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5
Trigonometric
Identities
Copyright © 2013, 2009, 2005 Pearson Education, Inc.
1
5 Trigonometric Identities
5.1 Fundamental Identities
5.2 Verifying Trigonometric Identities
5.3 Sum and Difference Identities for Cosine
5.4 Sum and Difference Identities for Sine
and Tangent
5.5 Double-Angle Identities
5.6 Half-Angle Identities
Copyright © 2013, 2009, 2005 Pearson Education, Inc.
2
5.5 Double-Angle Identities
Double-Angle Identities ▪ An Application ▪ Product-to-Sum and
Sum-to-Product Identities
Copyright © 2013, 2009, 2005 Pearson Education, Inc.
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Double-Angle Identities
We can use the cosine sum identity to derive
double-angle identities for cosine.
Cosine sum identity
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4
Double-Angle Identities
There are two alternate forms of this identity.
Copyright © 2013, 2009, 2005 Pearson Education, Inc.
5
Double-Angle Identities
We can use the sine sum identity to derive a
double-angle identity for sine.
Sine sum identity
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Double-Angle Identities
We can use the tangent sum identity to derive a
double-angle identity for tangent.
Tangent sum identity
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7
Double-Angle Identities
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Example 1
FINDING FUNCTION VALUES OF 2θ
GIVEN INFORMATION ABOUT θ
Given
and sin θ < 0, find sin 2θ, cos 2θ, and tan
2θ.
To find sin 2θ, we must first find the value of sin θ.
2
4
16
 3
2
 sin   
sin      1  sin  
 5
5
25
2
Now use the double-angle identity for sine.
24
 4  3
sin2  2sin  cos   2       
 5  5
25
Now find cos2θ, using the first double-angle identity for
cosine (any of the three forms may be used).
9 16
7
2
2
cos 2  cos   sin  


25 25
25
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Example 1
FINDING FUNCTION VALUES OF 2θ
GIVEN INFORMATION ABOUT θ (cont.)
Now find tan θ and then use the tangent doubleangle identity.
Copyright © 2013, 2009, 2005 Pearson Education, Inc.
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Example 1
FINDING FUNCTION VALUES OF 2θ
GIVEN INFORMATION ABOUT θ (cont.)
Alternatively, find tan 2θ by finding the quotient of
sin 2θ and cos 2θ.
24
sin2  25 24
tan2 


cos 2  7
7
25
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Example 2
FINDING FUNCTION VALUES OF θ
GIVEN INFORMATION ABOUT 2θ
Find the values of the six trigonometric functions of θ if
We must obtain a trigonometric function value of θ
alone.
θ is in quadrant II, so sin θ is positive.
Copyright © 2013, 2009, 2005 Pearson Education, Inc.
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Example 2
FINDING FUNCTION VALUES OF θ
GIVEN INFORMATION ABOUT 2θ (cont.)
Use a right triangle in quadrant II to find the values of
cos θ and tan θ.
Use the Pythagorean
theorem to find x.
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Example 3
Verify that
VERIFYING A DOUBLE-ANGLE IDENTITY
is an identity.
Quotient identity
Double-angle
identity
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Example 4
SIMPLIFYING EXPRESSIONS USING
DOUBLE-ANGLE IDENTITIES
Simplify each expression.
cos2A = cos2A – sin2A
Multiply by 1.
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Example 5
DERIVING A MULTIPLE-ANGLE
IDENTITY
Write sin 3x in terms of sin x.
Sine sum identity
Double-angle identities
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Example 6
DETERMINING WATTAGE
CONSUMPTION
If a toaster is plugged into a common household
outlet, the wattage consumed is not constant.
Instead, it varies at a high frequency according to the
model
V2
W 
,
R
where V is the voltage and R is a constant that
measures the resistance of the toaster in ohms.*
Graph the wattage W consumed by a typical toaster
with R = 15 and
in the window
[0, 0.05] by [–500, 2000]. How many oscillations are
there?
*(Source: Bell, D., Fundamentals of Electric Circuits, Fourth Edition, Prentice-Hall.)
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Example 6
DETERMINING WATTAGE
CONSUMPTION (continued)
Substituting the given
values into the wattage
equation gives
V 2 (163 sin120 t )2
W 

.
R
15
The graph shows that there are six oscillations.
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Product-to-Sum Identities
We can add the identities for cos(A + B) and
cos(A – B) to derive a product-to-sum identity for
cosines.
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Product-to-Sum Identities
Similarly, subtracting cos(A + B) from cos(A – B)
gives a product-to-sum identity for sines.
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Product-to-Sum Identities
Using the identities for sin(A + B) and sin(A – B) in
the same way, we obtain two more identities.
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Product-to-Sum Identities
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Example 7
USING A PRODUCT-TO-SUM IDENTITY
Write 4 cos 75° sin 25° as the sum or difference of
two functions.
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Sum-to-Product Identities
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Example 8
Write
USING A SUM-TO-PRODUCT IDENTITY
as a product of two functions.
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