The Compound Interest Equation
P = C (1 + r/n) ntwhere
P = future value
C = initial deposit
r = interest rate (expressed as a fraction: eg. 0.06)
n = # of times per year interest is compounded
t = number of years invested
Simplified Compound Interest Equation
When interest is only compounded once per year (n=1), the equation simplifies to:P = C (1 + r) t
Continuous Compound Interest
When interest is compounded continually (i.e. n --> ), the compound interest equation takes the form:P = C e rt
Demonstration of Various Compounding
The following table shows the final principal (P), after t = 1 year, of an account initially with C = $10000, at 6% interest rate, with the given compounding (n). As is shown, the method of compounding has little effect.n | P |
1 (yearly) | $ 10600.00 |
2 (semiannually) | $ 10609.00 |
4 (quarterly) | $ 10613.64 |
12 (monthly) | $ 10616.78 |
52 (weekly) | $ 10618.00 |
365 (daily) | $ 10618.31 |
continuous | $ 10618.37 |
Loan Balance
Situation: A person initially borrows an amount A and in return agrees to make n repayments per year, each of an amount P. While the person is repaying the loan, interest is accumulating at an annual percentage rate ofr, and this interest is compounded n times a year (along with each payment). Therefore, the person must continue paying these installments of amount P until the original amount and any accumulated interest is repaid. This equation gives the amount B that the person still needs to repay after t years.where
B = A (1 + r/n)NT - P (1 + r/n)NT - 1
(1 + r/n) - 1
B = balance after t years
A = amount borrowed
n = number of payments per year
P = amount paid per payment
r = annual percentage rate (APR)
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