1 1.6: inverse functions. find the inverse of the function and algebraically verify they are...
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3 Copyright © Cengage Learning. All rights reserved. Review for Test : Review all notes, worksheet, assigned homework, and quiz. Supplemental review below: p.86 (all) p.68 (57, 58) p.82 – 85 (27, 45, 47, 49, odd, odd, odd, odd, odd, 147)TRANSCRIPT
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1.6: Inverse functions.
12)( 3 xxf
Find the inverse of the function and algebraically verify they are inverses.
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Copyright © Cengage Learning. All rights reserved.
Pre-Calculus Honors1.6: Inverse Functions
HW: p.67 (12, 15-18 all, 22, 28, 34, 94-100 even)Tomorrow: p.68 (36, 39-44 all, 50, 60-70 even, 115)
Test 1.1-1.7: Thursday
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3Copyright © Cengage Learning. All rights reserved.
Review for Test 1.1-1.7: Review all notes, worksheet, assigned homework, and quiz.
Supplemental review below:p.86 (all)
p.68 (57, 58)p.82 – 85 (27, 45, 47, 49, 55-69 odd,
79-85 odd, 93-103 odd, 107-115 odd, 127-141 odd, 147)
![Page 4: 1 1.6: Inverse functions. Find the inverse of the function and algebraically verify they are inverses](https://reader036.vdocuments.us/reader036/viewer/2022082602/5a4d1b927f8b9ab0599c2097/html5/thumbnails/4.jpg)
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25)(
x
xfWhich of the functions is the inverse of ?
or
Verify algebraically.52)(
xxg 25)(
xxh
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The Graph of an Inverse Function
The graphs of a function and its inverse function f –1 are related to each other in the following way. If the point (a, b)lies on the graph of then the point (b, a) must lie on the graph of f –1 and vice versa.
This means that the graph off –1 is a reflection of the graph of f in the line y = x as shown in Figure 1.57.
Figure 1.57
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Sketch the graph of f-1.
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Example 5 – Verifying Inverse Functions Graphically
Verify that the functions f and g are inverse functions of each other graphically and numerically.
Solution:From Figure 1.58, you can conclude that f and g are inverse functions of eachother.
Figure 1.58
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The Existence of an Inverse Function
To have an inverse function, a function must be one-to-one, which means that no two elements in the domain of f correspond to the same element in the range of f.
(Note: In order for a relation to be a function every element in the domain corresponds to one unique element in the range. Every input corresponds to one output.)
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One-to-One
From figure 1.61, it is easy to tell whether a function of x is one-to-one. Simply check to see that every horizontal line intersects the graph of the function at most once. This is called the Horizontal Line Test.
f (x) = x2 is not one-to-one.Figure 1.61
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Determine algebraically whether the function is 1-to-1.
If f(a) = f(b) implies a = b, then the function is one-to-one and it does have an inverse function.
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Determine algebraically whether the function has an inverse.
1.) 2.)
3.) 4.)
4)( xxf 543)(
xxf
32)( xxf 2;2)( xxxf