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Warm up Find x. Round to the nearest tenth. A. 14.1 B. 17.4 C. 19.4 D. 21.3

Warm up Find x. Round to the nearest tenth. A. 9.5 B. 15.9 C. 23.7 D. 30.8

Unit 6 Lesson 3 • I can use trigonometric ratios to find angle measures in right triangles. • I can use trigonometric ratios to solve word problems. Inverse Trig Real World Application

Inverse Trigonometric Ratios

Remember… Solving Trigonometric Equations There are only three possibilities for the placement of the variable ‘x”. Sin = Sin = Sin = Sin 25 = Sin = Sin 25 = 0.4226 = Sin = 0.48 0.4226 = X = Sin (0.48) x = x = (12) (0.4226) x = 5.04 cm X = 28.6854 x = 28.4 cm

÷ ) ENTER 2nd ( KEYSTROKES: [COS] 13 19 46.82644889 Use a calculator to find the measure of P to the nearest tenth. The measures given are those of the leg adjacent to P and the hypotenuse, so write the equation using the cosine ratio. Answer: So, the measure of P is approximately 46.8°.

Use a calculator to find the measure of D to the nearest tenth. A. 44.1° B. 48.3° C. 55.4° D. 57.2°

Find x. Round to the nearest tenth. A. 34.7 B. 43.8 C. 46.2 D. 52.5

Solve the right triangle. • What are we looking for? • ALL sides of the triangle • ALL angles of the triangle • Round side measures to the nearest hundredth and angle measures to the nearest degree.

Step 1 Find mA by using a tangent ratio. Definition of inverse tangent 29.7448813 ≈ mA Use a calculator. So, the measure of A is about 30.

Step 2 Find mB using complementary angles. mA + mB = 90Definition of complementary angles 30 + mB ≈ 90 mA ≈ 30 mB≈ 60Subtract 30 from each side. So, the measure of B is about 60.

Step 3 Find AB by using the Pythagorean Theorem. (AC)2 + (BC)2 = (AB)2 Pythagorean Theorem 72 + 42 = (AB)2 Substitution 65= (AB)2 Simplify. Take the positive square root of each side. 8.06 ≈ABUse a calculator. Answer:mA ≈ 30, mB ≈ 60, AB ≈ 8.06

Solve the right triangle. Round side measures to the nearest tenth and angle measures to the nearest degree. A.mA = 36°, mB = 54°, AB = 13.6 B.mA = 54°, mB = 36°, AB = 13.6 C.mA = 36°, mB = 54°, AB = 16.3 D.mA = 54°, mB = 36°, AB = 16.3

Angle of elevation • The angle formed by a horizontal line (usually the ground) and an observer’s line of sight to an object above

Angle of Depression The angle formed by a horizontal line (usually imagined) and an observer’s line of sight to an object below

Angle of Elevation CIRCUS ACTS At the circus, a person in the audience at ground level watches the high-wire routine. A 5-foot-6-inch tall acrobat is standing on a platform that is 25 feet off the ground. How far is the audience member from the base of the platform, if the angle of elevation from the audience member’s line of sight to the top of the acrobat is 27°? Make a drawing.

Divide both sides by tan Since QR is 25 feet and RS is 5 feet 6 inches or 5.5 feet, QS is 30.5 feet. Let x represent PQ. Multiply both sides by x. Simplify.

DIVING At a diving competition, a 6-foot-tall diver stands atop the 32-foot platform. The front edge of the platform projects 5 feet beyond the ends of the pool. The pool itself is 50 feet in length. A camera is set up at the opposite end of the pool even with the pool’s edge. If the camera is angled so that its line of sight extends to the top of the diver’s head, what is the camera’s angle of elevation to the nearest degree? A. 37° B. 35° C. 40° D. 50°

Since are parallel, mBAC = mACD by the Alternate Interior Angles Theorem. DISTANCE Maria is at the top of a cliff and sees a seal in the water. If the cliff is 40 feet above the water and the angle of depression is 52°, what is the horizontal distance from the seal to the cliff, to the nearest foot? Make a sketch of the situation.

Let x represent the horizontal distance from the seal to the cliff, DC. c = 52°; AD = 40, and DC = x Multiply each side by x. Divide each side by tan 52°. The seal is about 31 feet from the cliff.

Luisa is in a hot air balloon 30 feet above the ground. She sees the landing spot at an angle of depression of 34. What is the horizontal distance between the hot air balloon and the landing spot to the nearest foot? A. 19 ft B. 20 ft C. 44 ft D. 58 ft

DISTANCE Vernon is on the top deck of a cruise ship and observes two dolphins following each other directly away from the ship in a straight line. Vernon’s position is 154 meters above sea level, and the angles of depression to the two dolphins are 35° and 36°. Find the distance between the two dolphins to the nearest meter.

Plan Because are horizontal lines, they are parallel. Thus, and because they are alternate interior angles. This means that Understand ΔMLK andΔMLJare right triangles. The distance between the dolphins isJK or JL – KL. Use the right triangles to find these two lengths.

Divide each side by tan Solve Multiply each side by JL. Use a calculator.

Divide each side by tan Multiply each side by KL. Use a calculator. Answer: The distance between the dolphins is JK – KL. JL – KL≈ 219.93 – 211.96, or about 8 meters.

Madison looks out her second-floor window, which is 15 feet above the ground. She observes two parked cars. One car is parked along the curb directly in front of her window and the other car is parked directly across the street from the first car. The angles of depression of Madison’s line of sight to the cars are 17° and 31°. Find the distance between the two cars to the nearest foot. A. 14 ft B. 24 ft C. 37 ft D. 49 ft

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