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Trigonometric Functions through Right Triangle Similarities Todd O. Moyer, Towson University Abstract: This article presents an introduction to the trigonometric functions tangent, cosecant, secant, and cotangent. Students understand these functions as quotients of the sine and cosine functions only. However, applying right triangle geometry to a triangle constructed within the unit circle develops the remaining trigonometric functions as ratios of side lengths, fostering stronger student understanding. Keywords. Trigonometry, unit circle, mathematical connections, dynamic mathematics software 1 Introduction One of the classes that I have taught over the past few years is a technology course for future secondary mathematics teachers. Part of the curriculum is the use of Geometer s Sketchpad (GSP). Among the numerous Aha moments that inevitably occur deals with the trigonometric functions. Students typically understand tangent, cosecant, secant, and cotangent functions as quotients of the sine and cosine functions. For example, most initially describe the tangent function as sine over cosine. When students construct right triangles from the unit circle and discover that the trigonometric ratios can be demonstrated as line segments in the same manner as sine and cosine, they are often quite surprised. The trigonometric functions begin to make more sense conceptually when students are able to construct physical representations (i.e., segments) for each function. The National Council of Teachers of Mathematics (NCTM), in its Principles and Standards for School Mathematics (NCTM, 2000), states that students should use trigonometric relationships to determine lengths and angle measures (p. 308). Authors of the recently published Common Core State Standards Initiative (CCSS) recommend that students understand that by similarity, side ratios in right triangles are properties of the angles in the triangle, leading to definitions of trigonometric ratios for acute angles (High School Geometry: Similarity, Right Triangles, and Trigonometry Standard 6). In addition to addressing the aforementioned NCTM and CCSS standards, the activity described herein also engages students in reasoning, sense-making, and proof. I use GSP5 when I teach this lesson, but it could also be taught without the technology or with other dynamic tools such as GeoGebra or TI-Nspire. Using technology allows for students to investigate the domains and ranges of all six trigonometric functions easily and helps foster conjecturing and hypothesis-testing. Ohio Journal of School Mathematics 68 Page 33

2 Preparing for the Activity To prepare students for this lesson, the following topics should be reviewed: 1. Mean Proportional. Recall that the mean proportional of a right triangle is formed by constructing the altitude to the triangle s hypotenuse. This construction forms 3 similar right triangles (to be developed within the lesson); 2. Geometric Mean. Recall that a number is a geometric mean between two numbers if it satisfies the equation m = ab. For example, 6 is the geometric mean of 3 and 12 because 3 6 = 6 12 6 = 3 12; 3. Sine and Cosine Functions. Recall that sin (θ) = opposite side length hypotenuse length and cos (θ) = 4. The Pythagorean Identity for Sine and Cosine. Recall that sin 2 (θ) + cos 2 (θ) = 1. adjacent side length hypotenuse length ; 3 The Activity Begin by considering Fig 1, where BD is the altitude to the hypotenuse of right triangle ABC (i.e., the mean proportional of ABC). Fig. 1: Right triangle ABC with mean proportional BD. The altitude, BD, creates three similar triangles, ABC ADB BDC. Similarity may be confirmed through the Angle-Angle (AA) postulate for triangles. Look at the following ratios from these particular similar triangles. ABC ADB AC AB = AB AD ABC BDC AC BC = BC CD ADB BDC AD BD = BD CD Note that AB, BC, and BD are geometric means within their respective ratios. Compare the first two ratios, AC AB = AB AC AD and BC = BC CD, and the segments of the triangles in Figure A. These ratios come from the original right triangle and one of the triangles created by the altitude BD. Observe that AB and BC are the legs of the right triangle ABC, the hypotenuse is AC, and that AD and CD are the two segments of the hypotenuse. Our first theorem is that each leg of the right triangle is the geometric mean between the hypotenuse and that segment of the hypotenuse adjacent to the leg. Now examine the third ratio, AD BD = BD CD. This ratio comes from the two right triangles created by the altitude BD. The segment BD is the altitude to the hypotenuse, while AD and CD are two Page 34 Ohio Journal of School Mathematics 68

parts of the hypotenuse. Our second theorem is that the altitude to the hypotenuse is the geometric mean between the two segments of the hypotenuse. As a result of the ratios of similar triangles, we have two facts with which to work. The proofs of these theorems are given above with the arguments about ratios from the similar triangles. These facts can now be applied to a special triangle constructed within the unit circle. The directions for the sketch in GSP5 are given at the end of this article. The instructions can be used as a basis for a student discovery lesson or as a teacher demonstration lesson. Fig. 2: Similar right triangles constructed within the unit circle. 3.1 Identifying Tangent Using the fact that ACD BCA, the proportion AC BC figure, AC BC = AD AB AD 1 of the tangent of the angle θ. = sin(θ) cos(θ) = AD AB is valid. Substituting from the = tan(θ). The ratio of the length of AD over 1 is equal to the value 3.2 Identifying Secant In right triangle ACD, each leg of the right triangle is the geometric mean between the hypotenuse and that segment of the hypotenuse adjacent to the leg. Therefore, CD AC = AC CB CD 1 = 1 cos(θ) CD = 1 cos(θ) = sec(θ). 3.3 Identifying Cotangent In right triangle ECD, the altitude AC is the geometric mean between the two segments of the hypotenuse. This implies EA AC = AC AD EA 1 = 1 tan(θ) EA = 1 tan(θ) = cot(θ). 3.4 Identifying Cosecant Before we develop cosecant, we need to manipulate the Pythagorean Identity, sin 2 (θ) + cos 2 (θ) = 1 (1) Ohio Journal of School Mathematics 68 Page 35

