Q:
Evaluate or simplify the expression without using a calculator.
\( \ln e^{6 x} \)
Q:
Evaluate the expression without using a calculator.
\( \ln e^{3} \)
Q:
Evaluate the expression without using a calculator.
\[ \log _{4} 1 \]
Q:
(9-10). Describe how the graph of each function compares with the graph of the parent function \( y=\log _{b} \).
Write the \( (x, y) \) rule.
\( \begin{array}{ll}\text { 9. } y=-1 \cdot \log _{4}(x)-3 & \text { 10. } y=\log _{5}[-(x-1)]+2\end{array} \)
Q:
\( K=\begin{array}{l}\text { Evaluate the following expression without using a calculator. } \\ \log _{9} 9 \\ \log _{9} 9=\square\end{array} \)
Q:
Evaluate the expression without using a calculator.
\[ \log _{2} \frac{1}{4} \]
Q:
Evaluate the expression without using a calculator.
\( \log _{7} \frac{1}{7} \)
Q:
ให้ \( f(x)=\sqrt{x^{2}-3} \) จงหา \( f(-2) \cdot f(2) \)
Q:
Evaluate.
\[ 6^{\log _{8} 7} \]
Q:
The crime rate of a certain city is increasing by exactly \( 2 \% \)
each year. If there were 350 crimes in the year 1990 and
the crime rate remains constant each year, determine the
approximate number of crimes in the year 2023 .
Round to the nearest whole number.
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