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From googling, it seems commonly believed that Euclid did this, but it seems nowhere in Euclid does he even state this property of a tangent line explicitly. Rather Euclid gives 4 other equivalent properties, that the line does not cross the circle, that it is perpendicular to the radius, that is a limit of secant lines, and that it makes an angle of zero with the circle, the first of which is his definition, the others being in Proposition III.16. I am wondering where the "meets only once" definition got started. I presume once it got going, and people stopped reading Euclid, (which seems to have occurred over 100 years ago), the currently popular definition took over. Perhaps I should consult Legendre or Hadamard? Thank you for any leads.

Well I have found this definition in Hadamard's lessons in plane geometry. Any earlier references?

I have also found another equivalent characterization of a tangent by Euclid, Prop. (III.36-37): A segment PX, from a point P outside a circle and meeting the circle at X, is tangent to the circle at X if and only if there exists another segment PB, meeting the circle first at A and then at B, such that (PA)(PB) = (PX)^2, [in terms either of equality squares of lengths of segments, or of equality of area of rectangles].

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    finding tangents is a old problem, one motivation for newton's calculus. decartes studied the problem http://www.maths.tcd.ie/pub/HistMath/People/Descartes/RouseBall/RB_Descartes.html and probably people before him...2011-08-02

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Some googling points to Archimedes (use ctrl-F to find his name in this article)

http://math.ucsd.edu/~ashenk/Section2_8.pdf

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    He also cites Appolonius for one of Euclid's other characterizations as a line such that no other line lies between the curve and it. $I$t makes me wonder if that author has read Euclid.2011-08-05