Dilation (metric space)

In mathematics, a dilation is a function [math]\displaystyle{ f }[/math] from a metric space [math]\displaystyle{ M }[/math] into itself that satisfies the identity

[math]\displaystyle{ d(f(x),f(y))=rd(x,y) }[/math]

for all points [math]\displaystyle{ x, y \in M }[/math], where [math]\displaystyle{ d(x, y) }[/math] is the distance from [math]\displaystyle{ x }[/math] to [math]\displaystyle{ y }[/math] and [math]\displaystyle{ r }[/math] is some positive real number.^[1]

In Euclidean space, such a dilation is a similarity of the space.^[2] Dilations change the size but not the shape of an object or figure.

Every dilation of a Euclidean space that is not a congruence has a unique fixed point^[3] that is called the center of dilation.^[4] Some congruences have fixed points and others do not.^[5]

References

↑ Montgomery, Richard (2002), A tour of subriemannian geometries, their geodesics and applications, Mathematical Surveys and Monographs, 91, American Mathematical Society, Providence, RI, p. 122, ISBN 0-8218-1391-9, https://books.google.com/books?id=DYAt3gVB7Q4C&pg=PA122 .
↑ King, James R. (1997), "An eye for similarity transformations", in King, James R.; Schattschneider, Doris, Geometry Turned On: Dynamic Software in Learning, Teaching, and Research, Mathematical Association of America Notes, 41, Cambridge University Press, pp. 109–120, ISBN 9780883850992, https://archive.org/details/geometryturnedon0000unse/page/109 . See in particular p. 110.
↑ Audin, Michele (2003), Geometry, Universitext, Springer, Proposition 3.5, pp. 80–81, ISBN 9783540434986, https://books.google.com/books?id=U_cTJMCIzdUC&pg=PA80 .
↑ Gorini, Catherine A. (2009), The Facts on File Geometry Handbook, Infobase Publishing, p. 49, ISBN 9781438109572, https://books.google.com/books?id=PlYCcvgLJxYC&pg=PA49 .
↑ Carstensen, Celine; Fine, Benjamin; Rosenberger, Gerhard (2011), Abstract Algebra: Applications to Galois Theory, Algebraic Geometry and Cryptography, Walter de Gruyter, p. 140, ISBN 9783110250091, https://books.google.com/books?id=X1SJ_ywbgy8C&pg=PA140 .

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[1] Montgomery, Richard (2002), A tour of subriemannian geometries, their geodesics and applications, Mathematical Surveys and Monographs, 91, American Mathematical Society, Providence, RI, p. 122, ISBN 0-8218-1391-9, https://books.google.com/books?id=DYAt3gVB7Q4C&pg=PA122 .

[2] King, James R. (1997), "An eye for similarity transformations", in King, James R.; Schattschneider, Doris, Geometry Turned On: Dynamic Software in Learning, Teaching, and Research, Mathematical Association of America Notes, 41, Cambridge University Press, pp. 109–120, ISBN 9780883850992, https://archive.org/details/geometryturnedon0000unse/page/109 . See in particular p. 110.

[3] Audin, Michele (2003), Geometry, Universitext, Springer, Proposition 3.5, pp. 80–81, ISBN 9783540434986, https://books.google.com/books?id=U_cTJMCIzdUC&pg=PA80 .

[4] Gorini, Catherine A. (2009), The Facts on File Geometry Handbook, Infobase Publishing, p. 49, ISBN 9781438109572, https://books.google.com/books?id=PlYCcvgLJxYC&pg=PA49 .

[5] Carstensen, Celine; Fine, Benjamin; Rosenberger, Gerhard (2011), Abstract Algebra: Applications to Galois Theory, Algebraic Geometry and Cryptography, Walter de Gruyter, p. 140, ISBN 9783110250091, https://books.google.com/books?id=X1SJ_ywbgy8C&pg=PA140 .

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