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Use common logarithms or natural logarithms and a calculator to evaluate the expression:

[tex]\[ \log_{19} 13 \][/tex]

Use the change-of-base property to rewrite the given expression in terms of natural logarithms or common logarithms:

[tex]\[ \log_{19} 13 = \square \][/tex]

(Do not evaluate.)

Sagot :

GinnyAnsweridn
To evaluate the expression [tex]\(\log_{19} 13\)[/tex] using either common logarithms (base 10) or natural logarithms (base [tex]\(e\)[/tex]), we can utilize the change-of-base formula.

The change-of-base formula states that for any positive numbers [tex]\(a\)[/tex], [tex]\(b\)[/tex], and [tex]\(c\)[/tex] (where [tex]\(a \neq 1\)[/tex] and [tex]\(b \neq 1\)[/tex]):
[tex]$ \log_a b = \frac{\log_c b}{\log_c a} $[/tex]

In this case, we want to rewrite [tex]\(\log_{19} 13\)[/tex] using either common logarithms (base 10) or natural logarithms (base [tex]\(e\)[/tex]).

Let's rewrite it using common logarithms (base 10):

[tex]$ \log_{19} 13 = \frac{\log_{10} 13}{\log_{10} 19} $[/tex]

Alternatively, we can rewrite it using natural logarithms (base [tex]\(e\)[/tex]):

[tex]$ \log_{19} 13 = \frac{\ln 13}{\ln 19} $[/tex]

So, the expression [tex]\(\log_{19} 13\)[/tex] can be rewritten using the change-of-base property as:

[tex]$ \log_{19} 13 = \frac{\log 13}{\log 19} $[/tex]

or

[tex]$ \log_{19} 13 = \frac{\ln 13}{\ln 19} $[/tex]

Choose either form based on your preference for common logarithms or natural logarithms. Both forms are correct and equivalent.
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