{u},\vec{v}]\vert}
{\vert\vec{u}\times\vec{v}\vert}\,
,
$

where $ P$ and $ Q$ are the points with location vector $ \vec{p}$ and $ \vec{q}$ rsp.

For parallel lines we have

$\displaystyle d = \frac{\vert\overrightarrow{PQ}\times\vec{u}\vert}
{\vert\vec{u}\vert}\,
.
$

\includegraphics[width=11cm]{a_abstand_gerade_gerade_bild}

Two lines are called skew lines if they are not parallel and if the distance between them is positive.

Examples:


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  automatically generated 3/28/2008