QUESTION IMAGE
Question
doug bought a new car for $25,000. he estimates his car will depreciate, or lose value, at a rate of 20% per year. the value of his car is modeled by the equation \\(v = p(1-r)^t\\), where \\(v\\) is the value of the car, \\(p\\) is the price he paid, \\(r\\) is the annual rate of depreciation, and \\(t\\) is the number of years he has owned the car. according to the model, what will be the approximate value of his car after \\(4\frac{1}{2}\\) years?
- $2,500
- $9,159
- $22,827
- $23,791
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<reasoning>
Identify given parameters
We extract the values from the problem statement:
- Initial price \(P = 25,000\)
- Annual depreciation rate \(r = 20\% = 0.20\)
- Time in years \(t = 4\frac{1}{2} = 4.5\)
Set up the model equation
The depreciation model is given by:
\[V = P(1 - r)^t\]
Substituting the known values into the equation:
\[V = 25,000(1 - 0.20)^{4.5}\]
Simplify the base
Subtract the rate from 1:
\[1 - 0.20 = 0.80\]
Thus, the equation becomes:
\[V = 25,000(0.8)^{4.5}\]
Calculate the exponential term
We compute the value of \((0.8)^{4.5}\):
\[(0.8)^{4.5} \approx 0.366356\]
Calculate the final value
Multiply the initial price by the decay factor:
\[V \approx 25,000 \times 0.366356 \approx 9,158.9\]
Rounding to the nearest whole dollar gives approximately \(\$9,159\).
</reasoning>
<answer>
<mcq-option>(A) \$2,500</mcq-option>
<mcq-correct>(B) \$9,159</mcq-correct>
<mcq-option>(C) \$22,827</mcq-option>
<mcq-option>(D) \$23,791</mcq-option>
</answer>
<post_analysis>
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"subject": "Mathematics",
"question_type": "Multiple Choice",
"knowledge_point": [
"Mathematics",
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</pre_analysis>
<reasoning>
Identify given parameters
We extract the values from the problem statement:
- Initial price \(P = 25,000\)
- Annual depreciation rate \(r = 20\% = 0.20\)
- Time in years \(t = 4\frac{1}{2} = 4.5\)
Set up the model equation
The depreciation model is given by:
\[V = P(1 - r)^t\]
Substituting the known values into the equation:
\[V = 25,000(1 - 0.20)^{4.5}\]
Simplify the base
Subtract the rate from 1:
\[1 - 0.20 = 0.80\]
Thus, the equation becomes:
\[V = 25,000(0.8)^{4.5}\]
Calculate the exponential term
We compute the value of \((0.8)^{4.5}\):
\[(0.8)^{4.5} \approx 0.366356\]
Calculate the final value
Multiply the initial price by the decay factor:
\[V \approx 25,000 \times 0.366356 \approx 9,158.9\]
Rounding to the nearest whole dollar gives approximately \(\$9,159\).
</reasoning>
<answer>
<mcq-option>(A) \$2,500</mcq-option>
<mcq-correct>(B) \$9,159</mcq-correct>
<mcq-option>(C) \$22,827</mcq-option>
<mcq-option>(D) \$23,791</mcq-option>
</answer>
<post_analysis>
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