1.3 new functions from old functions in this section, we will learn: how to obtain new functions...
TRANSCRIPT
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1.3New Functions from Old
FunctionsIn this section, we will learn:
How to obtain new functions from old functions
and how to combine pairs of functions.
FUNCTIONS AND MODELS
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In this section, we:
Start with the basic functions we discussed in Section 1.2 and obtain new functions by shifting, stretching, and reflecting their graphs.
Show how to combine pairs of functions by the standard arithmetic operations and by composition.
NEW FUNCTIONS FROM OLD FUNCTIONS
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By applying certain transformations
to the graph of a given function,
we can obtain the graphs of certain
related functions. This will give us the ability to sketch the graphs
of many functions quickly by hand. It will also enable us to write equations for
given graphs.
TRANSFORMATIONS OF FUNCTIONS
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Let’s first consider translations.
If c is a positive number, then the graph of y = f(x) + c is just the graph of y = f(x) shifted upward a distance of c units.
This is because each y-coordinate is increased by the same number c.
Similarly, if g(x) = f(x - c) ,where c > 0, then the value of g at x is the same as the value of f at x - c (c units to the left of x).
TRANSLATIONS
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Therefore, the graph of y = f(x - c) is just the graph of y = f(x) shifted c units to the right.
TRANSLATIONS
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Suppose c > 0.
To obtain the graph of y = f(x) + c, shift the graph of y = f(x) a distance c units upward.
To obtain the graph of y = f(x) - c, shift the graph of y = f(x) a distance c units downward.
SHIFTING
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To obtain the graph of y = f(x - c), shift the graph of y = f(x) a distance c units to the right.
To obtain the graph of y = f(x + c), shift the graph of y = f(x) a distance c units to the left.
SHIFTING
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Now, let’s consider the stretching andreflecting transformations.
If c > 1, then the graph of y = cf(x) is the graphof y = f(x) stretched by a factor of c in the vertical direction.
This is because each y-coordinate is multiplied by the same number c.
STRETCHING AND REFLECTING
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The graph of y = -f(x) is the graph of y = f(x) reflected about the x-axis because the point (x, y) is replaced by the point (x, -y).
STRETCHING AND REFLECTING
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The results of other stretching,
compressing, and reflecting
transformations are given on the next
few slides.
TRANSFORMATIONS
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Suppose c > 1.
To obtain the graph of y = cf(x), stretch the graph of y = f(x) vertically by a factor of c.
To obtain the graph of y = (1/c)f(x), compress the graph of y = f(x) vertically by a factor of c.
TRANSFORMATIONS
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In order to obtain the graph of y = f(cx), compress the graph of y = f(x) horizontally by a factor of c.
To obtain the graph of y = f(x/c), stretch the graph of y = f(x) horizontally by a factor of c.
TRANSFORMATIONS
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In order to obtain the graph of y = -f(x), reflect the graph of y = f(x) about the x-axis.
To obtain the graph of y = f(-x), reflect the graph of y = f(x) about the y-axis.
TRANSFORMATIONS
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The figure illustrates these stretching
transformations when applied to the cosine
function with c = 2.
TRANSFORMATIONS
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For instance, in order to get the graph of
y = 2 cos x, we multiply the y-coordinate of
each point on the graph of y = cos x by 2.
TRANSFORMATIONS
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This means that the graph of y = cos x
gets stretched vertically by a factor of 2.
TRANSFORMATIONS
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Given the graph of , use
transformations to graph:
a.
b.
c.
d.
e.
y x
2y x
Example 1
2y x y x
2y x
y x
TRANSFORMATIONS
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The graph of the square root
function is shown in part (a).y x
Example 1TRANSFORMATIONS
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In the other parts of the figure,
we sketch: by shifting 2 units downward. by shifting 2 units to the right. by reflecting about the x-axis. by stretching vertically by a factor of 2. by reflecting about the y-axis.
2y x 2y x
y x2y x
y x
Example 1TRANSFORMATIONS
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Sketch the graph of the function
f(x) = x2 + 6x + 10.
Completing the square, we write the equation of the graph as: y = x2 + 6x + 10 = (x + 3)2 + 1.
Example 2TRANSFORMATIONS
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This means we obtain the desired graph by starting with the parabola y = x2 and shifting 3 units to the left and then 1 unit upward.
Example 2TRANSFORMATIONS
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Sketch the graphs of the following
functions.
a.
b.
TRANSFORMATIONS Example 3
sin 2y x
1 siny x
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We obtain the graph of y = sin 2x from that
of y = sin x by compressing horizontally by
a factor of 2. Thus, whereas the period of y = sin x is 2 ,
the period of y = sin 2x is 2 /2 = .
Example 3 aTRANSFORMATIONS
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To obtain the graph of y = 1 – sin x ,
we again start with y = sin x. We reflect about the x-axis to get the graph of
y = -sin x. Then, we shift 1 unit upward to get y = 1 – sin x.
TRANSFORMATIONS Example 3 b