Chapter 5: Double-Angle and Half-Angle Identities
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1 Haberman MTH Section II: Trigonometric Identities Chapter 5: Double-Angle and Half-Angle Identities In this chapter we will find identities that will allow us to calculate sin( ) and cos( ) if we know the values of cos( ) and sin( ) (we call these double-angle identities ) and we will find identities that will allow us to calculate and sin( ) (we call these half-angle identities ). sin and cos if we know the values of cos( ) Let s start by finding the double-angle identities. [Take note of how we will derive these identities differently than in our textbook. Our textbook uses the sum and difference identities but we'll use the laws of sine and cosine.] First we'll find an identity for sin( ) : Recall that the definition of the cosine and sine functions tell us that cos( ) and sin( ) represent the horizontal and vertical coordinates, respectively, of the point specified by the angle on the unit circle; see Figure. P cos( ), sin( ) Figure : The unit circle with a point P specified by the angle. We can construct a right triangle using the terminal side of angle. This triangle has hypotenuse of length unit and sides of length cos( ) and sin( ) ; see Figure. cos( ) P sin( ) Figure : Right triangle with angle.

2 Although we will continue to focus on angle, let s label the angle whose vertex is point P ; we ll call it ; see Figure. cos( ) P sin( ) Notice that Figure cos( ) sin( ) cos( ). We ll use this fact later. Now let s construct the mirror-image of this triangle below the x-axis in Quadrant IV; see Figure 4. P sin( ) sin( ) Figure 4 These two right triangles together form a larger non-right triangle that has an angle of measure ; we ve emphasized this triangle in Figure 5 by hiding the unit circle and the coordinate plane. (Note that the side opposite is of length sin( ) since it consists of two segments each of length sin( ).)

3 sin( ) Figure 5 We can use this triangle to find the double-angle identities for cosine and sine. First, let s apply the Law of Sines to the triangle in Figure 5 to obtain the double-angle identity for sine. The Law of Sines tells us that substitute cos( ) for sin( ) : sin( ) sin( ) ; since sin( ) cos( ) sin( ) (from above), we can sin( ) sin( ) sin( ) sin( ) cos( ) sin( ) sin( ) sin( )cos( ). This last equation is the double-angle identity for sine. Notice that we can use this identity to obtain the value of sin( ) if we know the values of cos( ) and sin( ). Now let s find the double-angle identity for cosine. We can use the same triangle we constructed above (we ve copied this triangle below in Figure 6), but apply the Law of Cosines instead of the Law of Sines. sin( ) cos( ) 4sin ( ) cos( ) 4sin ( ) cos( ) cos( ) 4sin ( ) cos( ) sin ( ) Figure 6 sin( )

4 4 The last equation (above) is the double-angle identity for cosine. Notice that we can use this identity to obtain the value of cos( ) if we know the value of sin( ). We can use the Pythagorean identity to obtain two other forms of the double-angle identity for cosine. Recall that the Pythagorean identity tells us that sin ( ) cos ( ) sin ( ) cos ( ), and we can now substitute another form of the identity: cos ( ) for sin ( ) in the double-angle identity to obtain cos( ) sin ( ) cos( ) cos ( ) cos( ) cos ( ) cos( ) cos ( ). This last equation is another double-angle identity for cosine. We can obtain a third doubleangle identity for cosine by substituting sin ( ) cos ( ) for : cos( ) cos ( ) cos( ) cos ( ) sin ( ) cos ( ) cos( ) cos ( ) sin ( ) cos ( ) cos( ) cos ( ) sin ( ). Below, we ve summarized the double-angle identities for sine and cosine: DOUBLE-ANGLE IDENTITIES sine : sin( ) sin( )cos( ) cosine : cos( ) sin ( ) cos( ) cos ( ) cos( ) cos ( ) sin ( )

5 5 We could easily find double-angle identities for tangent by using the fact that sin( ) tan( ). But the resulting identities aren t easy to remember so it makes more cos( ) sin( ) sense to learn the identities for sine and cosine and use the fact that tan( ) if you cos( ) ever need to calculate tan( ). EXAMPLE : Suppose that sin( ) and that is in Quadrant II. Find sin( ), cos( ), and tan( ). SOLUTION: First, let s find cos( ) since we need this value to use the double-angle identity for sine. To find cos( ), let s use the Pythagorean identity: sin ( ) cos ( ) cos ( ) cos ( ) cos ( ) cos ( ) 8 cos( ). Note that we take the negative square root of 8 must be negative. since is in Quadrant II so that cos( ) Now we can use the double-angle identities to find sin( ) and cos( ). Let s start with sin( ) : sin( ) sin( )cos( ) 4.

6 6 To find cos( ), we can use any one of the three double-angle identities for cosine. Let s use cos( ) sin ( ) : cos( ) sin ( ) 7. You should verify that the other double-angle identities for cosine give the same value for cos( ). To find tan( ), we can use the fact that tan( ) sin( ) tan( ) : cos( ) sin( ) cos( )

7 7 Half-Angle Identities We can use the double-angle identities for cosine to derive half-angle identities. Recall that cos( ) sin ( ) we can use this identity to find a half-angle identity for sine. Let. Then and cos( ) sin ( ) cos( ) sin sin cos( ) sin sin cos( ) cos( ) (we choose the sign based on the quadrant of ) We can use cos( ) cos ( ) that. Then and to find a half-angle identity for cosine. Again, suppose cos( ) cos ( ) cos( ) cos cos( ) cos cos( ) cos cos cos( ) (we choose the sign based on the quadrant of ) Since these identities are valid for any value of, we can express the identities in terms of since that's how we've been expressing our identities. sine : sin HALF-ANGLE IDENTITIES cos( ) (we choose the sign based on the quadrant of ) cosine : cos cos( ) (we choose the sign based on the quadrant of )

8 8 EXAMPLE : Recall from Example that SOLUTION: cos, sin, and tan. sin( ) and that is in Quadrant II. Find First, note that since is in Quadrant II,. Thus, / 4 Thus, is in Quadrant I so it's sine and cosine values are positive. In Example we used the Pythagorean identity to determine that use this value and the half-angle identities to find cos and cos( ) ; we can sin : cos( ) sin (we choose since is in Quadrant I) 6 Similarly, cos( ) cos (we choose since is in Quadrant I) 6 Now we can find tan using the fact that tan sin : cos

9 tan sin cos 6 6 Note that it's easy to derive a half-angle identity for tangent but, as we discussed when we studied the double-angle identities, we can always use sine and cosine values to find tangent values so there's no reason to waste energy on additional identities for tangent.

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