Dividing each term of (1) by sin 2 (θ), sin 2 (θ) sin 2 (θ) + cos2 (θ) sin 2 (θ) = 1 sin 2 (θ) (2) Simplifying, 1 + cot 2 (θ) = csc 2 (θ) (3) Now consider CDE ACE. This implies DE CE = CE EA tan(θ)+cot(θ) CE = CE cot(θ) CE 2 = cot(θ) (tan(θ) + cot(θ)) = 1 + cot 2 (θ) = csc 2 (θ) CE = csc(θ). 4 Conclusions As the extension of the activity, an action button can be created such that the point A travels about the circle. The triangles automatically adjust. Students can start to visually understand the domain and range of each of the six trigonometric functions and points where certain trigonometric functions are not defined. References Common Core State Standards Initiative (2010). Common core standards for mathematics. (Also available at http://www.corestandards.org/assets/ccssi_math%20standards.pdf) National Council of Teachers of Mathematics (2000). Principles and standards for school mathematics. Reston, VA: Author. Dr. Todd Moyer, tmoyer@towson.edu, is an associate professor in the Department of Mathematics at Towson University. Dr. Moyer has 15 years of teaching experience at the secondary level. His interests lie in using technology to improve instruction and student achievement. Dr. Moyer regularly uses graphing calculators, Geometer s Sketchpad, and Fathom as part of his teaching methods. He is particularly interested in improving student achievement in geometry. Page 36 Ohio Journal of School Mathematics 68

Student Activity Sheet for Geometer s Sketchpad 1. Let s review some geometry that we will need for this activity. In GSP, construct an arbitrary segment AB. Select B and AB, then choose Perpendicular from the GSP Construct menu. Next, construct an arbitrary point, C, along the perpendicular. These steps are highlighted below. 2. Hide the perpendicular (select it then choose Hide Perpendicular Line from the GSP Display menu). Construct the right triangle ABC with right angle B. Use the marker tool and draw an angle marker from AB to BC. Measure the lengths of AB, BC, and AC as shown below. 3. To construct the altitude BD, select B and segment AC and choose Perpendicular from the GSP Construct menu. Label the intersection of the perpendicular and AC as D. Hide the perpendicular. Construct and measure the segments AD, BD, and CD. Mark the perpendicular at D as illustrated below. Ohio Journal of School Mathematics 68 Page 37

4. Measure BAC. Calculate the measures of BCD, ABD, and CBD. What can now be claimed about all three triangles? Write the corresponding ratios. 5. Construct and record the following ratios. Select the segments in the order shown, then choose Ratio from the GSP Measure menu. To select AC, you may need to select AD twice. Make sure that the whole segment is highlighted when selecting AC AB = AB AD = AC BC = BC CD = AD BD = BD CD = When you have completed this task, your sketch should look similar to the following (specific values will vary). 6. Drag any of the points A, B, or C. Make an observation about the displayed ratios. 7. Now for the trigonometry. In a new sketch, create a coordinate system by choosing Graph > Grid Form > Square. Drag the unit point (1, 0) to the right until the x-axis goes from 4 to 4 as suggested below. Page 38 Ohio Journal of School Mathematics 68

8. Construct the unit circle by selecting the compass tool, clicking on the origin and attaching the circle to the unit point. Create any point A on the circle in the first quadrant as shown below. 9. Construct a perpendicular from A to the x-axis. Label the intersection as point B. Then hide the perpendicular. Label the origin as point C. To do this, choose the text tool and click on the origin. Your sketch should look similar to the following. Ohio Journal of School Mathematics 68 Page 39

10. Construct the tangent line to the circle at point A. Recalling that a tangent is perpendicular to a radius of the circle at a point of tangency, select the point A and the radius AC, then select Perpendicular Line from the GSP Construct menu. Label the intersection of this tangent and each of the x and y axes as points D and E, respectively, as suggested below. 11. Hide the perpendicular and construct the following segments: CD, DA, AE, and EC as shown below. Name five right triangles in your sketch. What is true about all five of your triangles? Page 40 Ohio Journal of School Mathematics 68

12. Create the angle marker for ACB. Select the GSP marker tool, take the pen and draw an arc from AC to CB. To label segments in GSP, choose the text tool and double-click on the particular segment. Label AC as 1. Previously, you defined the length of AB as the value of the sine function for the marked angle; likewise, the length of BC is the value of the cosine function. Label those two segments as such as shown below. 13. Recall from the review that the altitude constructed to the hypotenuse of a right triangle creates three similar triangles, and that two theorems follow as a direct result. With that mind, find the correct proportions within the five triangles to find a representation for the length of AD and segments AB, AC, and BC. 14. Again, use the geometric information and find a proportion that expresses the relationship between the lengths of AE and AC and AD. 15. Once more, find a proportion that expresses the relationship between the length of CE and AE and DE. (Hint: To finish the simplification, you will need to manipulate sin 2 (θ)+cos 2 (θ) = 1.) Ohio Journal of School Mathematics 68 Page 41

16. Last time, find a proportion that expresses the relationship between the length of CD and AC and BC. 17. Label the segments AE, CD, and CE accordingly. 18. As an extension, animate point A about the circle. To do this in GSP, select A and the circle, then Edit > Action Buttons > Animate. Edit the dialogue box as shown. To change speeds, pull down the speed menu, choose other, and enter the desired number. When complete, an action button will appear. 19. As point A travels about the circle, make an observation about the domain and range of each of the six trigonometric functions. Page 42 Ohio Journal of School Mathematics 68

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