november 14 math 1113 sec. 51 fall 2018facultyweb.kennesaw.edu/lritter/nov14_1113_51f18f.pdf ·...
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November 14 MATH 1113 sec. 51 Fall 2018
Section 7.4: Inverse Trigonometric Functions
Definition (The Inverse Sine Function): For x in the interval [−1,1]the inverse sine of x is denoted by either
sin−1(x) or arcsin(x)
and is defined by the relationship
y = sin−1(x) ⇐⇒ x = sin(y) where − π
2≤ y ≤ π
2.
The inverse sine function is also called the arcsine function.
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Conceptual Definition1
We can think of the inverse sine function in the following way:
sin−1(x) is the angle between −π2 and π
2 whose sine is x .
1We want to consider f (x) = sin−1 x as a real valued function of a real variablewithout necessary reference to angles, triangles, or circles. But the above is a veryuseful conceptual device for working with and evaluating this function.
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ExampleEvaluate each expression exactly.
(a) sin−1(
1√2
)
(b) sin−1
(−√
32
)
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Question
Recall that sin(x) = 1 for x = −3π2 ,
π2 ,
5π2 ,
9π2 , . . . ,
π2 + 2kπ, for integers
k . And the range of the inverse sine is [−π2 ,
π2 ]
The value of sin−1 1 is
(a)π
2
(b)π
2and
5π2
(c) 0
(d) 0 and π
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The Graph of the Arcsine
Figure: Note that the domain is −1 ≤ x ≤ 1 and the range is −π2 ≤ y ≤ π
2 .
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Function/Inverse Function Relationship
For every x in the interval [−1,1]
sin(
sin−1(x))= x
For every x in the interval[−π
2 ,π2
]sin−1 (sin(x)) = x
Remark 1: If x > 1 or x < −1, the expression sin−1(x) is not defined.
Remark 2: If x > π2 or x < −π
2 , the expression sin−1 (sin(x)) ISdefined, but IS NOT equal to x .
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ExampleEvaluate each expression if possible. If it is not defined, give a reason.
(a) sin−1[sin(π
8
)]
(b) sin−1[sin(
4π3
)]
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QuestionRecall that sin π
6 = 12 and sin 5π
6 = 12 . And the range of the arcsine
function is [−π2 ,
π2 ].
sin−1[sin
5π6
]=
(a)5π6
(b)π
6
(c) −π6
(d)12
(e) −12
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The Inverse Cosine Function
Figure: To define an inverse cosine function, we start by restricting thedomain of cos(x) to the interval [0, π]
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The Inverse Cosine Function (a.k.a. arccosinefunction)
Definition: For x in the interval [−1,1] the inverse cosine of x isdenoted by either
cos−1(x) or arccos(x)
and is defined by the relationship
y = cos−1(x) ⇐⇒ x = cos(y) where 0 ≤ y ≤ π.
The Domain of the Inverse Cosine is −1 ≤ x ≤ 1.
The Range of the Inverse Cosine is 0 ≤ y ≤ π.
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The Graph of the Arccosine
Figure: Note that the domain is −1 ≤ x ≤ 1 and the range is 0 ≤ y ≤ π.
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Function/Inverse Function Relationship
For every x in the interval [−1,1]
cos(
cos−1(x))= x
For every x in the interval [0, π]
cos−1 (cos(x)) = x
Remark 1: If x > 1 or x < −1, the expression cos−1(x) is not defined.
Remark 2: If x > π or x < 0, the expression cos−1 (cos(x)) IS defined,but IS NOT equal to x .
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Conceptual Definition
We can think of the inverse cosine function in the following way:
cos−1(x) is the angle between 0 and π whose cosine is x .
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ExamplesEvaluate each expression exactly.
(a) cos−1 (0)
(b) cos−1(−1
2
)
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QuestionRecall cos π
4 = 1√2.
The exact value of cos−1(− 1√
2
)=
(Remember the range is [0, π].)
(a)π
4
(b) −π4
(c)3π4
(d) −3π4
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Evaluate the expression exactly
cos−1[cos
(9π8
)]
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The Inverse Tangent Function
Figure: To define an inverse tangent function, we start by restricting thedomain of tan(x) to the interval
(−π
2 ,π2
). (Note the end points are NOT
included!)
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The Inverse Tangent Function (a.k.a. arctangentfunction)
Definition: For all real numbers x , the inverse tangent of x is denotedby
tan−1(x) or by arctan(x)
and is defined by the relationship
y = tan−1(x) ⇐⇒ x = tan(y) where − π
2< y <
π
2.
The Domain of the Inverse Tangent is −∞ < x <∞.
The Range of the Inverse Cosine is −π2 < y < π
2 (Note the strictinequalities.).
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The Graph of the Arctangent
Figure: The domain is all real numbers and the range is −π2 < y < π
2 . Thegraph has two horizontal asymptotes y = −π
2 and y = π2 .
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Function/Inverse Function Relationship
For all real numbers x
tan(
tan−1(x))= x
For every x in the interval(−π
2 ,π2
)tan−1 (tan(x)) = x
Remark 1:The expression tan−1(x) is always well defined.
Remark 2: If x > π2 or x < −π
2 , the expression tan−1 (tan(x)) MAY BEdefined, but IS NOT equal to x .
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Conceptual Definition
We can think of the inverse tangent function in the following way:
tan−1(x) is the angle between −π2 and π
2 whose tangent is x .
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Examples
Evaluate each expression exactly.
(a) tan−1 (−1)
(b) tan−1 (0)
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Combining FunctionsEvaluate each expression exactly if possible. If it is undefined, providea reason.
(a) tan[arcsin
(12
)]
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(b) sin[tan−1
(14
)]
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Algebraic ExpressionsWrite the expression purely algebraically (with no trigonometricfunctions).
tan[sin−1 (x)
]
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Recap: Inverse Sine, Cosine, and Tangent
Function Domain Rangesin−1(x) [−1,1]
[−π
2 ,π2
]cos−1(x) [−1,1] [0, π]
tan−1(x) (−∞,∞)(−π
2 ,π2
)
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Three Other Inverse Trigonometric Functions
There is disagreement about how to define the ranges of theinverse cotangent, cosecant, and secant functions!
The inverse Cotangent function is typically defined for all realnumbers x by
y = cot−1(x) ⇐⇒ x = cot(y) for 0 < y < π.
There is less consensus regarding the inverse secant and cosecantfunctions.
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A Work-Around
We can use the fact that sec θ = 1cos θ to find an expression for
sec−1(x). Suppose that
y = sec−1(x) and x = sec(y).
Then1x= cos(y) so that y = cos−1
(1x
).
That is
sec−1(x) = cos−1(
1x
).
Use your result to compute (an acceptable value for) sec−1(√
2)
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A Work-Around
We can use the following compromise to compute inverse cotangent,secant, and cosecant values2:
For those values of x for which each side of the equation is defined
cot−1(x) = tan−1(
1x
),
csc−1(x) = sin−1(
1x
),
sec−1(x) = cos−1(
1x
).
2Keep in mind that there is disagreement about the ranges!November 14, 2018 29 / 30
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Question
True/False: Since cot θ =1
tan θ, it must be that cot−1 x =
1tan−1 x
.
(a) True, and I’m confident.
(b) True, but I’m not confident.
(c) False, and I’m confident.
(d) False, but I’m not confident.
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