Difference between revisions of "Circumference"
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− | '''Circumference''' | + | '''Circumference''' is essentially a synonym for [[perimeter]]: for a given [[closed curve]] in the [[plane]], it is the distance one travels in a complete circuit of the curve. The term circumference is most frequently used to refer to the distance around a [[circle]], though it may refer to the distance around any [[smooth]] curve, while the term perimeter is typically reserved for [[polygon]]s and other non curving shapes. |
+ | ==Formulas== | ||
+ | In a circle of [[radius]] <math>r</math> and [[diameter]] <math>d = 2r</math>, the circumference <math>C</math> is given by | ||
+ | <cmath>C = \pi \cdot d = 2\pi \cdot r</cmath> | ||
+ | Indeed, the [[constant]] <math>\pi</math> ([[pi]]) was originally defined to be the [[ratio]] of the circumference of a circle to the length of its diameter. | ||
− | ==See | + | |
− | + | ||
− | + | There is, however, no algebraic formula for the circumference of an ellipse (without integrals). Several approximations exist, such as this one:<cmath> C \approx \pi \left(a + b\right) \left( 1 + \frac{3h}{10 + \sqrt{4 - 3h}} \right) \quad\text{where } h = \frac{\left(a - b\right)^2}{\left(a + b \right)^2}</cmath>by Ramanujan. | |
− | + | ||
− | + | ==See Also== |
Latest revision as of 20:04, 3 July 2024
This article is a stub. Help us out by expanding it.
Circumference is essentially a synonym for perimeter: for a given closed curve in the plane, it is the distance one travels in a complete circuit of the curve. The term circumference is most frequently used to refer to the distance around a circle, though it may refer to the distance around any smooth curve, while the term perimeter is typically reserved for polygons and other non curving shapes.
Formulas
In a circle of radius and diameter , the circumference is given by
Indeed, the constant (pi) was originally defined to be the ratio of the circumference of a circle to the length of its diameter.
There is, however, no algebraic formula for the circumference of an ellipse (without integrals). Several approximations exist, such as this one:by Ramanujan.