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Expand the logarithm fully using the properties of logs. Express the final answer in terms of
log x, and
log y.

log ((x^(5))/(y^(3)))
Answer:

Expand the logarithm fully using the properties of logs. Express the final answer in terms of $\log x$ , and $\log y$ . $\newline$ $\log \frac{x^{5}}{y^{3}}$ $\newline$ Answer:

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Quotient property of logarithms

Full solution

Q. Expand the logarithm fully using the properties of logs. Express the final answer in terms of

\log x

, and

\log y

.

\newline

\log \frac{x^{5}}{y^{3}}

\newline

Answer:

Identify Properties: Identify the properties used to expand $\log\left(\frac{x^{5}}{y^{3}}\right)$ . We will use the quotient property of logarithms to separate the numerator and the denominator, and the power property to bring down the exponents. Quotient Property: $\log_b\left(\frac{P}{Q}\right) = \log_b(P) - \log_b(Q)$ Power Property: $\log_b(P^k) = k \cdot \log_b(P)$
Apply Quotient Property: Apply the quotient property to the logarithm. $\newline$ Using the quotient property, we can write $\log\left(\frac{x^{5}}{y^{3}}\right)$ as $\log(x^{5}) - \log(y^{3})$ .
Apply Power Property: Apply the power property to both terms. $\newline$ Using the power property, we can bring down the exponents in both terms: $\newline$ $\log(x^{5})$ becomes $5 \times \log(x)$ , and $\log(y^{3})$ becomes $3 \times \log(y)$ .
Write Final Form: Write the final expanded form. $\newline$ The final expanded form of the logarithm is $5 \cdot \log(x) - 3 \cdot \log(y)$ .

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