Copyright © 2015, 2008, 2011 Pearson Education, Inc. Section 4.3, Slide 1 Chapter 4 Exponential...
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Copyright © 2015, 2008, 2011 Pearson Education, Inc. Section 4.3, Slide Chapter 4 Exponential Functions
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Transcript of Copyright © 2015, 2008, 2011 Pearson Education, Inc. Section 4.3, Slide 1 Chapter 4 Exponential...
Copyright © 2015, 2008, 2011 Pearson Education, Inc. Section 4.3, Slide 1
Chapter 4Exponential Functions
Copyright © 2015, 2008, 2011 Pearson Education, Inc. Section 4.3, Slide 2
4.3 Graphing Exponential Functions
Copyright © 2015, 2008, 2011 Pearson Education, Inc. Section 4.3, Slide 3
Example: Graphing an Exponential Function with b > 1
Graph f(x) = 2x by hand.
Copyright © 2015, 2008, 2011 Pearson Education, Inc. Section 4.3, Slide 4
Solution
First, list input-output pairs of the function f in a table. Note that as the value of x increases by 1, the value of y is multiplied by 2 (the base).
Copyright © 2015, 2008, 2011 Pearson Education, Inc. Section 4.3, Slide 5
Solution
Next, plot the solutions from the table and sketch an increasing curve that contains the plotted points.
Copyright © 2015, 2008, 2011 Pearson Education, Inc. Section 4.3, Slide 6
Solution
We can set up a window to verify our graph on a graphing calculator.
Copyright © 2015, 2008, 2011 Pearson Education, Inc. Section 4.3, Slide 7
Exponential Curve
The graph of an exponential function is called an exponential curve.
Copyright © 2015, 2008, 2011 Pearson Education, Inc. Section 4.3, Slide 8
Base Multiplier Property
For an exponential function of the form y = abx, if the value of the independent variable increases by 1, the value of the dependent variable is multiplied by b.
Copyright © 2015, 2008, 2011 Pearson Education, Inc. Section 4.3, Slide 9
Increasing or Decreasing Property
Let f(x) = abx, where a > 0. Then,
• If b > 1, then the function f is increasing. We say the function grows exponentially.
• If 0 < b < 1, then the function f is decreasing. We say the function decays exponentially.
Copyright © 2015, 2008, 2011 Pearson Education, Inc. Section 4.3, Slide 10
y-Intercept of an Exponential Function
For an exponential function of the form
y = abx,
the y-intercept is (0, a).
Copyright © 2015, 2008, 2011 Pearson Education, Inc. Section 4.3, Slide 11
y-Intercept of an Exponential Function
Warning
For an exponential function of the form y = bx (rather than y = abx), the y-intercept is not (0, b). By writing y = bx = 1bx, we see the y-intercept is (0, 1).
Copyright © 2015, 2008, 2011 Pearson Education, Inc. Section 4.3, Slide 12
Example: Intercepts and Graph of an Exponential Function
Let
1. Find the y-intercept of the graph of f.2. Find the x-intercept of the graph of f.3. Graph f by hand.
1( ) 6 .
2
x
f x
Copyright © 2015, 2008, 2011 Pearson Education, Inc. Section 4.3, Slide 13
Solution
1. Since is of the form f(x) = abx, the1
( )2
6x
f x
y-intercept is (0, a), or (0, 6).
Copyright © 2015, 2008, 2011 Pearson Education, Inc. Section 4.3, Slide 14
Solution
2. By the base multiplier property, as the value of x increases by 1, the value of y is multiplied by one half. Values are shown in the table below.
Copyright © 2015, 2008, 2011 Pearson Education, Inc. Section 4.3, Slide 15
Solution
2. When we halve a number, it becomes smaller. But no number of halvings will give a result that is zero. So, as x grows large, y will become extremely close to, but never equal, 0. Likewise, the graph of f gets arbitrarily close to, but never reaches, the x-axis. In this case, we call the x-axis a horizontal asymptote. We conclude that the function f has no x-intercepts.
Copyright © 2015, 2008, 2011 Pearson Education, Inc. Section 4.3, Slide 16
Solution
3. Plot the points from the table and sketch a decreasing exponential curve that contains the points.
Copyright © 2015, 2008, 2011 Pearson Education, Inc. Section 4.3, Slide 17
Reflection Property
The graphs of f(x) = –abx and g(x) = abx are reflections of each other across the x-axis.
Copyright © 2015, 2008, 2011 Pearson Education, Inc. Section 4.3, Slide 18
Horizontal Asymptote
For all exponential functions, the x-axis is a horizontal asymptote.
Copyright © 2015, 2008, 2011 Pearson Education, Inc. Section 4.3, Slide 19
Domain and Range of an Exponential Function
The domain of any exponential function f(x) = abx is the set of real numbers.
The range of an exponential function f(x) = abx is the set of all positive real numbers if a > 0, and the range is the set of all negative real numbers if a < 0.
Copyright © 2015, 2008, 2011 Pearson Education, Inc. Section 4.3, Slide 20
Example: Finding Values of a Function from Its Graph
The graph of an exponential function f is shown below.
1. Find f(2).2. Find x when f(x) = 2.3. Find x when f(x) = 0.
Copyright © 2015, 2008, 2011 Pearson Education, Inc. Section 4.3, Slide 21
Solution
1. The blue arrows show that the input x = 2 leads to the output y = 8. We conclude that f(2) = 8.
2. The red arrows show that the output y = 2 originates from the input x = –2. So, x = –2 when f(x) = 2.
3. Recall that the graph of an exponential functions gets close to, but never reaches, the x-axis. So, there is no value of x where f(x) = 0.
