Inverse Functions, one to one and inverse functions
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Jul 18, 2024
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About This Presentation
inverse functions ppt
Slide Content
One-to-one and Inverse
Functions
Functions
Review:
A is any set of ordered pairs.
A function does not have any y values
repeated.
A is a set of ordered pairs where
x is not repeated.
Only functions can have
functions.
A is any set of ordered pairs.
A function does not have any y values
repeated.
A is a set of ordered pairs where
x is not repeated.
Only functions can have
functions.
What is an Inverse?
Examples:
f(x) = x –3 f
-1
(x) = x + 3
g(x) = , x ≥ 0 g
-1
(x) = x
2
, x ≥ 0
h(x) = 2x h
-1
(x) = ½ x
k(x) = -x + 3 k
-1
(x)= -(x –3) x
An inverse relation is a relation that performs the
opposite operation on x (the domain).
Examples:
f(x) = x –3 f
-1
(x) = x + 3
g(x) = , x ≥ 0 g
-1
(x) = x
2
, x ≥ 0
h(x) = 2x h
-1
(x) = ½ x
k(x) = -x + 3 k
-1
(x)= -(x –3) x
An inverse relation is a relation that performs the
opposite operation on x (the domain).
Illustration of the Definition of
Inverse Functions
Inverse Functions
The ordered pairs of the function fare reversedto
produce the ordered pairs of the inverse relation.
Example: Given the function
f ={(1, 1), (2, 3), (3, 1), (4, 2)}, its domain is {1, 2, 3, 4}
and its range is {1, 2, 3}.
The inverse of f is{(1, 1), (3, 2), (1, 3), (2, 4)}.
The domainof the inverse relation is the rangeof the
original function.
Therangeof the inverse relation is thedomainof the
original function.
produce the ordered pairs of the inverse relation.
Example: Given the function
f ={(1, 1), (2, 3), (3, 1), (4, 2)}, its domain is {1, 2, 3, 4}
and its range is {1, 2, 3}.
The inverse of f is{(1, 1), (3, 2), (1, 3), (2, 4)}.
The domainof the inverse relation is the rangeof the
original function.
Therangeof the inverse relation is thedomainof the
original function.
How do we know if an inverse
function exists?
•Inverse functions only exist if the original function
is one to one. Otherwise it is an inverse relation
and cannot be written as f
-1
(x).
•What does it mean to be one to one?
That there are no repeated y values.
function exists?
•Inverse functions only exist if the original function
is one to one. Otherwise it is an inverse relation
and cannot be written as f
-1
(x).
•What does it mean to be one to one?
That there are no repeated y values.
x
y
2
2
Horizontal Line Test
Used to test if a function is one-to one
If the line intersection more than once then it is not one to
one.
Therefore there is not inverse function.
y = 7
Example: The function
y = x
2
–4x + 7is not one-to-one
because a horizontal line can
intersect the graph twice.
Examples points: (0, 7)& (4, 7).
(0, 7) (4, 7)
y
2
2
Horizontal Line Test
Used to test if a function is one-to one
If the line intersection more than once then it is not one to
one.
Therefore there is not inverse function.
y = 7
Example: The function
y = x
2
–4x + 7is not one-to-one
because a horizontal line can
intersect the graph twice.
Examples points: (0, 7)& (4, 7).
(0, 7) (4, 7)
one-to-one
The Inverse is a Function
Example: Apply the horizontal line testto the graphs
below to determine if the functions are one-to-one.
a)y =x
3
b)y = x
3
+ 3x
2
–x –1
not one-to-one
The Inverse is a Relation
x
y
-4 4
4
8
x
y
-4 4
4
8
The Inverse is a Function
Example: Apply the horizontal line testto the graphs
below to determine if the functions are one-to-one.
a)y =x
3
b)y = x
3
+ 3x
2
–x –1
not one-to-one
The Inverse is a Relation
x
y
-4 4
4
8
x
y
-4 4
4
8
y =x
The graphs of a relation and its inverse are reflections
in the line y= x.
The ordered pairs of fare given by
the equation . 4
)2(
3
y
x 4
)2(
3
x
y
Example:Find the graph of the inverse relation
geometricallyfrom the graph of f(x)=)2(
4
1
3
x
x
y
2-2
-2
2
The ordered pairs of the inverse are
given by .)2(
4
1
3
xy )2(
4
1
3
yx
The graphs of a relation and its inverse are reflections
in the line y= x.
