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MATHPOWER TM 12, WESTERN EDITION 5.5 5.5.1 Chapter 5 Trigonometric Equations.

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Presentation on theme: "MATHPOWER TM 12, WESTERN EDITION 5.5 5.5.1 Chapter 5 Trigonometric Equations."— Presentation transcript:

1 MATHPOWER TM 12, WESTERN EDITION 5.5 5.5.1 Chapter 5 Trigonometric Equations

2 5.5.2 Sum and Difference Identities sin(A + B) = sin A cos B + cos A sin B sin(A - B) = sin A cos B - cos A sin B cos(A + B) = cos A cos B - sin A sin B cos(A - B) = cos A cos B + sin A sin B

3 5.5.3 Simplifying Trigonometric Expressions Express cos 100 0 cos 80 0 + sin 80 0 sin 100 0 as a trig function of a single angle. This function has the same pattern as cos (A - B), with A = 100 0 and B = 80 0. cos 100 cos 80 + sin 80 sin 100 = cos(100 0 - 80 0 ) = cos 20 0 Express as a single trig function. This function has the same pattern as sin(A - B), with 1. 2.

4 5.5.4 Finding Exact Values 1. Find the exact value for sin 75 0. Think of the angle measures that produce exact values: 30 0, 45 0, and 60 0. Use the sum and difference identities. Which angles, used in combination of addition or subtraction, would give a result of 75 0 ? sin 75 0 = sin(30 0 + 45 0 ) = sin 30 0 cos 45 0 + cos 30 0 sin 45 0

5 5.5.5 Finding Exact Values 2. Find the exact value for cos 15 0. cos 15 0 = cos(45 0 - 30 0 ) = cos 45 0 cos 30 0 + sin 45 0 sin30 0 3. Find the exact value for

6 5.5.6 Using the Sum and Difference Identities Prove L.S. = R.S.

7 5.5.7 Using the Sum and Difference Identities x = 3 r = 5 r 2 = x 2 + y 2 y 2 = r 2 - x 2 = 5 2 - 3 2 = 16 y = ± 4

8 5.5.8 Using the Sum and Difference Identities xyrxyr A B 2 3 4 5 3

9 5.5.9 Double-Angle Identities sin 2A = sin (A + A) = sin A cos A + cos A sin A = 2 sin A cos A cos 2A = cos (A + A) = cos A cos A - sin A sin A = cos 2 A - sin 2 A The identities for the sine and cosine of the sum of two numbers can be used, when the two numbers A and B are equal, to develop the identities for sin 2A and cos 2A. Identities for sin 2x and cos 2x: sin 2x = 2sin x cos xcos 2x = cos 2 x - sin 2 x cos 2x = 2cos 2 x - 1 cos 2x = 1 - 2sin 2 x

10 5.5.10 Double-Angle Identities Express each in terms of a single trig function. a) 2 sin 0.45 cos 0.45 sin 2x = 2sin x cos x sin 2(0.45) = 2sin 0.45 cos 0.45 sin 0.9 = 2sin 0.45 cos 0.45 b) cos 2 5 - sin 2 5 cos 2x = cos 2 x - sin 2 x cos 2(5) = cos 2 5 - sin 2 5 cos 10 = cos 2 5 - sin 2 5 Find the value of cos 2x for x = 0.69. cos 2x = cos 2 x - sin 2 x cos 2(0.69) = cos 2 0.69 - sin 2 0.69 cos 2x = 0.1896

11 5.5.11 Double-Angle Identities Verify the identity L.S = R.S.

12 5.5.12 Double-Angle Identities Verify the identity L.S = R.S.

13 Prove Identities L.S. = R.S. 5.5.16

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