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6 Additional Topics in Trigonometry
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6.2 Law of Cosines
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What You Should Learn
• Use the Law of Cosines to solve oblique triangles (SSS or SAS).
• Use the Law of Cosines to model and solve real-life problems.
• Use Heron’s Area Formula to findareas of triangles.
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Introduction
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Introduction
Two cases remain in the list of conditions needed to solve an oblique triangle—SSS and SAS.
To use the Law of Sines, you must know at least one side and its opposite angle.
When you are given three sides (SSS), or two sides and their included angle (SAS), none of the ratios in the Law of Sines would be complete. In such cases you can use the Law of Cosines.
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Introduction
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Example 1 – Three Sides of a Triangle—SSS
Find the three angles of the triangle shown in Figure 6.12.
Solution:It is a good idea first to find the angle opposite the longestside—side b in this case. Using the alternative form of the Law of Cosines, you find that
Figure 6.12
Alternative form
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Example 1 – Solution
Because cos B is negative, you know that B is an obtuse angle given by B 116.80.
cont’d
Substitute for a, b, and c.
Simplify.
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Example 1 – Solution
At this point it is simpler to use the Law of Sines to determine A.
You know that A must be acute, because B is obtuse, and a triangle can have, at most, one obtuse angle. So, A 22.08 and
cont’d
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Heron’s Area Formula
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Heron’s Area Formula
The Law of Cosines can be used to establish the following formula for the area of a triangle. This formula is called Heron’s Area Formula after the Greek mathematician Heron (ca. 100 B.C.).
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Example 5 – Using Heron’s Area Formula
Find the area of the triangle shown in Figure 6.16.
Solution:Because
= 84
Figure 6.16
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Example 5 – Solution
Heron’s Area Formula yields
Area
≈ 1131.89 square meters.
cont’d
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Heron’s Area Formula