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# Chord (geometry)

A chord of a circle is a straight line segment whose endpoints both lie on the circle. A secant line, or just secant, is the infinite line extension of a chord. More generally, a chord is a line segment joining two points on any curve, for instance an ellipse. A chord that passes through a circle's center point is the circle's diameter. Every diameter is a chord, but not every chord is a diameter.

The word chord is from the Latin chorda meaning bowstring.

## In circles

Among properties of chords of a circle are the following:

1. Chords are equidistant from the center if and only if their lengths are equal.

2. Equal chords are subtended by equal angles from the center of the circle.

3. A chord that passes through the center of a circle is called a diameter, and is the longest chord.

4. If the line extensions (secant lines) of chords AB and CD intersect at a point P, then their lengths satisfy AP·PB = CP·PD (power of a point theorem).

## In ellipses

The midpoints of a set of parallel chords of an ellipse are collinear.[1]

## In trigonometry

Chords were used extensively in the early development of trigonometry. The first known trigonometric table, compiled by Hipparchus, tabulated the value of the chord function for every 7.5 degrees. In the second century AD, Ptolemy of Alexandria compiled a more extensive table of chords in his book on astronomy, giving the value of the chord for angles ranging from 1/2 degree to 180 degrees by increments of half a degree. The circle was of diameter 120, and the chord lengths are accurate to two base-60 digits after the integer part.[2]

The chord function is defined geometrically as shown in the picture. The chord of an angle is the length of the chord between two points on a unit circle separated by that central angle. The angle θ is taken in the positive sense and must lie in the interval 0 < θ ≤ π (radian measure). The chord function can be related to the modern sine function, by taking one of the points to be (1,0), and the other point to be (cos θ, sin θ), and then using the Pythagorean theorem to calculate the chord length:[2]

The last step uses the half-angle formula. Much as modern trigonometry is built on the sine function, ancient trigonometry was built on the chord function. Hipparchus is purported to have written a twelve-volume work on chords, all now lost, so presumably a great deal was known about them. The chord function satisfies many identities analogous to well-known modern ones:

NameSine-basedChord-based
Pythagorean
Half-angle
a
θ

The inverse function exists as well:[3]

• Circular segment - the part of the sector that remains after removing the triangle formed by the center of the circle and the two endpoints of the circular arc on the boundary.

• Scale of chords

• Ptolemy's table of chords

• Holditch's theorem, for a chord rotating in a convex closed curve

• Circle graph

• Exsecant and excosecant

• Versine and haversine

• Zindler curve (closed and simple curve in which all chords that divide the arc length into halves have the same length)

## References

[1]
Citation Linkopenlibrary.orgChakerian, G. D. (1979). "7". In Honsberger, R. (ed.). A Distorted View of Geometry. Mathematical Plums. Washington, DC, USA: Mathematical Association of America. p. 147.
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[2]
Citation Linkopenlibrary.orgMaor, Eli (1998), Trigonometric Delights, Princeton University Press, pp. 25–27, ISBN 978-0-691-15820-4
Sep 26, 2019, 9:41 PM
[3]
Citation Linkwww.davidgsimpson.comSimpson, David G. (2001-11-08). "AUXTRIG" (FORTRAN-90 source code). Greenbelt, Maryland, USA: NASA Goddard Space Flight Center. Retrieved 2015-10-26.
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[4]
Citation Linkbooks.google.comOn the Shoulders of Giants: The Great Works of Physics and Astronomy
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