Right Triangles and SOHCAHTOA: Finding the Measure of an Angle Given any Two Sides (ONLY for ACUTE TRIANGLES Why?)



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Name Period Date Right Triangles and SOHCAHTOA: Finding the Measure of an Angle Given any Two Sides (ONLY for ACUTE TRIANGLES Why?) Preliminary Information: SOH CAH TOA is an acronym to represent the following three trigonometric ratios or formulas: Part I) Model Problems Example 1: Consider right DFE pictured at right. We know two sides, and our goal is to determine the measure of the unknown angle θ. Step 1: Place your finger on the unknown angle, and then label the three sides: the hypotenuse is always the longest side; the side you are not touching is the opposite leg; and the remaining side you are touching is the adjacent leg. Step 2: We need to determine which trigonometric ratio to use: the sine, the cosine, or tangent. It is recommended that you write SOH CAH TOA on your paper: Step 3: Ask yourself, Which sides do I know? In this example, we know that the Adjacent leg is 28 m, and we know the Opposite leg is 13 m. To indicate that we know the Adjacent leg, underline both A s, and to indicate that we know the Opposite leg, underline both O s: Step 4: Consider which of the three ratios has the most information: we have one piece of information for the sine (one underline), only one piece of information for the cosine (one underline), yet we have two pieces of information for the tangent (two underlines). We are therefore going to use the tangent ratio formula: 1

Step 5: Substitute the known information into the formula: Step 6: Determine the angle θ that satisfies this equation. There are generally two methods for finding this unknown angle: Step 7: Check for reasonableness: since the 13 m side is the shortest side, it makes sense that the opposite angle would be smallest. This answer seems reasonable. Notice that both methods resulted in approximately the same angle. Note: it is also possible to directly check your answer in the equation: 2

Example 2: Consider right GHJ pictured at right. We know two sides, and our goal is to determine the degree measure of the unknown angle y. Step 1: Place your finger on the unknown angle y, and then label the three sides: the hypotenuse is always the longest side; the side you are not touching is the opposite leg; and the remaining side you are touching is the adjacent leg. Step 2: Write SOH CAH TOA on your paper: Step 3: Ask yourself, Which sides do I know? In this example, we know that the Adjacent leg is 15, and we know the Hypotenuse is 18. To indicate that we know the Adjacent leg, underline both A s, and to indicate that we know the Hypotenuse, underline both H s: Step 4: Consider which of the three ratios has the most information: we have one piece of information for the sine and tangent (one underline each), yet we have two pieces of information for the cosine (two underlines). We are therefore going to use the cosine ratio formula: Step 5: Substitute the known information into the formula: Step 6: Determine the angle y that satisfies this equation. 3

Step 7: Check for reasonableness: since the 15 side is almost as long as the hypotenuse, it makes sense that the angle would be less than 45. This answer seems reasonable. Note: it is also possible to directly check your answer in the equation: Example 3: Consider right KLM pictured at right. We know all three sides, and our goal is to determine the degree measure of the unknown angle z. Step 1: Place your finger on the unknown angle z, and then label the three sides: the hypotenuse is always the longest side; the side you are not touching is the opposite leg; and the remaining side you are touching is the adjacent leg. Step 2: Write SOH CAH TOA on your paper: Step 3: Ask yourself, Which sides do I know? In this example, we know all three sides: The Adjacent leg is 12 cm, the Hypotenuse is 13 cm, and we know the Opposite leg is 5 cm. To indicate that we know the Adjacent leg, underline both A s, to indicate that we know the Opposite leg, underline both O s, and to indicate that we know the Hypotenuse, underline both H s: Step 4: Consider which of the three ratios has the most information: In this case, we could use any of them! For simplicity, let s favor the sine ratio in this example, but we ll carry the cosine and tangent ratios just to watch what happens: Step 5: Substitute the known information into the formula:.3846.9231.4167 4

Step 6: Determine the angle z that satisfies the equation. Step 7: Check for reasonableness: since the 5 cm side is the shortest, it makes sense that the opposite angle is the smallest as well. Note: it is also possible to directly check your answer in the equations: 5

