In telecommunications and fiber optics, ovality or noncircularity is the degree of deviation from perfect circularity of the cross section of the core or cladding of the fiber.

The cross-sections of the core and cladding are assumed to a first approximation to be elliptical, and ovality is defined to be twice the third flattening of the ellipse, 2 a − b a + b {\displaystyle 2{\frac {a-b}{a+b}}}, where a is the length of the major axis and b is the length of the minor axis. This dimensionless quantity is between 0 and 1, and may be multiplied by 100 to express ovality as a percentage. Alternatively, ovality of the core or cladding may be specified by a tolerance field consisting of two concentric circles, within which the cross section boundaries must lie.

In measurements, ovality is the amount of out-of-roundness of a hole or cylindrical part in the typical form of an oval.

In chemistry

In computational chemistry, especially in QSAR studies, ovality refers to, a measure of how the shape of a molecule approaches a sphere (at one extreme) or a cigar shape (at the other). Ovality is described by a ratio of volume to area:

O = A 4 π ( 3 V 4 π ) 2 3 {\displaystyle O={\frac {A}{4\pi ({\frac {3V}{4\pi }})^{\frac {2}{3}}}}}

where:

O = Ovality

A = Area

V = Volume

The ovality of the He atom is 1.0 and that of HC24H (12 triple bonds) is ~1.7.

See also