§10.6 Trigononmetric Ratios

1. §10.6 Trigononmetric Ratios

2. A H O H O A Let c = , s = , t = . Calculate c, s, and t for the given values. 1.A = 3, O = 4, H = 5 2.A = 5, O = 12, H = 13 Solve each equation. 3. = 4. = 5. = 6. = 0.34 1 15 x 0.75 1 x 20 x 0.52 14 1 0.84 1 21 x Warm-Ups

3. 1. For A = 3, O = 4, H = 5: c = = , s = = , t = = 2. For A = 5, O = 12, H = 13: c = = , s = = , t = = 3. = 4. = 0.75x = 15 x = 20(0.34) x = 20 x = 6.8 5. = 6. = 0.84 = 21 x = 14(0.52) x = 25 x = 7.28 1. For A = 3, O = 4, H = 5: c = = , s = = , t = = 2. For A = 5, O = 12, H = 13: c = = , s = = , t = = 3. = 4. = 0.75x = 15 x = 20(0.34) x = 20 x = 6.8 5. = 6. = 0.84 = 21 x = 14(0.52) x = 25 x = 7.28 A H A H 3 5 3 5 O H O H 4 5 4 5 O A O A 3 4 3 4 A H A H O H O H O A O A 5 13 5 13 12 13 12 13 12 5 12 5 0.34 1 0.34 1 x 20 x 20 15 x 15 x 0.75 1 0.75 1 0.84 1 0.84 1 21 x 21 x x 0.52 x 0.52 14 1 14 1 Solutions

4. opposite leg hypotenuse opposite leg adjacent leg 6 10 3 5 sin A = = = adjacent leg hypotenuse 8 10 4 5  cos A = = = 6 8 3 4   tan A = = = Example 1: Finding Trigonometric Ratios Use the triangle. Find sin A, cosA, and tan A.

5. To find sin 40°, press 40 . Use degree mode when finding   trigonometric ratios. Example 2: Finding a Trigonometric Ratio Find sin 40° by using a calculator. Rounded to the nearest ten-thousandth, the sin 40° is 0.6428.

6. adjacent leg hypotenuse cos 30° = x 15 cos30° = Substitute x for adjacent leg and 15 for hypotenuse. 15 30 12.99038106 Use a calculator. x 13.0 Round to the nearest tenth. Example 3: Finding a Missing Side Length Find the value of x in the triangle. Step 1:Decide which trigonometric ratio to use. You know the angle and the length of the hypotenuse. You are trying to find the adjacent side. Use the cosine. Step 2: Write an equation and solve. x = 15(cos 30°) Solve for x. The value of x is about 13.0.

7. Draw a diagram.  Example 4: Finding the Measures of an Angle Suppose the angle of elevation from a rowboat to the top of a lighthouse is 70o. You know that the lighthouse is 70 ft tall. How far from the lighthouse is the rowboat? Round your answer to the nearest foot. Define: Let x = the distance from the boat to the lighthouse. Relate: You know the angle of elevation and the opposite side. You are trying to find the adjacent side. Use the tangent.

8. opposite leg adjacent leg Write: tan A = tan 70° = Substitute for the angle and the sides. x(tan 70°) = 70 Multiply each side by x. x = Divide each side by tan 70°. 70 tan 70 x 25.4779164 Use a calculator. x 25 Round to the nearest unit. 70 X Example 4: Finding the Measures of an Angle The rowboat is about 25 feet from the lighthouse.

9. Draw a diagram. Example 5: Using an Angle of Elevation or Depression A pilot is flying a plane 15,000 ft above the ground. The pilot begins a 3° descent to an airport runway. How far is the airplane from the start of the runway (in ground distance)? Define: Let x = the ground distance from the start of the runway. Relate: You know the angle of depression and the opposite side. You are trying to find the adjacent side. Use the tangent.

10. opposite leg adjacent leg Write: tan A = tan 3° = Substitute for the angle and the sides. 15,000 x x(tan 3°) = 15,000 Multiply each side by x. x = Divide each side by tan 3°. 15,000 tan 3 x 286217.05 Use a calculator. x 290,000 Round to the nearest 10,000 feet. Example 5: Using an Angle of Elevation or Depression The airplane is about 290,000 feet (or about 55 miles) from the start of the runway.

11. Assignment: pg. 649-650 8-35 Left