Evaluating trigonometric functions



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MATH 1110 009-09-06 Evaluating trigonometric functions Remark. Throughout this document, remember the angle measurement convention, which states that if the measurement of an angle appears without units, then it is assumed to be measured in radians. Contents 1 Acute and square angles 1 Larger angles the geometric method Larger angles the formulas method 5 Introduction If you are in this course, then you should already by fairly familiar with trigonometric functions, and how to evaluate them. This document is only meant to be a very quick reminder. A thorough discussion of this material can be found in Section B. in the appendix to your textbook. 1 Acute and square angles You will need to memorize the values of sine and cosine at the following acute angles: 6 = 0, = 5, and = 60. You will also need to know their values at the square angles 0 = 0, = 90, = 180, = 70, and = 60. θ 0 6 sin θ 0 1 1 1 0 1 0 cos θ 1 1 1 0 1 0 1 1

MATH 1110 009-09-06 The sine and cosine of the square angles are easy to figure out from the definition of cosine and sine as the x and y coordinates of points on the unit circle. (See Section B. of the textbook. The sine and cosine of the acute angles listed above can be found by studying a 0-60 -90 triangle and a 5-5 -90 triangle. (See Figure B. in Section B. of the textbook. Values of the other trigonometric functions at the angles listed above can be found easily, since the other functions are all built from sine and cosine. Example 1. Question. Evaluate tan and sec. Answer. Since tan θ = sin θ, we have cos θ tan = sin cos = / 1/ =. Similarly, sec = 1 cos = 1 1/ =. Larger angles the geometric method The first thing to notice is that since sine and cosine repeat their values every radians, if you are asked to evaluate one of these functions at an angle which is not between 0 and, you can simply add or subtract until the angle does lie in that interval. For example, ( 10 sin ( ( 10 10 = sin = sin 6 = sin (. The next thing to notice is that the value of sine or cosine at any angle θ with 0 θ is essentially determined by their values at an a particular acute angle related to θ, called the reference angle of θ. Definition.1. The reference angle of a non-square angle θ is the acute angle formed between the x-axis and the ray from the origin making an angle of θ with the positive x-axis ray. Recall that the xy-plane is traditionally divided into four quadrants, hence dividing the non-square angles in one rotation into four types.

MATH 1110 009-09-06 Quadrant angles θ included reference angle of θ I 0 < θ < θ II < θ < θ III < θ < θ IV < θ < θ For each acute angle θ, there are exactly four non-square angles between 0 and with reference angle θ: θ, θ, + θ, and θ. The key observation is that angles with the same reference angle have the same sine and cosine, up to sign. This is because the points on the unit circle corresponding to these angles have the same xy-coordinates, except that they may have the wrong sign. See Figure 1. The x-coordinates of points in Quadrants I and IV are positive, and those of points in Quadrants II and III are negative. Therefore cos θ is positive for θ in Quadrants I and IV, and negative for θ in Quadrants II and III. Similarly, sin θ is positive for θ in Quadrants I and II, and negative for θ in Quadrants III and IV. Since tan θ = sin θ/ cos θ, we know that tan θ is positive for θ in Quadrants I and III, and negative for θ in Quadrants II and IV. This data can be combined into the labeling shown in Figure. Here A stands for All, S for Sine, T for Tangent, and C for Cosine, and the letter in each quadrant tells you which of sin θ, cos θ, and tan θ are positive for θ in that quadrant. One way to remember this labeling is with the mnemonic All Students Take Calculus. (Other mnemonics for this rule include All Students Tremble and Cower, All Snow Tastes and Cold, All Stations To Central, A Smart Trig and Class, Add Sugar To and Coffee, and All Silver Tea and Cups.

MATH 1110 009-09-06 Figure 1: The four points on the unit circle with reference angle θ. Their coordinates are A = (cos(θ, sin(θ, B = (cos( θ, sin( θ, C = (cos( + θ, sin( + θ, and D = (cos( θ, sin( θ. Notice that these four triangles are congruent to each other. Figure : The four Quadrants can be labeled with All Students Take Calculus. These labels specify which of sine, cosine, and tangent are positive in that Quadrant.

MATH 1110 009-09-06 Example. Question. Evaluate sin 5 and tan 5. Answer. The angle 5 is in Quadrant IV, so its reference angle is 5 = 6 5 =. Sine is negative in Quadrant IV, and sin =, so sin 5 =. The angle 5 is in Quadrant III, where tangent is positive. Its reference angle is 5 = 5 =. Since tan = sin cos = 1/ 1/ = 1, we have tan 5 = 1. Larger angles the formulas method The second method for evaluating the sine and cosine of larger angles relies on the following useful trigonometric formulas. cos( θ = cos θ cos( θ = cos θ sin( θ = sin θ sin( θ = sin θ Each of these formulas can be derived from geometric properties of the graphs of sine and cosine, or else from those of their definition in terms of the unit circle. For instance, the formula sin( θ = θ expresses the fact that the y-coordinate of the point on the unit circle corresponding to the angle θ is the negative of the y-coordinate of the point corresponding to the angle θ. Since cos( θ = cos ( ( θ = cos(θ, the formula cos(θ = cos( θ = cos θ can be interpreted as saying that if you move the cosine curve to the right by, you get exactly an upside-down cosine curve. As in the first method, notice that any angle greater than or less than 0 can be made into an equivalent angle by adding or subtracting some number of times. At this point, we can use the formulas given above to reduce any given problem to that of evaluating sine or cosine at an acute angle. 5

MATH 1110 009-09-06 Example. Question. Evaluate sin 5 and tan 5. Answer. We compute and sin 5 ( ( 5 5 = sin = sin 6 For the second problem, notice that Therefore tan( θ = tan 5 = tan ( 5 sin( θ cos( θ = ( = sin = sin =. sin θ cos θ tan( θ = sin( θ cos( θ = sin θ cos θ ( = tan 5 = tan θ, = tan θ. ( = tan = tan = 1. (Of course, we could instead have calculated sin 5 and cos 5 individually, and taken their quotient. Notice that we obtained the same answers as we did using the other method in Example. 6

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