# Great circle  Main Article Discussion Related Articles  [?] Bibliography  [?] External Links  [?] Citable Version  [?] This editable Main Article is under development and subject to a disclaimer. [edit intro] PD Image
Great circle. The green arc is part of a great circle that connects the points r1 and r2 on the surface of the sphere. It is the shortest distance between the points.

A great circle of a sphere is the intersection of the surface of the sphere with a plane passing through the center C of the sphere. The radius of a great circle is equal to the radius of the sphere. The center of the great circle coincides with the center of the sphere. A great circle cuts a sphere into two equal hemispheres. An intersection plane that does not pass through the center of the sphere cuts off a circle that is smaller (has a smaller radius).

It can be proved that a great circle passing through two points is a geodesic, a line of shortest distance connecting the two points. In the figure we see a plane spanned by two vectors (r1 and r2) that passes through C. Hence the green arc is part of the great circle connecting the two points and is the shortest distance between the points.

It is not difficult to find an expression for the angle α. The length of the green arc is the radius of the great circle times this angle. Write in spherical polar coordinates the dot product where we wrote r for the radius of the sphere and used that this is the length of both vectors. Now clearly is the required arc length.

## Example

If we assume that the Earth is a perfect sphere of radius 6378 km it is not difficult to find the distance between London and Los Angeles. London is at 51°30′N, 0°08′W and Los Angeles is at 34°03′N, 118°15′W﻿. The spherical polar angles are (38.5°, 0.1333°) and (55.95°, 118.25°), respectively. The angle α = 78.7481° and the distance is 8766 km. If we could go through the Earth in a straight line (Euclidean metric) the distance would be 8092 km.