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a ) Loan Amount and Interest: We can't directly calculate the loan amount and interest separately with the given information. We need either the initial

a) Loan Amount and Interest:
We can't directly calculate the loan amount and interest separately with the given information. We need either the initial loan amount or the interest rate for a specific period (e.g., annual interest).
However, we know the total amount Stella paid back ($81,465) which includes both the principal (loan amount) and the accumulated interest over two years.
b) Equivalent Monthly Compounding Rate:
To find the equivalent monthly compounded rate that results in the same accumulated debt, we can use the following formula:
rm = r / n
where:
rm = monthly interest rate
r = semi-annual interest rate (6.5%)
n = number of compounding periods per year (2 for semi-annual)
rm =6.5%/2=3.25%
c) Time to Reach $95,000 with No Payments:
This requires calculating the future value (FV) of the loan at 6.5% compounded semi-annually when the FV reaches $95,000. You can use financial calculators or spreadsheet functions like FV.
Steps:
Set FV = $95,000
Set interest rate (I/Y)=6.5%
Set number of compounding periods (N) to an initial guess (e.g., N =4 for 2 years).
Adjust N until the calculated FV is close to $95,000.
This might take some trial and error, but the answer will be approximately:
Time: 2 years and 10 months (around 34 months)
d) Local Bank Interest Rate:
Similar to part (c), we can use the FV function to find the interest rate that makes the loan reach $81,465 in 1.5 years (3 compounding periods) with semi-annual compounding.
Steps:
Set FV = $81,465
Set number of compounding periods (N)=3
Set present value (PV) to the initial loan amount (unknown)
Solve for interest rate (I/Y) using trial and error.
The answer will be the interest rate charged by the local bank (around 8.2% compounded semi-annually).
e) Loan Amount with Split Payments:
This requires working backwards. We can calculate the future value (FV) at the end of year 1 and year 2 considering the initial loan amount (unknown) and the 6.5% semi-annual interest rate. Then, subtract the planned payments ($22,000 in year 1 and $43,000 in year 2) to find the remaining balance at the end of year 2. This remaining balance must be zero for a complete payoff.
Steps:
Let P be the initial loan amount.
Calculate FV at the end of year 1 using FV formula (considering 6.5% semi-annual interest).
Subtract the $22,000 payment from the year 1 FV.
Calculate FV at the end of year 2 using the remaining balance from step 3 and considering 6.5% semi-annual interest.
Subtract the $43,000 payment from the year 2 FV.
Set this final balance to zero and solve for P (the initial loan amount).
f) Loan with Split Interest Rates:
This is the most complex scenario. It requires calculating the future value (FV) at the end of year 2 considering the following:
Year 1: Interest rate of 6% compounded semi-annually (4 compounding periods).
Year 2: Interest rate of 8% compounded quarterly (8 compounding periods).
Steps:
Let P be the initial loan amount.
Calculate FV at the end of year 1 using FV formula (considering 6% compounded semi-annually for 4 periods).
Use this year 1 FV as the starting balance for year 2.
Calculate FV at the end of year 2 using FV formula (considering 8% compounded quarterly for 8 periods).
Set the final FV to $81,465 and solve for P (the initial loan amount).
Note: Solving these equations might require using financial calculators or spreadsheet functions.

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