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Chapter 12: Problem 72

Let \(\log _{b} 2=A\) and \(\log _{b} 3=C .\) Write each expression in terms of \(A\) and \(C\). $$\log _{b} 81$$

Short Answer

Expert verified
The expression \( \log _{b} 81 \) can be written as \( 4C \) in terms of given logarithms.

Step by step solution

01

Express 81 as product or power of known values

Start by exploring the factorization of the number 81. As we can see, \( 81 = 3^4 \). It will help us to express \( \log _{b} 81 \) in terms of C.
02

Use Logarithm power rule

The power rule of logarithms allows us to transfer the exponent of the argument of the logarithm in front of the logarithm. This rule can be expressed as \( \log_b m^n = n \log_b m \). Exploiting this rule, we express \( \log _{b} 81 \) or \( \log _{b} 3^4 \) as \( 4 \log _{b} 3 \)
03

Substitute C for log_b 3

As per the given problem, we know \( \log_b 3 = C \) . Substituting C in place of \( \log _{b} 3 \) in above derived equation, we get this as \( 4 * C \)

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Most popular questions from this chapter

Complete the table for a savings account subject to continuous compounding ( \(A=P e^{n}\) ). Round answers to one decimal place. $$\begin{array}{l|c|l|c} \hline \begin{array}{l} \text { Amount } \\ \text { Invested } \end{array} & \begin{array}{l} \text { Annual Interest } \\ \text { Rate } \end{array} & \begin{array}{l} \text { Accumulated } \\ \text { Amount } \end{array} & \begin{array}{l} \text { Time } t \\ \text { in Years } \end{array} \\ \hline \$ 8000 & & \$ 12,000 & 2 \\ \hline \end{array}$$

Describe the change-of-base property and give an example.

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Describe the following property using words: \(\log _{b} b^{x}=x\)
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