Difference between revisions of "Law of Cosines"
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− | The '''Law of Cosines''' is a theorem which relates the side-[[length]]s and [[angle]]s of a [[triangle]]. It can be derived in several different ways, the most common of which are listed in the "proofs" section below. It can be used to derive the third side given two sides and the included angle. All triangles with two sides and an include angle are [[congruent]] by the Side- | + | The '''Law of Cosines''' is a theorem which relates the side-[[length]]s and [[angle]]s of a [[triangle]]. It can be derived in several different ways, the most common of which are listed in the "proofs" section below. It can be used to derive the third side given two sides and the included angle. All triangles with two sides and an include angle are [[congruent]] by the Side-Angle-Side congruence postulate. |
==Theorem== | ==Theorem== |
Revision as of 22:10, 10 April 2009
The Law of Cosines is a theorem which relates the side-lengths and angles of a triangle. It can be derived in several different ways, the most common of which are listed in the "proofs" section below. It can be used to derive the third side given two sides and the included angle. All triangles with two sides and an include angle are congruent by the Side-Angle-Side congruence postulate.
Contents
Theorem
For a triangle with edges of length , and opposite angles of measure , and , respectively, the Law of Cosines states:
In the case that one of the angles has measure (is a right angle), the corresponding statement reduces to the Pythagorean Theorem.
Proofs
Acute Triangle
Let , , and be the side lengths, is the angle measure opposite side , is the distance from angle to side , and and are the lengths that is split into by .
We use the Pythagorean theorem:
We are trying to get on the LHS, because then the RHS would be .
We use the addition rule for cosines and get:
We multiply by -2ab and get:
Now remember our equation?
We replace the by and get:
We can use the same argument on the other sides.
Right Triangle
Since , , so the expression reduces to the Pythagorean Theorem. You can find several proofs of the Pythagorean Theorem here.
Obtuse Triangle
The argument for an obtuse triangle is the same as the proof for an acute triangle.
Problems
Introductory
If the sides of a triangle have lengths 2, 3, and 4, what is the radius of the circle circumscribing the triangle?
(Source)
Intermediate
A tripod has three legs each of length feet. When the tripod is set up, the angle between any pair of legs is equal to the angle between any other pair, and the top of the tripod is feet from the ground. In setting up the tripod, the lower 1 foot of one leg breaks off. Let be the height in feet of the top of the tripod from the ground when the broken tripod is set up. Then can be written in the form where and are positive integers and is not divisible by the square of any prime. Find (The notation denotes the greatest integer that is less than or equal to )
(Source)
Olympiad
A tetrahedron is inscribed in the sphere . Find the locus of points , situated in , such that
where are the other intersection points of with .
(Source)