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Brad bought a piece of industrial real estate for [tex]$\$[/tex]192,345[tex]$. The value of the real estate appreciated at a constant rate per year. The table shows the value of the real estate after the first and second years:

\begin{tabular}{|c|c|c|}
\hline
Year & 1 & 2 \\
\hline
Value (in dollars) & $[/tex]\[tex]$200,038.80$[/tex] & [tex]$\$[/tex]208,040.35[tex]$ \\
\hline
\end{tabular}

Which function best represents the value of the real estate after $[/tex]t[tex]$ years?

A. $[/tex]f(t) = 200,038.80(1.04)^t[tex]$
B. $[/tex]f(t) = 200,038.80(0.04)^t[tex]$
C. $[/tex]f(t) = 192,345(0.04)^2[tex]$
D. $[/tex]f(t) = 192,345(1.04)^t$

Sagot :

GinnyAnsweridn
Let's determine which given function best represents the value of the real estate after [tex]\( t \)[/tex] years using the information provided in the problem:

### Step 1: Determine the Appreciation Rate
First, we need to find the annual appreciation rate. Given:
- Value after 1 year: \[tex]$200,038.80 - Value after 2 years: \$[/tex]208,040.35

We calculate the appreciation rate by dividing the value at the end of the second year by the value at the end of the first year:
[tex]\[ \text{Appreciation Rate} = \frac{\text{Value after 2 years}}{\text{Value after 1 year}} \approx \frac{208040.35}{200038.80} \approx 1.04 \][/tex]

So, the annual appreciation rate is approximately 1.04, meaning a 4% increase per year.

### Step 2: Establish the General Form of the Function
Assuming the property appreciates at a constant rate, the value of the property after [tex]\( t \)[/tex] years can be expressed as:
[tex]\[ \text{Value} = \text{Initial Value} \times (\text{Appreciation Rate})^t \][/tex]
Given the initial purchase price is \[tex]$192,345 and our appreciation rate is approximately 1.04, we substitute these values into the formula: \[ f(t) = 192345 \times (1.04)^t \] ### Step 3: Evaluating the Given Options Now, let's evaluate the options provided with \( t = 2 \) to check which one correctly represents the value after 2 years: 1. \( f(t) = 200,038.80 \times (1.04)^t \) - For \( t = 2 \): \[ f(2) = 200038.80 \times (1.04)^2 \approx 216361.97 \] 2. \( f(t) = 200,038.80 \times (0.04)^t \) - For \( t = 2 \): \[ f(2) = 200038.80 \times (0.04)^t \approx 320.06 \] 3. \( f(t) = 192,345 \times (0.04)^2 \) - This evaluates to a constant number: \[ f(2) = 192345 \times (0.04)^2 = 192345 \times 0.0016 \approx 307.75 \] 4. \( f(t) = 192,345 \times (1.04)^t \) - For \( t = 2 \): \[ f(2) = 192345 \times (1.04)^2 \approx 208040.35 \] ### Step 4: Conclusion Comparing these values to the actual value given for the property after 2 years, which is \$[/tex]208,040.35, we see that the fourth option most accurately represents the value after [tex]\( t \)[/tex] years.

Thus, the function that best represents the value of the real estate after [tex]\( t \)[/tex] years is:
[tex]\[ f(t) = 192,345 \times (1.04)^t \][/tex]
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