# Circumference

Geometry |
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Geometers |

In geometry, the **circumference** (from Latin *circumferens*, meaning "carrying around") is the perimeter of a circle or ellipse.^{[1]} The circumference is the arc length of the circle, as if it were opened up and straightened out to a line segment.^{[2]} More generally, the perimeter is the curve length around any closed figure.
Circumference may also refer to the circle itself, that is, the locus corresponding to the edge of a disk.
The *circumference of a sphere* is the circumference, or length, of any one of its great circles.

## Circle

The circumference of a circle is the distance around it, but if, as in many elementary treatments, distance is defined in terms of straight lines, this cannot be used as a definition. Under these circumstances, the circumference of a circle may be defined as the limit of the perimeters of inscribed regular polygons as the number of sides increases without bound.^{[3]} The term circumference is used when measuring physical objects, as well as when considering abstract geometric forms.

### Relationship with π

The circumference of a circle is related to one of the most important mathematical constants. This constant, pi, is represented by the Greek letter The first few decimal digits of the numerical value of are 3.141592653589793 ...^{[4]} Pi is defined as the ratio of a circle's circumference to its diameter

Or, equivalently, as the ratio of the circumference to twice the radius. The above formula can be rearranged to solve for the circumference:

The ratio of the circle's circumference to its radius is called the circle constant, and is equivalent to . The value is also the amount of radians in one turn. The use of the mathematical constant π is ubiquitous in mathematics, engineering, and science.

In *Measurement of a Circle* written circa 250 BCE, Archimedes showed that this ratio ( since he did not use the name π) was greater than 310/71 but less than 31/7 by calculating the perimeters of an inscribed and a circumscribed regular polygon of 96 sides.^{[5]} This method for approximating π was used for centuries, obtaining more accuracy by using polygons of larger and larger number of sides. The last such calculation was performed in 1630 by Christoph Grienberger who used polygons with 10^{40} sides.

## Ellipse

Main article: Ellipse § Circumference |

Circumference is used by some authors to denote the perimeter of an ellipse. There is no general formula for the circumference of an ellipse in terms of the semi-major and semi-minor axes of the ellipse that uses only elementary functions. However, there are approximate formulas in terms of these parameters. One such approximation, due to Euler (1773), for the canonical ellipse,

^{[6]}

Here the upper bound is the circumference of a circumscribed concentric circle passing through the endpoints of the ellipse's major axis, and the lower bound is the perimeter of an inscribed rhombus with vertices at the endpoints of the major and minor axes.

The circumference of an ellipse can be expressed exactly in terms of the complete elliptic integral of the second kind.^{[7]} More precisely,

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