Law of cosines (spherical)

Law of cosines (spherical)

In spherical trigonometry, the law of cosines (also called the cosine rule for sides) is a theorem relating the sides and angles of spherical triangles, analogous to the ordinary law of cosines from plane trigonometry.

Given a unit sphere, a "spherical triangle" on the surface of the sphere is defined by the great circles connecting three points u, v, and w on the sphere (shown at right). If the lengths of these three sides are "a" (from u to v), "b" (from u to w), and "c" (from v to w), and the angle of the corner opposite "c" is "C", then the (first) spherical law of cosines states:Romuald Ireneus 'Scibor-Marchocki, [http://www.geocities.com/ResearchTriangle/2363/trig02.html Spherical trigonometry] , "Elementary-Geometry Trigonometry" web page (1997).] W. Gellert, S. Gottwald, M. Hellwich, H. Kästner, and H. Küstner, "The VNR Concise Encyclopedia of Mathematics", 2nd ed., ch. 12 (Van Nostrand Reinhold: New York, 1989).]

:cos(c) = cos(a) cos(b) + sin(a) sin(b) cos(C). ,

Since this is a unit sphere, the lengths "a", "b", and "c" are simply equal to the angles (in radians) subtended by those sides from the center of the sphere (for a non-unit sphere, they are the distances divided by the radius). As a special case, for C = pi/2 , then cos(C) =0 , and one obtains the spherical analogue of the Pythagorean theorem:

:cos(c) = cos(a) cos(b). ,

A variation on the law of cosines, the second spherical law of cosines,Fact|date=August 2008 states:

:cos(A) = -cos(B)cos(C) + sin(B)sin(C)cos(a) ,

It can be obtained from consideration of a spherical triangle dual to the given one.

If the law of cosines is used to solve for "c", the necessity of inverting the cosine magnifies rounding errors when "c" is small. In this case, the alternative formulation of the law of haversines is preferable. [R. W. Sinnott, "Virtues of the Haversine", Sky and Telescope 68 (2), 159 (1984).]

For "small" spherical triangles, i.e. for small "a", "b", and "c", the spherical law of cosines is approximately the same as the ordinary planar law of cosines,: c^2 approx a^2 + b^2 - 2abcos(C) . ,!The error in this approximation, which can be obtained from the Maclaurin series for the cosine and sine functions, is of order: O(c^4) + O(a^2 b^2) + O(a^3 b) + O(a b^3) . ,!

Proof

A proof of the law of cosines can be constructed as follows. Let u, v, and w denote the unit vectors from the center of the sphere to those corners of the triangle. Then, the lengths (angles) of the sides are given by the dot products:

:cos(a) = mathbf{u} cdot mathbf{v}:cos(b) = mathbf{u} cdot mathbf{w}:cos(c) = mathbf{v} cdot mathbf{w}

To get the angle "C", we need the tangent vectors t"a" and t"b" at u along the directions of sides "a" and "b", respectively. For example, the tangent vector t"a" is the unit vector perpendicular to u in the u-v plane, whose direction is given by the component of v perpendicular to u. This means:

:mathbf{t}_a = frac{mathbf{v} - mathbf{u} (mathbf{u} cdot mathbf{v})}{left| mathbf{v} - mathbf{u} (mathbf{u} cdot mathbf{v}) ight = frac{mathbf{v} - mathbf{u} cos(a)}{sin(a)}

where for the denominator we have used the Pythagorean identity sin2("a") = 1 − cos2("a"). Similarly,

:mathbf{t}_b = frac{mathbf{w} - mathbf{u} cos(b)}{sin(b)}

Then, the angle "C" is given by:

:cos(C) = mathbf{t}_a cdot mathbf{t}_b = frac{cos(c) - cos(a) cos(b)}{sin(a) sin(b)}

from which the law of cosines immediately follows.

References


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