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Chapter 4: Problem 17

Write each equation in its equivalent logarithmic form. $$b^{3}=1000$$

Short Answer

Expert verified
The logarithmic form of the equation \(b^{3}=1000\) is \(\log_{b}1000 = 3.\)

Step by step solution

01

Understand Logarithmic Form

The logarithmic form of the expression \(b^{a} = c\) can be written as \(\log_{b}c = a.\) This is based on the basic definition of logarithms.
02

Apply the Logarithmic Form

Apply the logarithmic format to the given expression \(b^{3}=1000.\) So, this transforms the given expression to \(\log_{b}1000 = 3.\) Remember, in a logarithmic equation \(\log_{b}c = a,\) 'b' is the base, 'a' is exponent, and 'c' is the result.

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Most popular questions from this chapter

Determine whether each statement is true or false. If the statement is false, make the necessary change(s) to produce a true statement. Examples of exponential equations include \(10^{x}=5.71\) \(e^{x}=0.72,\) and \(x^{10}=5.71\)

Check each proposed solution by direct substitution or with a graphing utility. $$(\ln x)^{2}=\ln x^{2}$$

Use the exponential growth model, \(A=A_{0} e^{k t},\) to show that the time it takes a population to double (to grow from \(A_{0}\) to \(\left.2 A_{0}\right)\) is given by \(t=\frac{\ln 2}{k}\)

Students in a mathematics class took a final examination. They took equivalent forms of the exam in monthly intervals thereafter. The average score, \(f(t),\) for the group after \(t\) months was modeled by the human memory function \(f(t)=75-10 \log (t+1), \quad\) where \(\quad 0 \leq t \leq 12 . \quad\) Use \(\quad\) a graphing utility to graph the function. Then determine how many months elapsed before the average score fell below 65.

In Exercises \(53-56,\) rewrite the equation in terms of base \(e\). Express the answer in terms of a natural logarithm and then round to three decimal places. $$ y=100(4.6)^{x} $$
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