Duplicate Question
The question on this page has been marked as a duplicate question.
Original Question
Callie entered an art contest in second grade and won a $1,000 scholarship. The money was invested in an account paying a 9% in...Question
Callie entered an art contest in second grade and won a $1,000 scholarship. The money was invested in an account paying a 9% interest rate compounded annually. The situation can be modeled by the equation a(t)=1,000(1.09)^t , where a is the amount in the account after t years. If Callie uses the scholarship 10 years later, determine which graph accurately displays the situation
Answers
There are no human answers yet.
Answered by
GPT-4o mini
To determine which graph accurately displays the situation, we first need to analyze the equation given:
\[ a(t) = 1,000(1.09)^t \]
In this equation:
- \( a(t) \) is the amount in the account after \( t \) years.
- The initial investment is $1,000.
- The interest rate is compounded annually at 9%, which means the amount grows exponentially.
Next, we will calculate \( a(10) \), which is the amount in the account after 10 years:
\[ a(10) = 1,000(1.09)^{10} \]
Now we need to calculate \( (1.09)^{10} \):
Using a calculator:
\[
(1.09)^{10} \approx 2.36736
\]
Thus,
\[
a(10) = 1,000 \times 2.36736 \approx 2367.36
\]
After 10 years, the amount in the account will be approximately $2,367.36.
When comparing the graphs, we should look for a graph that:
1. Starts at \( a(0) = 1,000 \) when \( t = 0 \).
2. Shows exponential growth as \( t \) increases, specifically steep growth around \( t = 10 \).
3. Reaches approximately \( a(10) \approx 2367.36 \) at \( t = 10 \).
The graph should be smooth and likely rises quickly since it's compounded annually at a fairly high interest rate.
If you provide a list of the graphs or a more detailed description, I can help you identify which one fits this description.
\[ a(t) = 1,000(1.09)^t \]
In this equation:
- \( a(t) \) is the amount in the account after \( t \) years.
- The initial investment is $1,000.
- The interest rate is compounded annually at 9%, which means the amount grows exponentially.
Next, we will calculate \( a(10) \), which is the amount in the account after 10 years:
\[ a(10) = 1,000(1.09)^{10} \]
Now we need to calculate \( (1.09)^{10} \):
Using a calculator:
\[
(1.09)^{10} \approx 2.36736
\]
Thus,
\[
a(10) = 1,000 \times 2.36736 \approx 2367.36
\]
After 10 years, the amount in the account will be approximately $2,367.36.
When comparing the graphs, we should look for a graph that:
1. Starts at \( a(0) = 1,000 \) when \( t = 0 \).
2. Shows exponential growth as \( t \) increases, specifically steep growth around \( t = 10 \).
3. Reaches approximately \( a(10) \approx 2367.36 \) at \( t = 10 \).
The graph should be smooth and likely rises quickly since it's compounded annually at a fairly high interest rate.
If you provide a list of the graphs or a more detailed description, I can help you identify which one fits this description.
Submit Your Answer
We prioritize human answers over AI answers.
If you are human, and you can answer this question, please submit your answer.