1. 25 o 15 m A D The angle of elevation of the top of a building measured from point A is 25 o. At point D which is 15m closer to the building, the angle of elevation is 35 o Calculate the height of the building. T B Angle TDA = 145 o Angle DTA = 10 o 35 o 36.5 180 – 35 = 145 o 180 – 170 = 10 o

2. A The angle of elevation of the top of a column measured from point A, is 20 o. The angle of elevation of the top of the statue is 25 o. Find the height of the statue when the measurements are taken 50 m from its base 50 m Angle BCA = 70 o Angle ACT = Angle ATC = 110 o 65 o 53.21 m B T C 180 – 110 = 70 o 180 – 70 = 110 o 180 – 115 = 65 o 20 o 25 o 5o5o

3. A fishing boat leaves a harbour (H) and travels due East for 40 miles to a marker buoy (B). At B the boat turns left and sails for 24 miles to a lighthouse (L). It then returns to harbour, a distance of 57 miles. (a)Make a sketch of the journey. (b)Find the bearing of the lighthouse from the harbour. (nearest degree) H 40 miles 24 miles B L 57 miles A

4. An AWACS aircraft takes off from RAF Waddington (W) on a navigation exercise. It flies 530 miles North to a point (P) as shown, It then turns left and flies to a point (Q), 670 miles away. Finally it flies back to base, a distance of 520 miles. Find the bearing of Q from point P. P 670 miles W 530 miles Not to Scale Q 520 miles

7. Complete Table KnownDiagramNotes AAA AAS ASA SSA SAS SSS

8. The Law of COSINES

10. The Law of Cosines Use to find SIDESUse to find ANGLES

11. The Law of Cosines Use to find SIDES

12. The Law of Cosines Use to find ANGLES

13. Rewrite with different labels:

14. The Law of COSINES For any triangle (right, acute or obtuse), you may use the following formula to solve for missing sides or angles:

15. Use Law of COSINES when... SAS - 2 sides and their included angle SSS you have 3 dimensions of a triangle and you need to find the other 3 dimensions. They cannot be just ANY 3 dimensions though, or you won’t have enough information to solve the Law of Cosines equations. Use the Law of Cosines if you are given:

16. While you wait: Solve the following triangles:

17. Law of Cosines Day 2

18. Example 1: Given SAS Solve triangle ABC, given that angle B = 98°, side a = 13 and side c = 20. B 98° C a = 13 A c = 20 b First draw a diagram.

19. Example 1: Given SAS Now we have to find angles A and C. Let’s take on angle A first. B 98° C a = 13 A c = 20 b = 25.3 In order to find angle A should we use? a)Law of Sines b)Law of Cosines c)Either law will work d)Neither will work

20. LOS vs LOC SSA… might result in two possible solutions. But not in this case, since there is already an obtuse angle. If an angle might be obtuse, never use the Law of Sine equation to find it. Law of cosines is a better option.

21. Example 1: Given SAS Now that we know B and b, we can use the Law of Sines to find one of the missing angles: B 98° C a = 13 A c = 20 b = 25.3 Solution: b = 25.3, C = 51.5°, A = 30.6°

22. Example 1: Given SAS Now that we know B and b, we can use the Law of Sines to find one of the missing angles: B 98° C a = 13 A c = 20 b = 25.3 Solution: b = 25.3, C = 51.5°, A = 30.5°

23. Example 2: Given SAS Solve triangle, ABC, given that angle A = 39°, side b = 20 and side c = 15. Use the Law of Cosines equation that uses b, c and A to find side a: 39° A b = 20 c = 15 B C a

24. Example 2: Given SAS Use the Law of Sines to find one of the missing angles: 39° A b = 20 c = 15 B C a = 12.6 Important: Notice that we used the Law of Sine equation to find angle C rather than angle B. The Law of Sine equation will never produce an obtuse angle. If we had used the Law of Sine equation to find angle B we would have gotten 87.5°, which is not correct, it is the reference angle for the correct answer, 92.5°. If an angle might be obtuse, never use the Law of Sine equation to find it.

25. Example 3: Given SSS Solve triangle, ABC, given that side a = 30, side b = 20 and side c = 15. A C B a = 30 c = 15 b = 20 We can use any of the Law of Cosine equations, filling in a, b & c and solving for one angle. Once we have an angle, we can either use another Law of Cosine equation to find another angle, or use the Law of Sines to find another angle.

26. Example 3: Given SSS Important: The Law of Sines will never produce an obtuse angle. If an angle might be obtuse, never use the Law of Sines to find it. For this reason, we will use the Law of Cosines to find the largest angle first (in case it happens to be obtuse). A C B a = 30 c = 15 b = 20 Angle A is largest because side a is largest:

27. Example 3: Given SSS Use Law of Sines to find angle B or C (its safe because they cannot be obtuse): A C B a = 30 c = 15 b = 20 117.3° Solution: A = 117.3° B = 36.3° C = 26.4°

28. The Law of Cosines SAS SSS When given one of these dimension combinations, use the Law of Cosines to find one missing dimension and then use Law of Sines to find the rest. Important: The Law of Sines will never produce an obtuse angle. If an angle might be obtuse, never use the Law of Sines to find it.

32. Find all the angles created between each pair of cities. If the average speed is 49.8 mph, how long will the total trip take.

33. Repeat the process with 3 cities of your choice. 1) Choose 3 cities or locations. 2) Sketch a careful map of the three locations. Find the distance between each pair of cities… include these values on your sketch. 3) Then find all the angles.

34. Homework 1) Complete the triangle table; 2) Three Cities! 3) Sec 9.4 page 352 #11, 13, 15-18 all The above problems are suggested, do more if you need more practice.

35. Additional Resources http://oakroadsystems.com/twt/solving.htm#SineLaw http://oakroadsystems.com/twt/solving.htm#SineLaw http://oakroadsystems.com/twt/solving.htm#Detective Web Links: