Question

3. To determine which exponential function represents the geometric sequence 40, 160, 640, ..., we first identify the common ratio. In this case:

- From 40 to 160, the common ratio is \( \frac{160}{40} = 4 \).
- From 160 to 640, the common ratio is \( \frac{640}{160} = 4 \).

This confirms that the common ratio \( r \) is 4. The first term \( a \) of the sequence is 40. The general form of a geometric sequence is given by:

\[
a_n = a \cdot r^{n-1}
\]

Thus, substituting in the values:

\[
a_n = 40 \cdot 4^{n-1}
\]

The correct option that matches this is:

**B) \( a_n = 40(4)^{n-1} \)**

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4. To find the value of the car after five years, we need to calculate the depreciation using the formula for exponential decay:

\[
V = P (1 - r)^t
\]

Where:
- \( P = 24,500 \) (initial value)
- \( r = 0.15 \) (15% depreciation rate)
- \( t = 5 \) (number of years)

Plugging in the values:

\[
V = 24500 \times (1 - 0.15)^5
\]
\[
V = 24500 \times (0.85)^5
\]
\[
V = 24500 \times 0.4437053125 \quad \text{(approximately)}
\]
\[
V \approx 10870.78
\]

Thus, the value of the car after five years is approximately $10,870.78.

The correct option is:

**A) $10,870.78**