Great Circle Distance
Great Circle Distance
A great-circle distance is the shortest distance between any two points on the surface of a sphere that is measured along a path on the surface of the sphere. When calculating great-circle distance, the line of measurement does not pass through the sphere's interior. Great-circle distance is very important for calculating routes and distances in aviation, as it is more accurate than measuring straight-line distance between any two points.
One example of its usage is when long-distance aviation routes are drawn on flat maps (for instance, a Mercator projection). When drawn on flat maps, the routes often look curved. This is the route that lies in great circles. If the routes were to be drawn as a straight line, the measured distance would actually be longer than the great-circle distance.
Due to the fact that the Earth is approximately spherical, the equations for great-circle distance are essential for finding the shortest distance between two points on the surface of the Earth. Therefore, great-circle distance has critical applications in navigation, especially in aviation, as it can help aviators plan shorter routes and optimize flight time and fuel efficiency.