6.3 Logarithmic functions (Page 2/9)

Page 2 / 9

We can express the relationship between logarithmic form and its corresponding exponential form as follows:

\log_{b} (x) = y \Leftrightarrow b^{y} = x, b > 0, b \neq 1

Note that the base $b$ is always positive.

Because logarithm is a function, it is most correctly written as $\log_{b} (x),$ using parentheses to denote function evaluation, just as we would with $f (x) .$ However, when the input is a single variable or number, it is common to see the parentheses dropped and the expression written without parentheses, as $\log_{b} x .$ Note that many calculators require parentheses around the $x .$

We can illustrate the notation of logarithms as follows:

Notice that, comparing the logarithm function and the exponential function, the input and the output are switched. This means $y = \log_{b} (x)$ and $y = b^{x}$ are inverse functions.

A General Note

Definition of the logarithmic function

A logarithm base $b$ of a positive number $x$ satisfies the following definition.

For $x > 0, b > 0, b \neq 1,$

y = \log_{b} (x) is equivalent to b^{y} = x

where,

we read $\log_{b} (x)$ as, “the logarithm with base $b$ of $x$ ” or the “log base $b$ of $x . "$
the logarithm $y$ is the exponent to which $b$ must be raised to get $x .$

Also, since the logarithmic and exponential functions switch the $x$ and $y$ values, the domain and range of the exponential function are interchanged for the logarithmic function. Therefore,

the domain of the logarithm function with base $b is (0, \infty) .$
the range of the logarithm function with base $b is (- \infty, \infty) .$

Q&A

Can we take the logarithm of a negative number?

No. Because the base of an exponential function is always positive, no power of that base can ever be negative. We can never take the logarithm of a negative number. Also, we cannot take the logarithm of zero. Calculators may output a log of a negative number when in complex mode, but the log of a negative number is not a real number.

How To

Given an equation in logarithmic form $\log_{b} (x) = y,$ convert it to exponential form.

Examine the equation $y = \log_{b} x$ and identify $b, y, and x .$
Rewrite $\log_{b} x = y$ as $b^{y} = x .$

Converting from logarithmic form to exponential form

Write the following logarithmic equations in exponential form.

$\log_{6} (\sqrt{6}) = \frac{1}{2}$
$\log_{3} (9) = 2$

First, identify the values of $b, y, and x .$ Then, write the equation in the form $b^{y} = x .$

$\log_{6} (\sqrt{6}) = \frac{1}{2}$
Here, $b = 6, y = \frac{1}{2}, and x = \sqrt{6.}$ Therefore, the equation $\log_{6} (\sqrt{6}) = \frac{1}{2}$ is equivalent to $6^{\frac{1}{2}} = \sqrt{6} .$
$\log_{3} (9) = 2$
Here, $b = 3, y = 2, and x = 9.$ Therefore, the equation $\log_{3} (9) = 2$ is equivalent to $3^{2} = 9.$

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Write the following logarithmic equations in exponential form.

$\log_{10} (1, 000, 000) = 6$
$\log_{5} (25) = 2$

$\log_{10} (1, 000, 000) = 6$ is equivalent to $10^{6} = 1, 000, 000$
$\log_{5} (25) = 2$ is equivalent to $5^{2} = 25$

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Converting from exponential to logarithmic form

To convert from exponents to logarithms, we follow the same steps in reverse. We identify the base $b,$ exponent $x,$ and output $y .$ Then we write $x = \log_{b} (y) .$

Converting from exponential form to logarithmic form

Write the following exponential equations in logarithmic form.

$2^{3} = 8$
$5^{2} = 25$
$10^{- 4} = \frac{1}{10,000}$

First, identify the values of $b, y, and x .$ Then, write the equation in the form $x = \log_{b} (y) .$

$2^{3} = 8$
Here, $b = 2,$ $x = 3,$ and $y = 8.$ Therefore, the equation $2^{3} = 8$ is equivalent to $\log_{2} (8) = 3.$
$5^{2} = 25$
Here, $b = 5,$ $x = 2,$ and $y = 25.$ Therefore, the equation $5^{2} = 25$ is equivalent to $\log_{5} (25) = 2.$
$10^{- 4} = \frac{1}{10,000}$
Here, $b = 10,$ $x = - 4,$ and $y = \frac{1}{10,000} .$ Therefore, the equation $10^{- 4} = \frac{1}{10,000}$ is equivalent to ${log}_{10} (\frac{1}{10,000}) = - 4.$

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Questions & Answers

calculate molarity of NaOH solution when 25.0ml of NaOH titrated with 27.2ml of 0.2m H2SO4

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the study of the heat energy which is associated with chemical reactions

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Read Chapter 6, section 5

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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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