Law of cosines
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|Image=Law_of_cosines_pictiure.jpg | |Image=Law_of_cosines_pictiure.jpg | ||
|ImageIntro=The law of cosines is a trigonometric generalization of the Pythagorean Theorem. | |ImageIntro=The law of cosines is a trigonometric generalization of the Pythagorean Theorem. | ||
- | |ImageDescElem=The law of cosines is a formula that helps in [[Solving Triangles]] when two or three side lengths of a triangle are known. | + | |ImageDescElem=The law of cosines is a formula that helps in [[Solving Triangles|solving triangles]] when two or three side lengths of a triangle are known. |
Given a triangle with side lengths, <math>a,b,c</math> and angle measures <math> A,B,C</math>, the law of cosines states | Given a triangle with side lengths, <math>a,b,c</math> and angle measures <math> A,B,C</math>, the law of cosines states | ||
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The formula combines the squares of two side lengths of a triangle and and a third term involving the [[cosine]] of a particular angle, to calculate the square of the third side. For this reason, the law of cosines is often thought of as the generalization of the Pythagorean theorem, which only applies to right triangles. The law of cosines adds an extra term to the Pythagorean theorem so that a third side length of a triangle can be determined when there is no right angle. | The formula combines the squares of two side lengths of a triangle and and a third term involving the [[cosine]] of a particular angle, to calculate the square of the third side. For this reason, the law of cosines is often thought of as the generalization of the Pythagorean theorem, which only applies to right triangles. The law of cosines adds an extra term to the Pythagorean theorem so that a third side length of a triangle can be determined when there is no right angle. | ||
- | The law of cosines is useful in solving triangles whenever at least two side lengths are known. If the triangle that needs to be solved has less than just two known lengths, the [[Law of sines]] is more useful. | + | The law of cosines is useful in solving triangles whenever at least two side lengths are known. If the triangle that needs to be solved has less than just two known lengths, the [[Law of sines|law of sines]] is more useful. |
Revision as of 15:17, 22 June 2011
Law of Cosines |
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Law of Cosines
- The law of cosines is a trigonometric generalization of the Pythagorean Theorem.
Contents |
Basic Description
The law of cosines is a formula that helps in solving triangles when two or three side lengths of a triangle are known.Given a triangle with side lengths, and angle measures , the law of cosines states
The formula combines the squares of two side lengths of a triangle and and a third term involving the cosine of a particular angle, to calculate the square of the third side. For this reason, the law of cosines is often thought of as the generalization of the Pythagorean theorem, which only applies to right triangles. The law of cosines adds an extra term to the Pythagorean theorem so that a third side length of a triangle can be determined when there is no right angle.
The law of cosines is useful in solving triangles whenever at least two side lengths are known. If the triangle that needs to be solved has less than just two known lengths, the law of sines is more useful.
Alternate Forms
When the law of cosines is being used to find a particular side length, that is when a certain angle measure is given, the law of cosines can be written in several different ways to help set up the equation to solve for the missing element of the triangle.
An alternate form of the law of cosines is particularly useful when solving a triangle when just the three side lengths are given. This form isolates the term with the cosine of the angle in it to make it easier to solve for the angle.
A More Mathematical Explanation
Proof
By the Pythagorean Theorem
One way to think of the law of cosines is as an extension of the Pythagorean theorem for a right triangle:
By Pythagorean theorem, we know
But is just some portion of side length which is less than the length of . Substituting the difference gives us,
By Pythagorean theorem, we also know that
Substituting the appropriate values gives us,
Expanding the squared term gives us
Simplify for
And by the definition of cosine, we know that
Substituting this value in give us
or
Using the Distance Formula
Let be oriented so that is at the origin, and is at the point.
We use the formula for the distance between two points
is the distance from to .
Since and , substituting the appropriate points into the distance formula gives us
Squaring the inner terms, we have
Since ,
Square both sides for
Example Problem
Solve the triangle using the law of cosines.
Solution
Teaching Materials
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References
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