Question

To show that the Quotient Rule of Logarithms works for the expression \( \log_4 64 - \log_4 16 \), we need to verify that:

\[
\log_4 64 - \log_4 16 = \log_4 \left( \frac{64}{16} \right)
\]

Let's calculate each side step by step.

1. **Calculate \( \log_4 64 \):**
- We can rewrite 64 as \( 4^3 \) because \( 4^3 = 64 \).
- Therefore, \( \log_4 64 = \log_4 (4^3) = 3 \).

2. **Calculate \( \log_4 16 \):**
- We can rewrite 16 as \( 4^2 \) because \( 4^2 = 16 \).
- Therefore, \( \log_4 16 = \log_4 (4^2) = 2 \).

3. **Now calculate \( \log_4 64 - \log_4 16 \):**
\[
\log_4 64 - \log_4 16 = 3 - 2 = 1
\]

4. **Calculate \( \frac{64}{16} \):**
\[
\frac{64}{16} = 4
\]

5. **Compute \( \log_4 \left( \frac{64}{16} \right) = \log_4 4 \):**
- Since \( 4 = 4^1 \),
- Therefore, \( \log_4 4 = 1 \).

Now, both sides are equal:

\[
\log_4 64 - \log_4 16 = 1
\]
\[
\log_4 \left( \frac{64}{16} \right) = 1
\]

Thus, we have shown that:

\[
\log_4 64 - \log_4 16 = \log_4 \left( \frac{64}{16} \right)
\]

This confirms that the Quotient Rule of Logarithms works for the given expression.