REMINDER: SOH CAH TOA MODEL follow the steps: Consider right DFE pictured at the right. We know two sides, and our goal is to determine the measure of the unknown angle θ. Step 1: Place your finger on the unknown angle, and then label the three sides: H O A Step 2: We need to determine which trigonometric ratio to use. Step 3: Substitute the known information into the formula: Step 4: Rewrite the equation to solve for θ since you are determining the angle θ that satisfies this equation. Step 5: Use the Inverse Function on your calculator or worksheet to solve for angle θ. Step 6: Check for reasonableness Practice 1. Calculate the value of x to the nearest degree: sin x = 0.78801 2. Calculate the value of y to the nearest tenth: cos y = 24 25 3. Calculate the value of z to the nearest hundredth: tan z = 84.93 34.627 6

4. Determine the measure of angle x to the nearest tenth. 5. Determine the measure of angle y to the nearest hundredth. 6. Determine the measure of angle z to the nearest degree. 7. Determine the measure of angle w to the nearest degree. 8. Error Analysis: Josh was asked to determine the measure of angle x to the nearest hundredth. His teacher marked it incorrect. His work is shown below. Find his error, and then correct it. 7

9. For the triangle pictured, Marcy placed her finger on the vertex of angle N and concluded that cos N = 21. Likewise, Timmy 29 placed his finger on the vertex of angle N and concluded that sin N = 20. 29 a. If you solve it beginning with Marcy s equation, what answer will she get? b. If you solve it Timmy s way, what answer will he get? c. Are these results reasonable? Explain. 10. Use the Pythagorean Theorem, SOHCAHTOA, and the fact that the sum of the three interior angles of a triangle sum to 180 to determine all unknown sides and angles of the triangle pictured at right. Round all quantities, when necessary, to the nearest hundredth. 11. Error Analysis: Consider the right triangle pictured at right, which Annie and Lauren are both trying to solve. They both set it up using the equation tan L = 676 34. M The steps of their work are shown below. Analyze their work to determine who, if anyone, is doing it correctly and identify any error. L 8

74 cm 12. Consider the equation tan x =. 54 cm a. Sketch and label a right triangle that matches this equation. b. Solve for x. Round to the nearest hundredth. c. Determine the hypotenuse of your triangle using Trig functions. Round to the nearest hundredth. d. Use the Pythagorean Theorem to confirm that this is, in fact, a right triangle. 13. Consider the following information: In ABC with right C, the length of side AB is 42 cm, and the length of side AC is 20 cm. a. Sketch and label a right triangle that matches this description. b. Determine the measure of angle B to the nearest hundredth. c. Determine the measure of the third angle. 9

14. The following equations specify a specific right triangle: tan C = 38 38. cos B =, and sin A = 1. 40 x a. Make a labeled sketch of this triangle. b. Determine the measure of angle B to the nearest tenth. c. Determine the measure of angle C to the nearest tenth. d. Determine the length of side x to the nearest hundredth. 15. A right triangle has an area of 54 cm 2 and one of its legs is 9 cm. Determine the measures of its two acute angles to the nearest degree. 10

16. A 32-foot ladder is leaning against a tree. The base of the ladder rests 7 feet away from the foot of the tree. Assuming the tree is growing straight up: a. Make a labeled sketch of the situation. b. What acute angle does the ladder form with the ground? c. How high up the tree does the ladder reach? 17. Determine the measures of angles w, x, y, and z. Round answers to the nearest hundredth: 11

18. Xavier, Yolanda and Zelda are examining the right triangle. Yolanda observes that tan y = 56 33, so y = tan 1 ( 56 33 ) And Zelda observes that tan z = 33 56, so z = tan 1 ( 33 56 ) Xavier comments that 56 33 and 33 56 are reciprocals of each other. a. To the nearest degree, what angle will Yolanda get for angle y? b. To the nearest degree, what angle will Zelda get for angle z? c. What is the sum of Yolanda s and Zelda s answers? d. Explain why the answer you got in part (c) is reasonable. Think back to figure. e. Xavier attempts to write a formula expressing this idea, but he gets stuck. Can you help him complete his formula? tan 1 a + = b f. Verify that your formula works when a = 20 and b = 7: 12

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