section 5.4 - inverse trigonometry recall – facts about ...almus/1330_section5o4.pdfsection 5.4 -...
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Section 5.4 - Inverse Trigonometry In this section, we will define inverse since, cosine and tangent functions. RECALL – Facts about inverse functions: A function ( )f x is one-to-one if no two different inputs produce the same output (or: passes the horizontal line test) Example: 2( )f x x is NOT one-to-one. 3( )g x x is one-to-one. A function ( )f x is invertible if it is one-to-one. The inverse function is notated as: 1( )f x . :f A B
1 :f B A
Domain: A
Domain: B
Range: B
Range: A
Important: ( )f a b if and only if 1( )f b a .
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INVERSE SINE FUNCTION Here’s the graph of ( ) sin( )f x x . Domain: ,
Range: 1,1
Is it one to one? If the function is not one-to-one, we run into problems when we consider the inverse of the function. What we want to do with the sine function is to restrict the values for sine. When we make a careful restriction, we can get something that IS one-to-one.
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If we limit the function to the interval ,2 2
, the graph will look like this:
Restricted Sine function
Domain: ,2 2
Range: 1,1
On this limited interval, we have a one-to-one function.
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INVERSE SINE FUNCTION Here’s the graph of restricted sine function: Restricted Sine function Inverse Sine Function:
( ) sin( )f x x
1sin ( )x or arcsin( )x
Domain: ,2 2
Domain: 1,1
Range: 1,1
Range: ,2 2
(quadrants 1 and 4)
Example: 11 1sin sin
6 2 2 6
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Example: 1 1sin ?
2
Question: What is the angle in ,2 2
whose sine is 1/2?
Example: 1sin 1 ?
Question: What is the angle in ,2 2
whose sine is 1?
Example: 1 3sin ?
2
Question: What is the angle in ,2 2
whose sine is
3
2?
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Important: When we covered the unit circle, we saw that there were two angles that had the same value for most of our angles. With inverse trig functions, this will not happen since we start with restricted functions that are one-to-one. We’ll have one quadrant in which the values are positive and one quadrant where the values are negative. The restricted graphs we looked at can help us know where these values lie. We’ll only state the values that lie in these intervals (same as the intervals for our graphs):
Example: 1
sin6 2
and 5 1
sin6 2
;
However, 1 1sin
2 6
(unique answer!) since 5
6
is Not in the range of
inverse since function.
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INVERSE COSINE FUNCTION Let’s do the same thing with ( ) cos( )f x x . Here’s the graph of ( ) cos( )f x x . Domain: ,
Range: 1,1
It’s not one-to-one. If we limit the function to the interval 0, , however, the
function IS one-to-one.
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Here’s the graph of the restricted cosine function. Restricted Cosine function Domain: 0,
Range: 1,1
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INVERSE COSINE FUNCTION Now, let’s work on defining the inverse of cosine function. Here’s the graph of restricted cosine function: Restricted Cosine function Inverse Cosine Function:
( ) cos( )f x x
1cos ( )x or arccos( )x
Domain: 0,
Domain: 1,1
Range: 1,1
Range: 0, (quadrants 1 and 2)
Example: 11 1cos cos
3 2 2 3
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Example: 1 1cos ?
2
Question: What is the angle in 0, whose cosine is 1
2?
Example: 1 2cos ?
2
Question: What is the angle in 0, whose cosine is 2
2?
Example: 1cos 1 ?
Question: What is the angle in 0, whose cosine is 1?
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POPPER for Section 5.4: Question#1: What is the RANGE of 1( ) cos ( )g x x ?
A) ,2 2
B) ,2 2
C) 0,
D) 0,
E) 1,1
F) None of these
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INVERSE TANGENT FUNCTION Here’s the graph of ( ) tan( )f x x . Is it one-to-one?
If we restrict the function to the interval ,2 2
, then the restricted function IS
one-to-one.
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Restricted Tangent function
Domain: ,2 2
Range: ,
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Inverse Tangent Function Here’s the graph of restricted tangent function:
Restricted Tangent function Inverse Tangent Function:
( ) sin( )f x x
1tan ( )x or arctan( )x
Domain: ,2 2
Domain: ,
Range: ,
Range: ,2 2
(quadrants 1 and 4)
Example: 1tan 1 tan 14 4
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Example: 1tan 1 ?
Question: What is the angle in ,2 2
whose tangent is 1?
Example: 1tan 0 ?
Question: What is the angle in ,2 2
whose tangent is 0?
Example: 1tan 1 ?
Question: What is the angle in ,2 2
whose tangent is -1?
Note: We always give inverse trig angles in radians.
