8.3 Inverse trigonometric functions (Page 2/15)

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On these restricted domains, we can define the inverse trigonometric functions .

The inverse sine function $y = \sin^{- 1} x$ means $x = \sin y .$ The inverse sine function is sometimes called the arcsine function, and notated $\arcsin x .$
$y = \sin^{- 1} x has domain [−1, 1] and range [- \frac{π}{2}, \frac{π}{2}]$
The inverse cosine function $y = \cos^{- 1} x$ means $x = \cos y .$ The inverse cosine function is sometimes called the arccosine function, and notated $\arccos x .$
$y = \cos^{- 1} x has domain [−1, 1] and range [0, π]$
The inverse tangent function $y = \tan^{- 1} x$ means $x = \tan y .$ The inverse tangent function is sometimes called the arctangent function, and notated $\arctan x .$
$y = \tan^{- 1} x has domain (−∞, \infty) and range (- \frac{π}{2}, \frac{π}{2})$

The graphs of the inverse functions are shown in [link] , [link] , and [link] . Notice that the output of each of these inverse functions is a number, an angle in radian measure. We see that $\sin^{- 1} x$ has domain $[−1, 1]$ and range $[- \frac{π}{2}, \frac{π}{2}],$ $\cos^{- 1} x$ has domain $[−1,1]$ and range $[0, π],$ and $\tan^{- 1} x$ has domain of all real numbers and range $(- \frac{π}{2}, \frac{π}{2}) .$ To find the domain and range of inverse trigonometric functions, switch the domain and range of the original functions. Each graph of the inverse trigonometric function is a reflection of the graph of the original function about the line $y = x .$

A graph of the functions of sine of x and arc sine of x. There is a dotted line y=x between the two graphs, to show inverse nature of the two functions — The sine function and inverse sine (or arcsine) function

A graph of the functions of cosine of x and arc cosine of x. There is a dotted line at y=x to show the inverse nature of the two functions. — The cosine function and inverse cosine (or arccosine) function

A graph of the functions of tangent of x and arc tangent of x. There is a dotted line at y=x to show the inverse nature of the two functions. — The tangent function and inverse tangent (or arctangent) function

Relations for inverse sine, cosine, and tangent functions

For angles in the interval $[- \frac{π}{2}, \frac{π}{2}],$ if $\sin y = x,$ then $\sin^{- 1} x = y .$

For angles in the interval $[0, π],$ if $\cos y = x,$ then $\cos^{- 1} x = y .$

For angles in the interval $(- \frac{π}{2}, \frac{π}{2}),$ if $\tan y = x,$ then $\tan^{- 1} x = y .$

Writing a relation for an inverse function

Given $\sin (\frac{5 π}{12}) \approx 0.96593,$ write a relation involving the inverse sine.

Use the relation for the inverse sine. If $\sin y = x,$ then $\sin^{- 1} x = y$ .

In this problem, $x = 0.96593,$ and $y = \frac{5 π}{12} .$

\sin^{- 1} (0.96593) \approx \frac{5 π}{12}

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Given $\cos (0.5) \approx 0.8776,$ write a relation involving the inverse cosine.

$\arccos (0.8776) \approx 0.5$

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Finding the exact value of expressions involving the inverse sine, cosine, and tangent functions

Now that we can identify inverse functions, we will learn to evaluate them. For most values in their domains, we must evaluate the inverse trigonometric functions by using a calculator, interpolating from a table, or using some other numerical technique. Just as we did with the original trigonometric functions, we can give exact values for the inverse functions when we are using the special angles, specifically $\frac{π}{6}$ (30°), $\frac{π}{4}$ (45°), and $\frac{π}{3}$ (60°), and their reflections into other quadrants.

How To

Given a “special” input value, evaluate an inverse trigonometric function.

Find angle $x$ for which the original trigonometric function has an output equal to the given input for the inverse trigonometric function.
If $x$ is not in the defined range of the inverse, find another angle $y$ that is in the defined range and has the same sine, cosine, or tangent as $x,$ depending on which corresponds to the given inverse function.

Evaluating inverse trigonometric functions for special input values

Evaluate each of the following.

${sin}^{- 1} (\frac{1}{2})$
${sin}^{- 1} (- \frac{\sqrt{2}}{2})$
$\cos^{- 1} (- \frac{\sqrt{3}}{2})$
$\tan^{- 1} (1)$

Evaluating $\sin^{- 1} (\frac{1}{2})$ is the same as determining the angle that would have a sine value of $\frac{1}{2} .$ In other words, what angle $x$ would satisfy $\sin (x) = \frac{1}{2} ?$ There are multiple values that would satisfy this relationship, such as $\frac{π}{6}$ and $\frac{5 π}{6},$ but we know we need the angle in the interval $[- \frac{π}{2}, \frac{π}{2}],$ so the answer will be $\sin^{- 1} (\frac{1}{2}) = \frac{π}{6} .$ Remember that the inverse is a function, so for each input, we will get exactly one output.
To evaluate $\sin^{- 1} (- \frac{\sqrt{2}}{2}),$ we know that $\frac{5 π}{4}$ and $\frac{7 π}{4}$ both have a sine value of $- \frac{\sqrt{2}}{2},$ but neither is in the interval $[- \frac{π}{2}, \frac{π}{2}] .$ For that, we need the negative angle coterminal with $\frac{7 π}{4} :$ ${sin}^{- 1} (- \frac{\sqrt{2}}{2}) = - \frac{π}{4} .$
To evaluate $\cos^{- 1} (- \frac{\sqrt{3}}{2}),$ we are looking for an angle in the interval $[0, π]$ with a cosine value of $- \frac{\sqrt{3}}{2} .$ The angle that satisfies this is $\cos^{- 1} (- \frac{\sqrt{3}}{2}) = \frac{5 π}{6} .$
Evaluating $\tan^{- 1} (1),$ we are looking for an angle in the interval $(- \frac{π}{2}, \frac{π}{2})$ with a tangent value of 1. The correct angle is $\tan^{- 1} (1) = \frac{π}{4} .$

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Source: OpenStax, Algebra and trigonometry. OpenStax CNX. Nov 14, 2016 Download for free at https://legacy.cnx.org/content/col11758/1.6

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