6.4 Graphs of logarithmic functions (Page 2/8)

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How To

Given a logarithmic function, identify the domain.

Set up an inequality showing the argument greater than zero.
Solve for $x .$
Write the domain in interval notation.

Identifying the domain of a logarithmic shift

What is the domain of $f (x) = \log_{2} (x + 3) ?$

The logarithmic function is defined only when the input is positive, so this function is defined when $x + 3 > 0.$ Solving this inequality,

\begin{array}{l} x + 3 > 0 & The input must be positive . \\ x > - 3 \begin{matrix}  \end{matrix} & Subtract 3 . \end{array}

The domain of $f (x) = \log_{2} (x + 3)$ is $(- 3, \infty) .$

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What is the domain of $f (x) = \log_{5} (x - 2) + 1 ?$

$(2, \infty)$

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Identifying the domain of a logarithmic shift and reflection

What is the domain of $f (x) = \log (5 - 2 x) ?$

The logarithmic function is defined only when the input is positive, so this function is defined when $5 - 2 x > 0 .$ Solving this inequality,

\begin{array}{l} 5 - 2 x > 0 & The input must be positive . \\ - 2 x > - 5 & Subtract 5. \\ x < \frac{5}{2} \begin{matrix}  \end{matrix} & Divide by - 2 and switch the inequality . \end{array}

The domain of $f (x) = \log (5 - 2 x)$ is $(- \infty, \frac{5}{2}) .$

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What is the domain of $f (x) = \log (x - 5) + 2 ?$

$(5, \infty)$

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Graphing logarithmic functions

Now that we have a feel for the set of values for which a logarithmic function is defined, we move on to graphing logarithmic functions. The family of logarithmic functions includes the parent function $y = \log_{b} (x)$ along with all its transformations: shifts, stretches, compressions, and reflections.

We begin with the parent function $y = \log_{b} (x) .$ Because every logarithmic function of this form is the inverse of an exponential function with the form $y = b^{x},$ their graphs will be reflections of each other across the line $y = x .$ To illustrate this, we can observe the relationship between the input and output values of $y = 2^{x}$ and its equivalent $x = \log_{2} (y)$ in [link] .

$x$	$- 3$	$- 2$	$- 1$	$0$	$1$	$2$	$3$
$2^{x} = y$	$\frac{1}{8}$	$\frac{1}{4}$	$\frac{1}{2}$	$1$	$2$	$4$	$8$
$\log_{2} (y) = x$	$- 3$	$- 2$	$- 1$	$0$	$1$	$2$	$3$

Using the inputs and outputs from [link] , we can build another table to observe the relationship between points on the graphs of the inverse functions $f (x) = 2^{x}$ and $g (x) = \log_{2} (x) .$ See [link] .

$f (x) = 2^{x}$	$(- 3, \frac{1}{8})$	$(- 2, \frac{1}{4})$	$(- 1, \frac{1}{2})$	$(0, 1)$	$(1, 2)$	$(2, 4)$	$(3, 8)$
$g (x) = \log_{2} (x)$	$(\frac{1}{8}, - 3)$	$(\frac{1}{4}, - 2)$	$(\frac{1}{2}, - 1)$	$(1, 0)$	$(2, 1)$	$(4, 2)$	$(8, 3)$

As we’d expect, the x - and y -coordinates are reversed for the inverse functions. [link] shows the graph of $f$ and $g .$

Graph of two functions, f(x)=2^x and g(x)=log_2(x), with the line y=x denoting the axis of symmetry. — Notice that the graphs of $f (x) = 2^{x}$ and $g (x) = \log_{2} (x)$ are reflections about the line $y = x .$

Observe the following from the graph:

$f (x) = 2^{x}$ has a y -intercept at $(0, 1)$ and $g (x) = \log_{2} (x)$ has an x - intercept at $(1, 0) .$
The domain of $f (x) = 2^{x},$ $(- \infty, \infty),$ is the same as the range of $g (x) = \log_{2} (x) .$
The range of $f (x) = 2^{x},$ $(0, \infty),$ is the same as the domain of $g (x) = \log_{2} (x) .$

A General Note

Characteristics of the graph of the parent function, f ( x ) = log _b ( x )

For any real number $x$ and constant $b > 0,$ $b \neq 1,$ we can see the following characteristics in the graph of $f (x) = \log_{b} (x) :$

one-to-one function
vertical asymptote: $x = 0$
domain: $(0, \infty)$
range: $(- \infty, \infty)$
x- intercept: $(1, 0)$ and key point $(b, 1)$
y -intercept: none
increasing if $b > 1$
decreasing if $0 < b < 1$

See [link] .

Two graphs of the function f(x)=log_b(x) with points (1,0) and (b, 1). The first graph shows the line when b>1, and the second graph shows the line when 0<b<1.

[link] shows how changing the base $b$ in $f (x) = \log_{b} (x)$ can affect the graphs. Observe that the graphs compress vertically as the value of the base increases. ( Note: recall that the function $\ln (x)$ has base $e \approx 2 . 718.)$

Graph of three equations: y=log_2(x) in blue, y=ln(x) in orange, and y=log(x) in red. The y-axis is the asymptote. — The graphs of three logarithmic functions with different bases, all greater than 1.

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Source: OpenStax, Algebra and trigonometry. OpenStax CNX. Nov 14, 2016 Download for free at https://legacy.cnx.org/content/col11758/1.6

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6.4 Graphs of logarithmic functions (Page 2/8)

Identifying the domain of a logarithmic shift

Identifying the domain of a logarithmic shift and reflection

Graphing logarithmic functions

Characteristics of the graph of the parent function, f ( x ) = log b ( x )

Questions & Answers

Read also:

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Characteristics of the graph of the parent function, f ( x ) = log _b ( x )