The ordered pairs of fare given by
the equation . 4
)2(
3
y
x 4
)2(
3
x
y
Example:Find the graph of the inverse relation
geometricallyfrom the graph of f(x)=)2(
4
1
3
x
x
y
2-2
-2
2
The ordered pairs of the inverse are
given by .)2(
4
1
3
xy )2(
4
1
3
yx
The inverse of a relation is the reflection in the line y = x of the graph.1
: ( )
: ( )
Function f x
Inverse f x
: ( )
: ( )
Function f x
Inverse f x
Graph of an Inverse Function
Functions and their
inverses are symmetric
over the line y =x
Functions and their
inverses are symmetric
over the line y =x
NOTE: It is important to remember that not every function has an inverse.
Inverse Functions
Examples:
Examples:
2
( 1) 2yx The circled part of the expression is a square
so it will always be > 0. The smallest value it
can be is 0. This occurs when x = 1. The
vertex is at the point (1, −2 )
Examples:
( 1) 2yx The circled part of the expression is a square
so it will always be > 0. The smallest value it
can be is 0. This occurs when x = 1. The
vertex is at the point (1, −2 )
Examples:
Examples:
Find the inverse:
Graph and find domain and range.
Is the inverse a function?2
2yx
functio
n f(x)
inverse
f
–1
(x)
D
R
Graph and find domain and range.
Is the inverse a function?2
2yx
functio
n f(x)
inverse
f
–1
(x)
D
R
Find the inverse:
Graph and find domain and range.
Is the inverse a function?( ) 2 2f x x
functio
n f(x)
inverse
f
–1
(x)
D
R
Graph and find domain and range.
Is the inverse a function?( ) 2 2f x x
functio
n f(x)
inverse
f
–1
(x)
D
R
Find the inverse:
Graph and find domain and range.
Is the inverse a function?
What can you say is true of all cubic functions?3
( ) 1f x x
functio
n f(x)
inverse
f
–1
(x)
D
R
Graph and find domain and range.
Is the inverse a function?
What can you say is true of all cubic functions?3
( ) 1f x x
functio
n f(x)
inverse
f
–1
(x)
D
R
DETERMINING IF 2 FUNCTIONS ARE INVERSES:
The inverse function “undoes” the original function,
that is, f
-1
( f(x)) = x.
The function is the inverse of its inverse function,
that is, f ( f
-1
(x)) = x.
Example: The inverse of f(x) = x
3
is f
-1
(x) = .x
3
f
-1
(f(x)) = =xandf (f
-1
(x)) = ()
3
=x.
3x
3x 3
The inverse function “undoes” the original function,
that is, f
-1
( f(x)) = x.
The function is the inverse of its inverse function,
that is, f ( f
-1
(x)) = x.
Example: The inverse of f(x) = x
3
is f
-1
(x) = .x
3
f
-1
(f(x)) = =xandf (f
-1
(x)) = ()
3
=x.
3x
3x 3
It follows thatg =f
-1
.
Example:Verify that the function g(x) =
is the inverseof f(x) = 2x–1.
f(g(x)) = 2g(x) –1 = 2( ) –1 = (x+ 1) –1 = x2
1x 2
1x
g(f(x)) = = = = x2
)1)12(( x 2
2x 2
)1)(( xf
-1
.
Example:Verify that the function g(x) =
is the inverseof f(x) = 2x–1.
f(g(x)) = 2g(x) –1 = 2( ) –1 = (x+ 1) –1 = x2
1x 2
1x
g(f(x)) = = = = x2
)1)12(( x 2
2x 2
)1)(( xf
Review of Today’s Material
•A function must be 1-1 (pass the horizontal
line test) to have an inverse function (written
f
-1
(x)) otherwise the inverse is a relation (y =)
•To find an inverse: 1) Switch x and y
2) Solve for y
•Given two relations to test for inverses.
f(f
-1
(x)) = x and f
-1
(f(x)) = x **both must be true**
•Original and Inverses are symmetric over y =x
•“ “ ” have reverse domain & ranges
•A function must be 1-1 (pass the horizontal
line test) to have an inverse function (written
f
-1
(x)) otherwise the inverse is a relation (y =)
•To find an inverse: 1) Switch x and y
2) Solve for y
•Given two relations to test for inverses.
f(f
-1
(x)) = x and f
-1
(f(x)) = x **both must be true**
•Original and Inverses are symmetric over y =x
•“ “ ” have reverse domain & ranges
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