Difference between revisions of "Lemniscates"
From Encyclopedia of Mathematics
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| − | Plane algebraic curves of order | + | {{TEX|done}} |
| + | Plane algebraic curves of order $2n$ such that the product of the distances of each point of the curve from $n$ given points (foci) $F_1,\ldots,F_n$ is equal to the $n$-th power of a given number $r$ (the radius of the lemniscate). The equation of a lemniscate in rectangular Cartesian coordinates is | ||
| − | + | $$|(z-z_1)\ldots(z-z_n)|=r^n,\quad r>0,\quad z=x+iy.$$ | |
A circle is a lemniscate with one focus, and a [[Cassini oval|Cassini oval]] is a lemniscate with two foci. See also [[Bernoulli lemniscate|Bernoulli lemniscate]] and [[Booth lemniscate|Booth lemniscate]]. | A circle is a lemniscate with one focus, and a [[Cassini oval|Cassini oval]] is a lemniscate with two foci. See also [[Bernoulli lemniscate|Bernoulli lemniscate]] and [[Booth lemniscate|Booth lemniscate]]. | ||
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<table><TR><TD valign="top">[a1]</TD> <TD valign="top"> F. Gomes Teixeira, "Traité des courbes" , '''1–3''' , Chelsea, reprint (1971)</TD></TR></table> | <table><TR><TD valign="top">[a1]</TD> <TD valign="top"> F. Gomes Teixeira, "Traité des courbes" , '''1–3''' , Chelsea, reprint (1971)</TD></TR></table> | ||
| − | A lemniscate is a level curve of a polynomial. If all the foci | + | A lemniscate is a level curve of a polynomial. If all the foci $F_k$: $z_k=x_k+iy_k$, $k=1,\ldots,n$, are distinct and the radius of the lemniscate is sufficiently small, then the lemniscate consists of $n$ continua that have pairwise no common points. For a sufficiently large radius a lemniscate consists of one connected component. As D. Hilbert showed in 1897, the boundary $\Gamma$ of an arbitrary simply-connected finite domain can be arbitrarily closely approximated by a lemniscate, that is, for any $\epsilon>0$ one can find a lemniscate $\Lambda$ such that in the $\epsilon$-neighbourhood of each point of $\Gamma$ there are points of $\Lambda$ and every point of $\Lambda$ is in the $\epsilon$-neighbourhood of an appropriate point of $\Gamma$. |
====References==== | ====References==== | ||
Revision as of 10:31, 7 August 2014
Plane algebraic curves of order $2n$ such that the product of the distances of each point of the curve from $n$ given points (foci) $F_1,\ldots,F_n$ is equal to the $n$-th power of a given number $r$ (the radius of the lemniscate). The equation of a lemniscate in rectangular Cartesian coordinates is
$$|(z-z_1)\ldots(z-z_n)|=r^n,\quad r>0,\quad z=x+iy.$$
A circle is a lemniscate with one focus, and a Cassini oval is a lemniscate with two foci. See also Bernoulli lemniscate and Booth lemniscate.
Comments
References
| [a1] | F. Gomes Teixeira, "Traité des courbes" , 1–3 , Chelsea, reprint (1971) |
A lemniscate is a level curve of a polynomial. If all the foci $F_k$: $z_k=x_k+iy_k$, $k=1,\ldots,n$, are distinct and the radius of the lemniscate is sufficiently small, then the lemniscate consists of $n$ continua that have pairwise no common points. For a sufficiently large radius a lemniscate consists of one connected component. As D. Hilbert showed in 1897, the boundary $\Gamma$ of an arbitrary simply-connected finite domain can be arbitrarily closely approximated by a lemniscate, that is, for any $\epsilon>0$ one can find a lemniscate $\Lambda$ such that in the $\epsilon$-neighbourhood of each point of $\Gamma$ there are points of $\Lambda$ and every point of $\Lambda$ is in the $\epsilon$-neighbourhood of an appropriate point of $\Gamma$.
References
| [1] | A.I. Markushevich, "Theory of functions of a complex variable" , 1 , Chelsea (1977) (Translated from Russian) |
| [2] | J.L. Walsh, "Interpolation and approximation by rational functions in the complex domain" , Amer. Math. Soc. (1965) |
E.D. Solomentsev
How to Cite This Entry:
Lemniscates. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Lemniscates&oldid=32756
Lemniscates. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Lemniscates&oldid=32756
This article was adapted from an original article by D.D. Sokolov (originator), which appeared in Encyclopedia of Mathematics - ISBN 1402006098. See original article