1. Warm up sin cos −1 2 2 cos tan −1 − 3 tan −1 tan 2𝜋 3 tan sin −1 3 2
cos −1 sin 7𝜋 6

2. The Law of Sines and The Law of Cosines

3. Law of sines
We know how to solve a right triangle. But what do we do when the triangle is oblique?
You apply the Law of Sines. You can solve an oblique triangle if you know the measures of two angles and a non-included side (AAS), two angles and the included side (ASA) or two sides and a non-included angle (SSA).

4. Apply the Law of Sines (AAS)
Solve ∆ABC. Round side lengths to the nearest tenth and angle measures to the nearest degree.

5. Now you try…
Solve each triangle. Round side lengths to the nearest tenth and angle measures to the nearest degree.

6. Real world example
An Earth-orbiting satellite is passing between the Oak Ridge Laboratory in Tennessee and the Langley Research Center in Virginia, which are 446 miles apart. If the angles of elevation to the satellite from the Oak Ridge and Langley facilities are 58° and 72°, respectively, how far is the satellite from each station?

7. Real world example
Two ships are 250 feet apart and traveling to the same port as shown. Find the distance from the port to each ship.

8. Problems!!!! …… SSA
From geometry, we know that the measures of two sides and a nonincluded angle (SSA) do not necessarily define a unique triangle. Consider the angle and side measures given.

9. The ambiguous case: acute
Consider a triangle in which a, b, and A are given. For the acute case:
sin 𝐴= ℎ 𝑏
What does h=?
One solution
No solution
two solution
One solution

10. The ambiguous case: obtuse
One solution
no solution

11. How does it work ? Ambiguous case: 0 or 1 solutions
Find all solutions for the given triangle, if possible. If not solution exists, write no solution. Round side lengths to nearest tenth and angle measures to nearest degree.
𝑎=15, 𝑐=12, 𝐴=94°
Is the angle acute or obtuse?
Is a greater than or less than c?
Therefore: how many solutions are there?
Apply the Law of Sines

12. Ambiguous case: 0 or 1 solutions
Find all solutions for the given triangle, if possible. If not solution exists, write no solution. Round side lengths to nearest tenth and angle measures to nearest degree.
𝑎=9, 𝑏=11, 𝐴=61°
Is the angle acute or obtuse?
Is a greater than or less than b?
What is h?
Therefore: how many solutions are there?

13. Now you try
𝑎=12 , 𝑏=8 , 𝐵=61°
𝑎=13 , 𝑐=26, 𝐴=30°

14. Ambiguous case: 2 solutions
Find two triangles for which 𝐴=43°, 𝑎=25, and 𝑏=28. Round side lengths to the nearest tenth and angle measures to the nearest degree. Is the angle acute or obtuse?
Is a greater than or less than b?
What is h?
Therefore: how many solutions are there?
Angle B will be acute, and angle B’ will be obtuse. Make a reasonable sketch of each triangle and apply the Law of Sines to find each solution.

15. Solution 1: ∠𝐵 is acute
Find B
Find C

16. Solution 1: ∠𝐵’ is obtuse
Find B
Find C

17. Now you try
𝐴=38°, 𝑎=8, 𝑏=10
𝐴=65°, 𝑎=55, 𝑏=57

18. Law of Cosines
You can use the Law of Cosines to solve an oblique triangle for the remaining two cases: when you are given the measures of three sides (SSS) or the measures of two sides and their included angle (SAS).

19. Real World Example
When a hockey player attempts a shot, he is 20ft from the left post of the goal and 24 feet from the right post, as shown. If a regulation hockey goal is 6 feet wide, what is the player’s shot angle to the nearest degree?

20. Real world example
A group of friends who are on a camping trip decide to go on a hike. According to the map shown, what is the angle that is formed by the two trails that lead to the camp?

21. Apply the Law of Cosines
Solve ∆𝐴𝐵𝐶. Round side lengths to the nearest tenth and angle measures to the nearest degree.
Use the Law of Cosines to find the missing side measure.
Use the Law of Sines to find missing angle measure
Find the measure of the remaining angle.
b=8 , a=5, angle C= 65ᵒ

22. Now you try!
Solve ∆𝐻𝐽𝐾 if 𝐻=34°, 𝑗=7, 𝑘=10

23. Area of a triangle given SAS

24. Find the area given SAS
Find the area of ∆𝐺𝐻𝐽 to the nearest tenth.

25. Find the area given SAS