1. Ratios in Right Triangles Expectations: 1) G1.3.1: Define and use sine, cosine and tangent ratios to solve problems using trigonometric ratios in right triangles. 2) Determine the exact values of sine, cosine and tangent for various angle measures. 1/9/20168-3: Ratios in Right Triangles

2. Opposite Legs From an acute angle in a right triangle, the leg opposite is the leg that lies in the interior of the angle (except the endpoints of the side). C B A BC is the leg opposite A 1/9/20168-3: Ratios in Right Triangles

3. Opposite Legs From an acute angle in a right triangle, the leg opposite is the leg that lies in the interior of the angle (except the endpoints of the side). C B A AC is the leg opposite ∠ B 1/9/20168-3: Ratios in Right Triangles

4. Adjacent Legs The leg adjacent to an acute angle of a right triangle is the leg that forms a side of the acute angle. C B A AC is the leg adjacent ∠ A 1/9/20168-3: Ratios in Right Triangles

5. Adjacent Legs The leg adjacent to an acute angle of a right triangle is the leg that forms a side of the acute angle. C B A BC is the leg adjacent ∠ B 1/9/20168-3: Ratios in Right Triangles

6. Sine Ratio The sine ratio of an acute angle of a right triangle compares the length of the leg opposite the angle to the length of the hypotenuse. Sine is abbreviated sin, but it is still read as “sine”. 1/9/20168-3: Ratios in Right Triangles

7. Sine Ratio C B A sin θ = leg opposite hypotenuse 1/9/20168-3: Ratios in Right Triangles

8. Sine Ratio C B A sin A = BC AB sin B = AC AB 1/9/20168-3: Ratios in Right Triangles

9. Cosine Ratio The cosine ratio of an acute angle in a right triangle compares the length of the leg adjacent the acute angle to the length of the hypotenuse. Cosine is abbreviated “cos” but is still read as “cosine.” 1/9/20168-3: Ratios in Right Triangles

10. Cosine Ratio C B A cos θ = leg adjacent hypotenuse 1/9/20168-3: Ratios in Right Triangles

11. Cosine Ratio C B A cos A = AC AB cos B = BC AB 1/9/20168-3: Ratios in Right Triangles

12. A 6 C B 8 10 Give the sin and cos ratios for ∠ A and ∠ B. 1/9/20168-3: Ratios in Right Triangles

13. For the right triangle shown below, what is the sin C? a. a / b b. a / c c. b / a d. c / b e. c / a A C B a b c

14. Solve for x in the triangle below. 35 ° 24 x 1/9/20168-3: Ratios in Right Triangles

15. Solve for x in the triangle below. 75° x 18 1/9/20168-3: Ratios in Right Triangles

16. If AC = 10 in the figure below, determine BD. 1/9/2016Trig Basics 45° 30°

17. Tangent Ratio The tangent ratio of an acute angle of a right triangle compares the length of the leg opposite the acute angle to the length of the leg adjacent the acute angle. Tangent is abbreviated “tan” but is still read as “tangent.” 1/9/20168-3: Ratios in Right Triangles

18. Tangent Ratio C B A tan θ = leg opposite leg adjacent 1/9/20168-3: Ratios in Right Triangles

19. Tangent Ratio C B A tan A = BC AC tan B = AC BC 1/9/20168-3: Ratios in Right Triangles

20. Tangent Ratio Solve for x in the triangle below. 15 x 65° 1/9/20168-3: Ratios in Right Triangles

21. Solve for x and y below. 22° 12 x y 1/9/20168-3: Ratios in Right Triangles

22. To guard against a fall, a ladder should form no more than a 75° angle with the ground. What is the maximum height that a 10 foot ladder can safely reach? 1/9/20168-3: Ratios in Right Triangles

23. A kite is flying at the end of a 240-foot string which makes a angle with the horizon. If the hand of the person flying the kit is 3 feet above the ground, how far above the ground is the kite? 1/9/2016Trig Basics

24. Arc functions If you know the value of a trig function, you can work backwards to determine the measure of the angle. For example, say we know the cos A =.5, then we can use the cos -1 (arc cosine or inverse of cosine) function to determine that m ∠ A = 60°. 1/9/20168-3: Ratios in Right Triangles

25. To calculate angles from cos: Use the 2 nd (shift or inverse) key before the cos key. Ex: cos A =.8894 Type.8894 2 nd cos. This returns 27.20, so m ∠ A = 27.2° You may need to type 2 nd cos.8894 = 1/9/20168-3: Ratios in Right Triangles

26. To calculate angles from sin: Use the 2 nd (shift or inverse) key before the sin key. Ex: sin A =.6 Type.6 2 nd sin. This returns 36.87, so m ∠ A = 36.87° You may need to type 2 nd sin.6 = 1/9/20168-3: Ratios in Right Triangles

27. To calculate angles from tan: Use the 2 nd (shift or inverse) key before the tan key. Ex: tan A =.2341 Type.2341 2 nd tan. This returns 13.17, so m ∠ A = 13.17° You may need to type 2 nd tan.2341 = 1/9/20168-3: Ratios in Right Triangles

28. A patient is being treated with radiotherapy for a tumor that is behind a vital organ. In order to prevent damage to the organ, the doctor must angle the rays to the tumor. If the tumor is 6.3 cm below the skin and the rays enter the body 9.8 cm to the right of the tumor, find the angle at which the rays should enter the body to hit the tumor. 1/9/20168-3: Ratios in Right Triangles

29. The hypotenuse of the right triangle shown below is 22 feet long. The cosine of angle L is ¾. How many feet long is the segment LM? A. 18.4 B. 16.5 C. 11.0 D. 6.7 E. 4.7 1/9/20168-3: Ratios in Right Triangles L MN 22

30. Assignment Pages 416 – 419, # 17-49 (odds), 50, 51, 53 – 65 (odds) 1/9/20168-3: Ratios in Right Triangles