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Splash Screen. Five-Minute Check (over Lesson 12–2) CCSS Then/Now New Vocabulary Key Concept: Trigonometric Functions of General Angles Example 1: Evaluate Trigonometric Functions Given a Point Key Concept: Quadrantal Angles Example 2: Quadrantal Angles Key Concept: Reference Angles

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  1. Splash Screen

  2. Five-Minute Check (over Lesson 12–2) CCSS Then/Now New Vocabulary Key Concept: Trigonometric Functions of General Angles Example 1: Evaluate Trigonometric Functions Given a Point Key Concept: Quadrantal Angles Example 2: Quadrantal Angles Key Concept: Reference Angles Example 3: Find Reference Angles Key Concept: Evaluate Trigonometric Functions Example 4: Use a Reference Angle to Find a Trigonometric Value Example 5: Real-World Example: Use Trigonometric Functions Lesson Menu

  3. A. 74.5° B. 67.5° C. 58° D. 47° 5-Minute Check 1

  4. A. 74.5° B. 67.5° C. 58° D. 47° 5-Minute Check 1

  5. A. B. C. D. Rewrite 135° in radians. 5-Minute Check 2

  6. A. B. C. D. Rewrite 135° in radians. 5-Minute Check 2

  7. Find one angle with positive measure and one angle with negative measure coterminal with 88°. A. 448°, –272° B. 358°, –182° C. 268°, –92° D. 178°, –2° 5-Minute Check 3

  8. Find one angle with positive measure and one angle with negative measure coterminal with 88°. A. 448°, –272° B. 358°, –182° C. 268°, –92° D. 178°, –2° 5-Minute Check 3

  9. Find one angle with positive measure and one angle with negative measure coterminal with A. B. C. D. 5-Minute Check 4

  10. Find one angle with positive measure and one angle with negative measure coterminal with A. B. C. D. 5-Minute Check 4

  11. Use an angle measure in radiansto calculate the area A of the baseball field. Round to the nearest whole number, if necessary. A. 7860 yd2 B. 7854 yd2 C. 3930 yd2 D. 3925 yd2 5-Minute Check 5

  12. Use an angle measure in radiansto calculate the area A of the baseball field. Round to the nearest whole number, if necessary. A. 7860 yd2 B. 7854 yd2 C. 3930 yd2 D. 3925 yd2 5-Minute Check 5

  13. Mathematical Practices 6 Attend to precision. CCSS

  14. You found values of trigonometric functions for acute angles. • Find values of trigonometric functions for general angles. • Find values of trigonometric functions by using reference angles. Then/Now

  15. quadrantal angle • reference angle Vocabulary

  16. Concept

  17. Evaluate Trigonometric Functions Given a Point The terminal side of  in standard position contains the point (8, –15). Find the exact values of the six trigonometric functions of . From the coordinates given, you know that x = 8 and y = –15. Use the Pythagorean Theorem to find r. Pythagorean Theorem Replace x with 8 and y with –15. Example 1

  18. Evaluate Trigonometric Functions Given a Point Simplify. Now use x = 8, y = –15, and r = 17 to write the ratios. Answer: Example 1

  19. Answer: Evaluate Trigonometric Functions Given a Point Simplify. Now use x = 8, y = –15, and r = 17 to write the ratios. Example 1

  20. A. B. C. D. Find the exact values of the six trigonometric functions of  if the terminal side of  contains the point (–3, 4). Example 1

  21. A. B. C. D. Find the exact values of the six trigonometric functions of  if the terminal side of  contains the point (–3, 4). Example 1

  22. Concept

  23. Quadrantal Angles The terminal side of  in standard position contains the point at (0, –2). Find the values of the six trigonometric functions of . The point at (0, –2) lies on the negative y-axis, so the quadrantal angle θ is 270°. Use x = 0, y = –2, and r = 2 to write the trigonometric functions. Example 2

