Difference between revisions of "Tangent indicatrix"
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| + | $#C+1 = 18 : ~/encyclopedia/old_files/data/T110/T.1100010 Tangent indicatrix, | ||
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''tantrix'' | ''tantrix'' | ||
| − | The tangent indicatrix | + | The tangent indicatrix $ T $ |
| + | of a regular [[Curve|curve]] $ \gamma : {[ a,b ] } \rightarrow {\mathbf R ^ {n} } $ | ||
| + | is the curve of oriented unit vectors tangent to $ \gamma $. | ||
| − | More precisely, if | + | More precisely, if $ \gamma : {[ a,b ] } \rightarrow {\mathbf R ^ {n} } $ |
| + | is a differentiable curve whose velocity vector $ {\dot \gamma } = { {d \gamma } / {dt } } $ | ||
| + | never vanishes, then | ||
| − | + | $$ | |
| + | T ( t ) = { | ||
| + | \frac{ {\dot \gamma } ( t ) }{\left | { {\dot \gamma } ( t ) } \right | } | ||
| + | } . | ||
| + | $$ | ||
| − | The tangent indicatrix | + | The tangent indicatrix $ T $ |
| + | of any regular curve in $ \mathbf R ^ {n} $ | ||
| + | thus traces out a curve on the unit sphere $ S ^ {n - 1 } \in \mathbf R ^ {n} $ | ||
| + | which, as a point set, is independent of the parametrization of $ \gamma $. | ||
| + | A direct computation shows that the "speeds" of $ T $ | ||
| + | and $ \gamma $ | ||
| + | relate via the curvature function $ \kappa $ | ||
| + | of $ \gamma $( | ||
| + | cf. also [[Curvature|Curvature]]): | ||
| − | + | $$ | |
| + | \left | { { | ||
| + | \frac{dT }{dt } | ||
| + | } } \right | = \kappa ( t ) \left | { { | ||
| + | \frac{d \gamma }{dt } | ||
| + | } } \right | . | ||
| + | $$ | ||
| − | It follows immediately that the length of the tangent indicatrix on | + | It follows immediately that the length of the tangent indicatrix on $ S ^ {n - 1 } $ |
| + | gives the total curvature (the integral of $ \kappa $ | ||
| + | with respect to arc-length; cf. also [[Complete curvature|Complete curvature]]) of the original curve $ \gamma $. | ||
| + | Because of this, the tangent indicatrix has proven useful, among other things, in studying total curvature of closed space curves (see [[#References|[a1]]], p. 29 ff). | ||
====References==== | ====References==== | ||
<table><TR><TD valign="top">[a1]</TD> <TD valign="top"> S.S. Chern, "Studies in global analysis and geometry" , ''Studies in Mathematics'' , '''4''' , Math. Assoc. America (1967)</TD></TR><TR><TD valign="top">[a2]</TD> <TD valign="top"> B. Solomon, "Tantrices of spherical curves" ''Amer. Math. Monthly'' , '''103''' : 1 (1996) pp. 30–39</TD></TR><TR><TD valign="top">[a3]</TD> <TD valign="top"> V.I. Arnol'd, "The geometry of spherical curves and the algebra of quaternions" ''Russian Math. Surveys'' , '''50''' : 1 (1995) pp. 1–68 (In Russian)</TD></TR></table> | <table><TR><TD valign="top">[a1]</TD> <TD valign="top"> S.S. Chern, "Studies in global analysis and geometry" , ''Studies in Mathematics'' , '''4''' , Math. Assoc. America (1967)</TD></TR><TR><TD valign="top">[a2]</TD> <TD valign="top"> B. Solomon, "Tantrices of spherical curves" ''Amer. Math. Monthly'' , '''103''' : 1 (1996) pp. 30–39</TD></TR><TR><TD valign="top">[a3]</TD> <TD valign="top"> V.I. Arnol'd, "The geometry of spherical curves and the algebra of quaternions" ''Russian Math. Surveys'' , '''50''' : 1 (1995) pp. 1–68 (In Russian)</TD></TR></table> | ||
Revision as of 08:25, 6 June 2020
tantrix
The tangent indicatrix $ T $ of a regular curve $ \gamma : {[ a,b ] } \rightarrow {\mathbf R ^ {n} } $ is the curve of oriented unit vectors tangent to $ \gamma $.
More precisely, if $ \gamma : {[ a,b ] } \rightarrow {\mathbf R ^ {n} } $ is a differentiable curve whose velocity vector $ {\dot \gamma } = { {d \gamma } / {dt } } $ never vanishes, then
$$ T ( t ) = { \frac{ {\dot \gamma } ( t ) }{\left | { {\dot \gamma } ( t ) } \right | } } . $$
The tangent indicatrix $ T $ of any regular curve in $ \mathbf R ^ {n} $ thus traces out a curve on the unit sphere $ S ^ {n - 1 } \in \mathbf R ^ {n} $ which, as a point set, is independent of the parametrization of $ \gamma $. A direct computation shows that the "speeds" of $ T $ and $ \gamma $ relate via the curvature function $ \kappa $ of $ \gamma $( cf. also Curvature):
$$ \left | { { \frac{dT }{dt } } } \right | = \kappa ( t ) \left | { { \frac{d \gamma }{dt } } } \right | . $$
It follows immediately that the length of the tangent indicatrix on $ S ^ {n - 1 } $ gives the total curvature (the integral of $ \kappa $ with respect to arc-length; cf. also Complete curvature) of the original curve $ \gamma $. Because of this, the tangent indicatrix has proven useful, among other things, in studying total curvature of closed space curves (see [a1], p. 29 ff).
References
| [a1] | S.S. Chern, "Studies in global analysis and geometry" , Studies in Mathematics , 4 , Math. Assoc. America (1967) |
| [a2] | B. Solomon, "Tantrices of spherical curves" Amer. Math. Monthly , 103 : 1 (1996) pp. 30–39 |
| [a3] | V.I. Arnol'd, "The geometry of spherical curves and the algebra of quaternions" Russian Math. Surveys , 50 : 1 (1995) pp. 1–68 (In Russian) |
How to Cite This Entry:
Tangent indicatrix. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Tangent_indicatrix&oldid=17246
Tangent indicatrix. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Tangent_indicatrix&oldid=17246
This article was adapted from an original article by B. Solomon (originator), which appeared in Encyclopedia of Mathematics - ISBN 1402006098. See original article