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5.5 – Day 1 Inverse Trigonometric Functions & their Graphs.

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Presentation on theme: "5.5 – Day 1 Inverse Trigonometric Functions & their Graphs."— Presentation transcript:

1 5.5 – Day 1 Inverse Trigonometric Functions & their Graphs

2 2 Objectives ► The Inverse Sine Function ► The Inverse Cosine Function ► The Inverse Tangent Function

3 3 Inverse Trigonometric Functions and their Graphs The inverse of a function f is a function f –1 that reverses the rule of f. For a function to have an inverse, it must be one-to-one. Since the trigonometric functions are not one-to-one, they do not have inverses. It is possible, however, to restrict the domains of the trigonometric functions in such a way that the resulting functions are one-to-one.

4 4 The Inverse Sine Function

5 5 Let's first consider the sine function. There are many ways to restrict the domain of sine so that the new function is one-to-one. A natural way to do this is to restrict the domain to the interval [–  /2,  /2]. The reason for this choice is that sine is one-to-one on this interval and moreover attains each of the values in its range on this interval.

6 6 The Inverse Sine Function From the graphs, we can see that sine is one-to-one on this restricted domain (by the Horizontal Line Test) and so has an inverse. y = sin x, y = sin x Graphs of the sine function and the restricted sine function

7 7 The Inverse Sine Function We can now define an inverse sine function on this restricted domain. The graph of y = sin –1 x is shown; it is obtained by reflecting the graph of y = sin x, –  /2  x   /2, in the line y = x. Graphs of y = sin –1 x

8 8 The Inverse Sine Function Thus, y = sin –1 x is the number in the interval [–  /2,  /2] whose sine is x. In other words, sin (sin –1 x) = x.

9 9 The Inverse Sine Function In fact, from the general properties of inverse functions, we have the following cancellation properties. When evaluating expressions involving sin –1, we need to remember that the range of sin –1 is the interval [–  /2,  /2].

10 10 Example 1 – Evaluating the Inverse Sine Function Find each value: (a) sin –1 (1/2) (b) sin –1 (-1/2) (c) sin -1 (3/2)

11 11 Example 3 – Evaluating Expressions with Inverse Sine Find each value: (a) sin –1 (b) sin –1

12 12 The Inverse Cosine Function

13 13 The Inverse Cosine Function If the domain of the cosine function is restricted to the interval [0,  ], the resulting function is one-to-one and so has an inverse. We choose this interval because on it, cosine attains each of its values exactly once. y = cos x, y = cos x Graphs of the cosine function and the restricted cosine function

14 14 The Inverse Cosine Function Thus, y = cos –1 x is the number in the interval [0,  ] whose cosine is x. The following cancellation properties follow from the inverse function properties.

15 15 The Inverse Cosine Function The graph of y = cos –1 x is shown below; it is obtained by reflecting the graph of y = cos x, 0  x  , in the line y = x. Graph of y = cos –1 x

16 16 Example 4 – Evaluating the Inverse Cosine Function Find each value: (a) cos –1 (b) cos –1 0(c) cos -1 (5/7)

17 17 Example 5 – Evaluating Expressions with Inverse Cosine Find each value: (a) cos –1 (b) cos –1

18 18 Inverse Trigonometric Functions and their Graphs Practice: p. 411-412 #1, 2, 3-6, 10, 11-15o, 21, 23, 27-35o

19 19 5.5 – Day 2 Inverse Trigonometric Functions & their Graphs

20 20 Objectives ► The Inverse Sine Function ► The Inverse Cosine Function ► The Inverse Tangent Function

21 21 The Inverse Tangent Function

22 22 The Inverse Tangent Function We restrict the domain of the tangent function to the interval (–  /2,  /2), in order to obtain a one-to-one function. Thus, y = tan –1 x is the number in the interval (–  /2,  /2) whose tangent is x.

23 23 The Inverse Tangent Function The following cancellation properties follow from the inverse function properties:

24 24 The Inverse Tangent Function These figures show the graph of y = tan x on the interval (–  /2,  /2) and the graph of its inverse function, y = tan –1 x. y = tan –1 x y = tan x, Graphs of the restricted tangent function and the inverse tangent function

25 25 Example 6 – Evaluating the Inverse Tangent Function Find each value: (a) tan –1 1 (b) tan –1 (c) tan –1 (20)

26 26 Example 7 – Evaluating Expressions with Inverse Tangent Find each value: (a) tan –1 (tan ) (b) tan –1 (tan )

27 27 Example 8 – Evaluating Inverse Functions Find each value: (a) cos(sin –1 0) (b) sin(tan –1 ( ))

28 28 Inverse Trigonometric Functions and their Graphs Practice: p. 411-412 #7-9, 17, 19, 25, 37-43o

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