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Start-UpCreate an equation for each translated parent graph
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Sections 1.5 & 1.7 Day 6/7 Objective: Student will graph a parametric function. Students
will use the Vertical Line and Horizontal Line Test to determine the nature of the relation.
Students will determine and verify an inverse function both algebraically and graphically.
Student will create a model function from a given formula, graph, or verbal description, including conversion between units of measure.
Essential Questions: What is a parameter and why is it relevant in the context of
real world problem? How do we determine if a given function will have an inverse that is also a function?
How do you determine the best model for the given function? Home Learning: p. 126 #9-12, 16, 17, 19, 28, 30 & 34 + Pg. 148 #13, 33, 43‐46
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1.5Parametric Relations and
Inverses
Demana, Waits, Foley, Kennedy
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What you’ll learn about
Relations Parametrically Inverse Relations and Inverse Functions
… and whySome functions and graphs can best be definedparametrically, while some others can be best understood as inverses of functions we alreadyknow.
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Relations Defined Parametrically
Another natural way to define functions or, more generally, relations, is to define both elements of the ordered pair (x, y) in terms of another variable t, called a parameter.
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Example: Defining a Function Parametrically
Consider the set of all ordered pairs (x, y)
defined by the equations
x t 1
y t 2 2
Find the points determined by
t 3, 2, 1,0,1,2, 3.
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Solution
Consider all ordered pairs (x, y) defined by
x t 1 and y t 2 2
Find the points determined by t 3, 2, 1, 0, 1, 2, 3.
t x = t – 1 y = t2 + 2 (x, y)
–3 –4 11 (–4, 11)
–2 –3 6 (–3, 6)
–1 –2 3 (–2, 3)
0 –1 2 (–1, 2)
1 0 3 (0, 3)
2 1 6 (1, 6)
3 2 11 (2, 11)
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Example: Defining a Function Parametrically
Consider the set of all ordered pairs (x, y)
defined by the equations
x t 1
y t 2 2
Find an algebraic relationship between x
and y. Is y a function of x?
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Solution
y t 2 2
y x 1 2 2 Solve for t in terms of x
y x2 2x 3 Expand and simplify
Yes, y is a function of x.
x t 1 and y t 2 2
Find an algebraic relationship between x
and y. Is y a function of x?
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Your Turn…p. 126 #1-4
Can you graph #1?Can you eliminate the parameter &
re-write in terms of x and y?
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Inverse Relation
The ordered pair (a,b) is in a relation if and only
if the pair (b,a) is in the inverse relation.
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Horizontal Line Test
The inverse of a relation is a function if and only
if each horizontal line intersects the graph of the
original relation in at most one point.
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Inverse Function
If f is a one-to-one function with domain D and
range R, then the inverse function of f , denoted
f -1, is the function with domain R and range D
defined by
f 1(b) a if and only if f (a) b.
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Is it a function? Is the inverse a function?
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Example: Finding an Inverse Function Algebraically
Find an equation for f 1(x) if f (x) 2x
x 1.
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Solution
x
2y
y 1 Switch the x and y
Solve for y :
x(y 1) 2y Multiply by y 1
xy x 2y Distribute x
xy 2y x Isolate the y terms
y(x 2) x Factor out y
y x
x 2 Divide by x 2
Find an equation for f 1(x) if f (x) 2x
x 1.
Therefore
f 1(x) x
x 2.
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The Inverse Reflection Principle
The points (a, b) and (b, a) in the coordinate plane
are symmetric with respect to the line y = x. The
points (a, b) and (b, a) are reflections of each
other across the line y = x.
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Example: Finding an Inverse Function Graphically
The graph of a function y = f (x) is shown. Sketch a graph of the function y = f –1(x).Is f a one-to-one function?
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Solution
All we need to do is to find the reflection of the given graph across the line y = x.
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Solution
All we need to do is to find the reflection of the given graph across the line y = x.
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Your Turn…determine #14, 15 & 20
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The Inverse Composition Rule
A function f is one-to-one with
inverse function g if and only if
f (g(x)) x for every x in the domain of g, and
g( f (x)) x for every x in the domain of f .
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Example: Verifying Inverse Functions
Show algebraically the f (x) x3 2
and g(x) x 23 are inverse functions.
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Solution
Use the Inverse Composition Rule:
f (g(x)) f ( x 23 ) x 23 3 2 x 2 2 x
g( f (x)) g(x3 2) x3 2 23 x33 x
Since these equations are true for all x, f and g are inverses.
Show algebraically the f (x) x3 2
and g(x) x 23 are inverse functions.
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Your Turn…Confirm Algebraically!
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How to Find an Inverse Function Algebraically
Given a formula for a function f , proceed as follows
to find a formula for f 1.
1. Determine that there is a function f 1 by checking
that f is one-to-one.
State any restrictions on the domain of f .
2. Switch x and y in the formula y f (x).
3. Solve for y to get the formula for y f 1(x).
State any restrictions on domain of f 1.
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Let’s try and apply!