  24. Quadrantal Angles Example 2

  25. The terminal side of in standard position contains the point at (3, 0). Which of the following trigonometricfunctions of  is incorrect? A. sin  = 1 B. cos  = 1 C. tan  = 0 D. cot  is undefined Example 2

  26. The terminal side of in standard position contains the point at (3, 0). Which of the following trigonometricfunctions of  is incorrect? A. sin  = 1 B. cos  = 1 C. tan  = 0 D. cot  is undefined Example 2

  27. Concept

  28. Find Reference Angles A. Sketch 330°. Then find its reference angle. Answer: Example 3

  29. Find Reference Angles A. Sketch 330°. Then find its reference angle. Answer: Because the terminal side of 330 lies in quadrant IV, the reference angle is 360 – 330 or 30. Example 3

  30. B. Sketch Then find its reference angle. Find Reference Angles Answer: Example 3

  31. B. Sketch Then find its reference angle. Answer: A coterminal angle Because the terminal side of this angle lies in Quadrant III, the reference angle is Find Reference Angles Example 3

  32. A. Sketch 315°. Then find its reference angle. A. 105° B. 85° C. 45° D. 35° Example 3

  33. A. Sketch 315°. Then find its reference angle. A. 105° B. 85° C. 45° D. 35° Example 3

  34. B. Sketch Then find its reference angle. A. B. C. D. Example 3

  35. B. Sketch Then find its reference angle. A. B. C. D. Example 3

  36. Concept

  37. Use a Reference Angle to Find a Trigonometric Value A. Find the exact value of sin 135°. Because the terminal side of 135° lies in Quadrant II, the reference angle  ' is 180° – 135° or 45°. Answer: Example 4

  38. Answer: The sine function is positive in Quadrant II, so, sin 135° = sin 45° or Use a Reference Angle to Find a Trigonometric Value A. Find the exact value of sin 135°. Because the terminal side of 135° lies in Quadrant II, the reference angle  ' is 180° – 135° or 45°. Example 4

  39. B. Find the exact value of Because the terminal side of lies in Quadrant I, the reference angle is The cotangent function is positive in Quadrant I. Use a Reference Angle to Find a Trigonometric Value Example 4

  40. Use a Reference Angle to Find a Trigonometric Value Answer: Example 4

  41. Answer: Use a Reference Angle to Find a Trigonometric Value Example 4

  42. A. B. C. D. A. Find the exact value of sin 120°. Example 4

  43. A. B. C. D. A. Find the exact value of sin 120°. Example 4

  44. B. Find the exact value of A. B.0 C. D. Example 4

  45. B. Find the exact value of A. B.0 C. D. Example 4

  46. Use Trigonometric Functions RIDES The swing arms of the ride pictured below are 89 feet long and the height of the axis from which the arms swing is 99 feet. What is the total height of the ride at the peak of the arc? Example 5

  47. sin  Use Trigonometric Functions coterminal angle: –200° + 360° = 160° reference angle: 180° – 160° = 20° Sine function  = 20° and r = 89 89 sin 20° = y Multiply each side by 89. 30.4 ≈ y Use a calculator to solve for y. Answer: Example 5

  48. sin  Use Trigonometric Functions coterminal angle: –200° + 360° = 160° reference angle: 180° – 160° = 20° Sine function  = 20° and r = 89 89 sin 20° = y Multiply each side by 89. 30.4 ≈ y Use a calculator to solve for y. Answer: Since y is approximately 30.4 feet, the total height of the ride at the peak is 30.4 + 99 or about 129.4 feet. Example 5

  49. RIDES The swing arms of the ride pictured below are 68 feet long and the height of the axis from which the arms swing is 79 feet. What is the total height of the ride at the peak of the arc? A. 23.6 ft B. 79 ft C. 102.3 ft D. 110.8 ft Example 5

  50. RIDES The swing arms of the ride pictured below are 68 feet long and the height of the axis from which the arms swing is 79 feet. What is the total height of the ride at the peak of the arc? A. 23.6 ft B. 79 ft C. 102.3 ft D. 110.8 ft Example 5

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