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Example 1: Compute each of the following: a) 1cos (0)
b) 1tan 3
c) 1 1sin
2
d) 1 2sin
2
e) 2
arccos2
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Example 2: Compute
1arcsin arccos 0 arctan 1
2
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POPPER for Section 5.4 Question#2: Find the following sum:
2arcsin arccos 0
2
a) 4
b) 3
4
c) 5
4
d) 3
4
e) 0 f) None of these
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Note: If you need to compute inverse secant or inverse cosecant functions: Question: 1sec (2) ? First, call it an angle: 1sec (2) Then, convert: sec( ) 2
Now, express this in terms of cosine: 1
cos( )2
And answer according to “inverse cosine function”: 3
Final answer: 1sec (2)3
Question: 1csc (1) ? First, call it an angle: 1csc (1) Then, convert: csc( ) 1 Now, express this in terms of sine: sin( ) 1
And answer according to “inverse sine function”: 2
Final answer: 1csc (1)2
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NOTE: Domains of inverse trig functions:
)(sin)( 1 xxf ; [-1,1]
)(cos)( 1 xxf ; [-1,1]
)(tan)( 1 xxf ; ),(
)(cot)( 1 xxf ; ),(
)(sec)( 1 xxf ; ),1[]1,(
)(csc)( 1 xxf ; ),1[]1,( For example; )2(sin 1 or 2cos 1 are not defined.
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Composition of a trig function with its inverse:
Example 3: Find the exact value: 1 7sin sin .
6
Example 4: Find the exact value: 1 4cos cos .
3
Example 5: Find the exact value: 1 3tan tan .
4
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Note: If a trigonometric function and its inverse are composed, then we have a shortcut. However, we need to be careful about giving an answer that is in the range of the inverse trig function.
Examples:
88sinsin 1
but
8
7
8
7sinsin 1
88coscos 1
but
8
9
8
9coscos 1
88tantan 1
but
8
7
8
7tantan 1
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If the inverse trig function is the inner function, then our job is easier:
Examples:
5
1
5
1sinsin 1
7
2
7
2coscos 1
5]5tan[tan 1 .
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POPPER for Section 5.4
Question#3: Evaluate: 1 4sin sin
5
a) 3
5
b) 2
5
c) 4
5
d) 4
5
e) UNDEFINED f) None of these
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Let’s work with composition of different trig and inverse trig functions:
Example 6: Find the exact value: .13
5sincos 1
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Example 7: Find the exact value: 1 2tan cot
5
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Example 8: Find the exact value: 1 4tan cos .
5
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Example 9: Find the exact value: 1
sin arccos4
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Example 10: Find the exact value: 2sectan 1
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Example 11: Find the exact value: 4cossin 1
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Example 12: Let arctan4
xy
where 0x . Express cos y in terms of x .
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POPPER for Section 5.4
Question#4: Evaluate: 1 3tan sin
5
a) 3
5
b) 3
4
c) 4
5
d) 4
3
e) UNDEFINED f) None of these
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Graphs of Inverse Trigonometric Functions We note the inverse sine function as ).arcsin()(or )(sin)( 1 xxfxxf Domain: [-1, 1]
Range:
2,
2
.
Key points: 1, , 0,0 , 1,2 2
Here is the graph of )(sin)( 1 xxf :
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Inverse Cosine Function We note the inverse cosine function as ).arccos()(or )(cos)( 1 xxfxxf Domain: 1,1
Range: 0,
Key points: ( 1, ), 0, , 1,02
Here is the graph of )(cos)( 1 xxf :
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Inverse Tangent Function: We note the function as ).arctan()(or)(tan)( 1 xxfxxf Domain: ,
Range: ,2 2
Key points: 1, ,(0,0), 1,4 4
Here is the graph of the inverse tangent function:
Important:
Inverse tangent function has two horizontal asymptotes: 2
y
and 2
y
.
You can use graphing techniques learned in earlier lessons to graph transformations of the basic inverse trig functions.
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Example 1: Which of the following points is on the graph of )1arctan()( xxf ?
A)
0,4
B)
4,0
C)
4,0
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Example 2: Which of the following can be the function whose graph is given below? A) )1(cos)( 1 xxf
B) )1(sin)( 1 xxf
C) )1(cos)( 1 xxf
D) )1(sin)( 1 xxf
E) )1(tan)( 1 xxf
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Example 3: Which of the following can be the function whose graph is given below?
A) )2(cos)( 1 xxf
B) )2(sin)( 1 xxf
C) )2(cos)( 1 xxf
D) )2(sin)( 1 xxf
E) )2(tan)( 1 xxf
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POPPER for Section 5.4 Question#5: Which of the following points is ON the graph of
( ) arcsin( 2)f x x ?
A) 1,4
B) 1,0
C) 2,
D) 2,0
E) 1,
F) None of these