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2.3 Inverse Trigonometric Functions

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Presentation on theme: "2.3 Inverse Trigonometric Functions"— Presentation transcript:

1 2.3 Inverse Trigonometric Functions

2 Objectives Understand and use the inverse sine function.
Understand and use the inverse cosine function. Understand and use the inverse tangent function. Use a calculator to evaluate inverse trigonometric functions. Find exact values of composite functions with inverse trigonometric functions.

3 Inverse Functions Here are some helpful things to remember from our earlier discussion of inverse functions: If no horizontal line intersects the graph of a function more than once, the function is one-to-one and has an inverse function. If the point (a, b) is on the graph of f, then the point (b, a) is on the graph of the inverse function, denoted The graph of is a reflection of the graph of f about the line y = x.

4 The Inverse Sine Function (1 of 2)
The horizontal line test shows that the sine function is not one-to-one; y = sin x has an inverse function on the restricted domain

5 The Inverse Sine Function (2 of 2)

6 Graphing the Inverse Sine Function (1 of 2)
One way to graph is to take points on the x is to take points on the graph of the restricted sine function and reverse the order of the coordinates.

7 Graphing the Inverse Sine Function (2 of 2)
Another way to obtain the graph of is to reflect the graph of the restricted sine function about the line y = x.

8 Finding Exact Values of Sine Inverse of x

9 Example 1: Finding the Exact Value of an Inverse Sine Function (1 of 4)

10 Example 1: Finding the Exact Value of an Inverse Sine Function (2 of 4)
Step 3 Use the exact value in the table to find the value of that satisfies The angle in whose sine is is Therefore,

11 Example 1: Finding the Exact Value of an Inverse Sine Function (3 of 4)
Find the exact value of Solution: Step 1 Let Step 2 Rewrite as where

12 Example 1: Finding the Exact Value of an Inverse Sine Function (4 of 4)
Step 3 Use the exact value in the table to find the value of that satisfies The angle in whose sine is is

13 The Inverse Cosine Function (1 of 2)
The horizontal line test shows that the cosine function is not one-to-one. y = cos x has an inverse function on the restricted domain

14 The Inverse Cosine Function (2 of 2)
The inverse cosine function, denoted by Is the inverse of the restricted cosine function Thus means cos y = x Where and

15 Graphing the Inverse Cosine Function
One way to graph is to take points on the graph of the restricted cosine function and reverse the order of the coordinates.

16 Finding Exact Values of Cosine Inverse of x
Let Rewrite where Use the exact values in the table to find the value of θ in that satisfies

17 Example 2: Finding the Exact Value of an Inverse Cosine Function (1 of 2)
Find the exact value of Solution: Step 1 Let Step 2 Rewrite as where

18 Example 2: Finding the Exact Value of an Inverse Cosine Function (2 of 2)
Step 3 Use the exact value in the table to find the value of that satisfies The angle in whose cosine is is

19 The Inverse Tangent Function (1 of 2)
The horizontal line test shows that the tangent function is not one-to-one. y = tan x has an inverse function on the restricted domain

20 The Inverse Tangent Function (2 of 2)
The inverse Tangent function, denoted by is the inverse of the restricted Tangent function Thus means tan y = x Where and

21 Graphing the Inverse Tangent Function
One way to graph is to take points on the graph. of the restricted tangent function and reverse the order of the coordinates

22 Finding Exact Values of Tangent Inverse of x

23 Example 3: Finding the Exact Value of an Inverse Cosine Function (1 of 2)
Find the exact value of Solution: Step 1 Let Step 2 Rewrite as where

24 Example 3: Finding the Exact Value of an Inverse Cosine Function (2 of 2)
Step 3 Use the exact value in the table to find the value of that satisfies The angle in whose tangent is is

25 Graphs of the Three Basic Inverse Trigonometric Functions

26 Example 4: Calculators and Inverse Trigonometric Functions
Use a calculator to find the value to four decimal places of each function: a. b.

27 Inverse Properties The Sine Function and Its Inverse
for every x in the interval for every x in the interval The Cosine Function and Its Inverse for every x in the interval for every x in the interval The Tangent Function and Its Inverse for every real number x for every x in the interval

28 Example 5: Evaluating Compositions of Functions and Their Inverses
Find the exact value, if possible: a. b. c. −1.2 is not included in the domain of the inverse cosine function. is not defined

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